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YETEEINAEY' MEDICINES 
 
 THEIK 
 
 ACTIONS AND USES 
 
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Printed by R. ^ R, Clark 
 
 FOR 
 
 DAVID DOUGLAS, EDINBURGH. 
 
 LONDON HAMILTON, ADAMS, AND CO. 
 
 CAMBRIDGE . MACMIL-LAN AND CO. 
 
 GLASGOW . JAMES MACLEHOSE 
 
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VET^EINAEY MEDICINES 
 
 THEIR 
 
 ACTIONS AND USESV, 
 
 BY 
 
 FINLAY DUN 
 
 FOEMERLT LECTUBEE ON MATBEIA MEDIOA AND DIETETICS AT THE 
 EDINBIIEQH VETEEINAET COLLEGE / , 
 
 FIFTH EDITION, REVISED AND ENLARGED 
 
 EDINBURGH 
 DAVID DOUGLAS 
 
 1878 
 
 /? 
 
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I 518 
 
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PREFACE TO THE FIFTH EDITION. 
 
 The First Edition of Veteeinaey Medicines was published in 
 1854, whilst I was Lecturer on Materia Medica and Dietetics at 
 the Edinburgh Veterinary College. The work contiuues a text- - 
 book at the ,Veterinary Colleges, is used by Veteriiiarians and 
 Agriculturists, and meets with increasing demand both in America 
 and the Colonies. 
 
 The EiFTH Edition — unavoidably delayed in its publication — 
 has been thoroughly revised, many of the articles have been 
 rewritten, and much new matter is added. 
 
 As in previous editions, the general actions ahd uses of 
 veterinary medicines; and the more .important principles and 
 practice of pharmacy, are treated' of in the Introduction. The 
 bulk of the volume is occupied with the consideration of the 
 natural history,' preparation, and properties of the individual 
 mediciues; their most common impurities and adulterations; 
 -their general action on the various domesticated animals; and 
 their uses, doses, and medicinal forms. To facilitate reference, 
 the several drugs are discussed in alphabetical order according 
 to their English names. 
 
 Earlier editions contained an Appendix, comprising short 
 ,notices of the nature, causes, symptoms, and treatment of the 
 
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vi - PREFACE. 
 
 more common diseases of the domestic animals; but such 
 matter being somewhat out of place in a text-book of Materia 
 Medica, it has been superseded by an Index of Diseases, in 
 which, under each disease, are set forth appropriate remedies, 
 arranged chiefly in the order of their value, or of their applica- 
 tion in the earlier and later stages of the disorder. This Index 
 of Diseases, supplemented by a copious Index of Medicines, wiU 
 enhance the usefulness of the book alike to Students and 
 Practitioners. 
 
 2 Portland Place, London, W., 
 April 1878. 
 
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VETEEINAEY MEDICINES 
 
 ACTIONS AND USES. 
 
 INTEODUCTIOK 
 
 Veteeinaey Materia Medica; in the extended sense of the 
 term, treats of every agent, material or immaterial, which is 
 use9. for the cure of disease or injury, or for the preservation of 
 health, among the domesticated animals. The full considera- 
 tion of so large and diversified a subject would, however, fill 
 several .volumes, and the present work is devoted to that branch 
 oi Veterinary Materia Medica which is sometimes styled 
 Veterinary Pharmacology, or the description of the medicines 
 or drugs used in the cure of disease among the domesticated 
 animals. 
 
 Medicines, although derived from so many sources through- 
 out the animal, vegetable, and mineral kingdoms, possess many 
 actions in common, and are prepared for use by the same phar- 
 maceutical processes. Two preliminary sections will therefore 
 be advantageously occupied with general observations on the 
 actions of medicines, and on the more important operations of 
 pharmacy. The description of the medicines themselves 
 occupies the body of the volume. 
 
 B 
 
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ACTION OF MEDICINES 
 
 SECTION I. 
 
 ON THE GENERAL ACTIONS AND USES OF MEDICINES. 
 
 Every medicine is endowed with certain inherent characteristic 
 actions, which distinguish it as decidedly as its physical and 
 chemical properties. Thus some mediciaes act on the bowels, 
 causing purgation ; others on the kidneys, stimulating the 
 secretion of urine ; and others on the brain and nervous system, 
 causiag iasensibility ; in fact, there is no part or organ of the 
 body which is not influenced, and that often in several different 
 ways, by some medicinal agent. There appears to be an 
 elective affinity between certain drugs and certain organs ; but 
 it is impossible to explain why a medicine should act ia one 
 way rather than in another ; why, for example, aloes is purga- 
 tive, and not diuretic, narcotic, or anaesthetic ; or why chloro- 
 form is anaesthetic, and not caustic, diuretic, or purgative. 
 Mainly by observation and experience have the actions and 
 uses of medicines been gradually ascertained. Seldom can 
 they be certainly predicted from the physical condition, 
 botanical order, or even from the chemical relations of the 
 drug. Of these actions, or dynamical effects of medicines, the 
 student must endeavour to conceive in the same manner as he 
 does of their more familiar properties of colour, odour, taste, or 
 density. 
 
 In order to facilitate the discussion of the general actions 
 and uses of medicines, this section is -divided into the following 
 heads : — 
 
 I. The manner in which medicines establish their actions. 
 IT. The manner in which medicines are believed to cure 
 disease. 
 
 III. The arrangement of medicines according to their physio- 
 logical actions. 
 
 IV. The circumstances which modify the actions of medi- 
 cines. 
 
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BY ABSORPTION. 3 
 
 I. THE MANNER IN WHICH MEDICINES ESTABLISH 
 
 THEIR ACTIONS. 
 
 Some medicines, as demulcents, caustics, and astringents, 
 have mainly a local or topical action — soothiag, corroding, 
 constringing, or altering the animal tissues, but not necessarily 
 extending their influence beyond the part to which they are 
 first applied. Others, either -with or without such a local effect, 
 have a remote or indtrect action on organs at a distance from 
 the part with which they are first brought in contact. 
 
 The great majority of' medicines capable of solution are 
 taken up by the blood-vessels from the surface of the mucous 
 , membranes, skiu, or other part to which they have been 
 applied. Medicines given by the ihouth, and in a solid state, 
 are prepared for absorption by the secretions of the alimentary 
 canal. The alkaliae saliva, besides mechanically moistening, 
 cracks starch granules ; the acid pepsiu-containing gastric juice 
 dissolves iron, mercurial and other salts ; the alkaline bile and 
 pancreatic fluid, with the glucose of the intestiual juices, emul- 
 sify fats and dissolve resins. The blood being alkahne, flowing 
 rapidly, with a speciflc gravity- of 1'050, which is higher than 
 that of the other animal fluids, presents conditions endinently 
 favoui'able for the absorption or endosmose of medicine^. There 
 are, however, great differences in the manner in which different 
 niediciaes act upon and get through the moist digestive mem- 
 branes into the circulation. Through the capillary veins which 
 ramify on the surface of the stomach and intestines, the dissolved 
 medicines enter the general circulation by the mesenteric and 
 portal vessels, and are carried to aU parts of the body. Their 
 effects on the blood and soft solids wiU. receive further notice in 
 a subsequent section. Some medicines, such as turpentine and 
 camphor, are rapidly changed ia the blood, and soon defy de- 
 tection; but many are unchanged, or only slightly changed, 
 usually by oxidation, and exhibit an affinity for certain organs 
 through which' they are removed from the body. Thus aloes 
 and full doses of oils and neutral salts are excreted through the 
 bowels, causing in their transit increased action. Nitre and 
 ethers are chiefly got rid of through the kidneys, excittag them 
 to increased outpouring of fluid. ' The rapidity with which 
 most substances are thus absorbed and make the round of the 
 
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4 ACTION OP MEDICINES 
 
 circulation is almost incredible. Professor Hering, of the 
 Veterinary College, Stuttgardt, found that yellow prussiate of 
 potash injected iato one of the jugular veins of a horse appeared 
 in the other in twenty-five seconds, and was exhaled from the 
 mucous and serous membranes in a few minutes; and also that 
 barium chloride injected into the jugular vein of a dog reached 
 the carotid artery in seven seconds. Dr. A. Waller, of Geneva, 
 found that when the foot of an albino rat was immersed even 
 for a few seconds in a solution of one per cent of atropine in 
 chloroform, absorption occurred, and the pupil of the eye became 
 dilated in from two to five minutes. Dr. Blake observed that 
 barium chloride and nitrftte traversed the whole circulation' of a 
 dog in nine seconds, and that of a horse in twenty seconds ; 
 and a similar rapidity of distribution doubtless obtains with 
 substances which cannot easily be detected in the blood. 
 
 Medicines, it is believed, also produce nervous impressions 
 on the part to ,which they are applied, or on the interior of the 
 blood-vessels aftei; absorption, and these impressions are some- 
 times propagated through the nervous system to remote parts. 
 In support of this view, it is urged that the rapid operation of 
 such, poisons as.prussic acid and aconite, which act almost 
 instantaneously and kill in a few seconds, does not allow even 
 the brief period necessary for the distribution of the poison ; 
 whilst even stronger evidence is derived from the effects of 
 local injuries in producing constitutional disturbance. A blow 
 on the region of the stomach sometimes causes fatal swooning ; 
 distension of the stomach often produces hiccough ; the presence 
 of worms in the intestiues will induce epilepsy ; and local injury 
 frequently causes fever and disordered action of important 
 organs. The connection between cause and effect in such cases 
 obviously depends on the transmission of nervous impressions 
 only. And if topical causes are thus productive of remote 
 effects, it is fair to infer thdt medicines and poisons may operate 
 in a similar manner. 
 
 In fine, although it would appear that most medicines are 
 absorbed, and actually conveyed to the parts on which they 
 act, and that such absorption and actual contact are essential 
 to their action, yet it is highly probable (though not yet posi- 
 tively ascertained) that some substances, especially the more 
 active poisons, astringents, and emetics, owe their effects to the 
 
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IN THE CUKE OF DISEASE. 5 
 
 prodi^Lction of a nervous impression, and its propagation to re- 
 mote organs. Nor is it at all improbable that, under different 
 modifjdng influences, certain substances operate sometimes in 
 one or other, or both of these two ways. 
 
 II. THE MANNER IN WHICH MEDICINES ABE BELIEVED 
 
 , TO CURE DISEASE. 
 
 Every medicine, as already stated, is possessed of certain in- 
 herent and distinctive dynamic effects, which are exerted both 
 in health and disease, and are termed its physiological actions. 
 When, however, appropriate medicines are admiaistered for the 
 treatment of any curable disease, they are said to call forth an- 
 other and secondary series of actions, more variable, uncertain, 
 and limited than the physiological, but springing from them, 
 and leading directly to the mitigation or cure of the malady. 
 These are usually called therapeutic or curative actions. It is 
 unnecessary,' however, to regard these effects as twofold ; for a 
 physiological action, more or less obvious, is the source and origin 
 of every cure, while the so-called therapeutic action is -merely 
 the physiological action exercised in. or modified by disease, and 
 specially applied to its alleviation or removal. 
 
 Many hypotheses have been propounded in explanation of 
 the manner in which medicines cure disease. Two centuries 
 ago, before chemistry and . physiology were studied, it was 
 thought that the diverse actions of medicines resulted from 
 their variously-shaped particles producing diverse mfechanical 
 effects on the body. Since the times of the alchemists the 
 action of medicines has frequently been ascribed to purely 
 chemical agency; but this, although accounting for some of 
 the effects of such medicines, as caustics and astringents, can- 
 not alone explain the general effect's of most remedies. The 
 Imng animal body is much more than a machine or a labora- 
 tory ; and mechanical and chemical laws are here modified by 
 those more complex and less understood vital principles, which 
 must be taken into' account in any satisfactory explanation of 
 the actions of the majority of remedies. 
 
 Medicines were generally believed to cure by stimulation, 
 which erroneously presupposes that all diseases depend upon 
 debility ; by elimination, some morbid matter being invariably 
 thought to be the source of mischief; by alterative or revulsive 
 
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6 ACTION OF MEDICINES. 
 
 action, which leaves, however, unexplaiaed the operation of elimi^ 
 natives and other large classes of medicines. These views are too 
 confined and partial to explain satisfactorily the diversified com- 
 plex actions of remedies, which probably cure by many methods. 
 No single rule or formula has been propounded which can 
 account for the actions of all medicines ; but the late Professor 
 Headland has lucidly remarked that "the only general explana- 
 tion we can give pf the modus operandi of medicines in the 
 cure of diseases, is to say that they operate by various counter- 
 actions." — {Actions of Medicines, third edition.) Two of these 
 systems of counteraction, accounting for the actions of the 
 majority of medicines, are, 1st, the antipathic, and 2d, the allo- 
 pathic mode of ciire. A' third system professes to cure homcBO- 
 pathically, by the administration of small doses of those medi- 
 cines which, given in larger amount, produce symptoms similar 
 to the disease to be cured ; but this doctrine is illogical, 
 unsupported by evidence^, and, when legitimately carried out, 
 is not successful in practice.* 
 
 * The system of homoeopathy {Sfioios, homoios, like or similar ; and Trddos, 
 pathos), was propounded about eighty years ago by the German physician Hahne- 
 mann, who taught that the cure of a disease is effected by infinitesimal doses of 
 such medicines as would induce, if given to a healthy subject in large quantity, 
 symptoms similar to the disease. The doctrine is enunciated in the aphorism, 
 similia simiUtiis curantiir. According to homoeopathy, cinchona cures ague and 
 intermittents, because it produces such febrile symptoms when given to healthy 
 individuals in considerable doses ; aconite is the appropriate remedy for rediioing 
 inflammatory fever, because in large doses it produces symptoms which are thought 
 to resemble inflammation ; and strychnine is the best remedy for palsy, because 
 in large doses it appears to produce paralytic symptoms. This doctrine certainly 
 appears strange and unnatural, and if sound, would stamp most disorders as hope- 
 lessly incurable ; for it is only in a few exceptional cases that any similarity can 
 be detected between the symptoms produced by large doses of the remedy and 
 those of the disease for which it is given. No known medicines, for example, are 
 capable of developing symptoms such as those of thick-wind, roaring, pleurisy; 
 strangles, distemper, or hydrophobia, yet fifteen or twenty remedies are prescribed 
 for each of these diseases. Glanders, farcy, and consumption are treated by 
 aurum, arsenicum, and bromine ; but none of these medicines develop symptoms 
 similar to the diseases for which they are used.' Again, the disciples of Hahne- 
 mann treat diseases the most dissimilar in their nature.and symptoms by the same 
 remedy. Thus Mr. Haycock, in Ms Elements of Eomosopathy, employs arsenic 
 as the appropriate remedy in mange, bronchitis, enteritis, diabetes, strangles, 
 tetanus, rheumatism, ophthalmia, poU-evil, glanders, and thirty other diseases • 
 whilst he prescribes aconite in thirty-two diseases, beginning with papplar erup- 
 tions, including most afi'ections of the respiratory and digestive organs, and end- 
 ing with ophthalmia' and glanders. An "accurate similarity" between the symptoms' ' 
 of the disease and those of the remedy is, however, regarded as essential to the 
 
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ALLOPATHY AND HOMOEOPATHY. 7 
 
 1st, Medicines act antipatMcally (dvr 4 anti, opposite; and 
 TTo^os, pathos, a disease); or, in other words, they produce a con- 
 dition diajnetrically opposed to the disease in which they are 
 administered. It is thus that astringents are effectual in diar- 
 rhoea ; purgatives in torpidity of the bowels ; and stimulants in 
 depressed states of the system. In these, and in aU other cases 
 where an antipathic cure is effected, the physiological action of 
 the medicine overcomes the morbid condition, because it coun- 
 teracts it by a superior and directly antagonistic force. This 
 mode of cure is specially adapted to the treatment of symp- 
 toms and local diseases. 
 
 2d, Medicines act.aUopathically (aXXos, alios, another; and 
 irdGos, pathos), or produce an effect which, though in itself, un- 
 natural, overcomes the disease , to be cured ; or, in other words, 
 
 success of the liomceopathic treatment ; but where is the similarity between the 
 effects of arsenic and these forty diseases for which it is prescribed, or between 
 those of aconite and the thirty-two diseases in which it is considered so efficacious? 
 These and many other such instances cannot be established without straining 
 similarities which, to ordinary eyes, are imperceptible,, or at best but very remote. 
 Hahnemann, in ihis Organon of Medicine, translated by Mr. Dudgeon of 
 London, and accepted by English homoeopathists as their standard authority, 
 .states, that " the symptoms of each individual case of disease must be the sole in- 
 dication, the sole guide to direct us in the choice of a curative remedy " (p. 120). 
 Now symptoms, although sometimes requiring special treatment, are but the 
 visible signs and results of derangement and disease ; whilst their removal, which 
 is all that is aimed at in homoeopathic treatment, does not always ensure the 
 removal of the conditions oi; which they depend. Thus rheumatism, pleurisy; 
 enteritis, worms, and many other disorders, frequently remain unchecked after 
 their symptonis have been relieved. Instead of thus vainly attempting the 
 removal of symptoms, it were, therefore, more rational at once to remove, as is 
 attempted by aUopathists, the morbid condition — the source of the evil. Causd 
 sutlatd, tollitur effectiis. No curative system directing its efforts, as homoeopathy 
 does, merely against the symptoms of disease, can ever rest upon a safe or scientific 
 basis ; for it is notorious that, under varying modifying influences, the same 
 disease? sometimes induce very dissimilar symptoms, and would consequently, 
 according to this system, require dissimilar treatment. On the other hand, 
 diseases essentially different sometimes manifest similar symptoms. Thus stupor 
 and vertigo result sometimes from an excessive and sometimes from a deficient 
 quantity of blood sent to the brain ; difficulty of breathing from too much as well 
 as from too little blood circulating through the lungs ; vomiting from irritation 
 of the stomach, or from irritation of the vomiting centre ; diarrhoea from crudities 
 in the alimentary canal, or irritant matters in the blood. Now, in these cases, 
 similar symptoms, although depending upon unlike morbid conditions, must, 
 according to homoeopathy, be combated by the same remedies ; for, it is, written, ^ 
 " Diseases are cur^d by such medicines as have the power of producing, in healthy 
 individuals, symptoms similar to those which characterise the diseases themselves " 
 (Haycock's Mements, p. 20). No provision, be it remarked, is here made for cases 
 
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8 ACTION OF MEDICINES 
 
 they occasion a short, simple, and manageable disease, which 
 subdues that which originally existed. Nature herself fre- 
 quently removes maladies in this way. Thus spontaneous 
 dian-hcea often relieves internal congestion ; and copious per- 
 spiration febrile attacks. In similar manner blisters relieve 
 pleurisy, purgatives alleviate local inflammation, and diuretics 
 remove oedema or dropsy. Those numerous and important 
 zymotic diseases which result from the maturation of a poison 
 within the body, or in its introduction from without, according 
 to allopathy, are cured, by another and more healthy action 
 being established in the sick body, the special poison being 
 checked in its formation, or destooyed and cast out, by rousing 
 to increased activity those natural purifying emunctories — the 
 skin, bowels, and kidneys. 
 
 in which the same symptoms result from different or opposite conditions ; and 
 yet we not only find the same symptoms produced by very different diseases, but 
 also by the most opposite remedies. Strychnine and prussio acid, for example, 
 although totally dissimilar in their mocl/us operamdi and general action, both in- 
 duce convulsions, and should therefore, according to the tenets of homoeopathy, 
 be equally suitable for the cure of convulsive diseases. 
 
 If the principles or foundations of homoeopathy be false and imperfect, as I 
 have endeavoured to show, the superstructure based on such a foundation cannot 
 be otherwise than weak and tottering. The following important facts and doc- 
 trines of homoeopathy exhibit, perhaps more clearly than any arguments, the 
 extravagances' and inconsistencies of the system : — The homoeopathic doses are so 
 small, that they are often incapable of detection either by the microscope or by 
 chemical analysis, and are sometimes so inconceivably minute, that the mind can 
 form no idea of them. It is admitted, even by homoeopathists, that millions of 
 such doses may be swallowed by a healthy individual without inconvenience ; but 
 in, disease, the system, according to homoeopathists, is believed to become so sus- 
 ceptible of their action, that much risk is incurred by their insuificient dilution. 
 Medicines, such as charcoal, , sand, and calcium carbonate, which, in doaes of 
 several drachms, have only a slight mechanical effect, when given in fractional 
 parts of a grain are thought to produce very powerful effects, and cause many 
 hundred symptoms. Charcoal, for example, is said, when given to a man in very 
 minute doses, to produce 930 distinct symptoms ; oyster shell, 1090 symptoms ; and 
 the ink of the cuttle-fish, 1242 symptoms. The extraordinary powers supposed to be 
 conferred on these and other medicines, even when given in doses of inconceivable 
 minuteness, are chiefly ascribed to the magic influence of careful and continued 
 triturations and often repeated shakings, performed according to moat precise 
 directions. Some homoeopathic authorities declare that there is little difference 
 of activity between different dilutions of the same medicine ; and it is said that 
 if the medicine be weU selected, it matters little whether the tenth, hundredth 
 or thousandth of a grain be used (Gunther and Haycock). There is probably 
 some truth in this tibservation, for, with most medicines, especially when admin- 
 istered to the lower animals, aU the dilutions mentioned would be equally harm- 
 less. The admixture of different medicines with one another is said to neutralise 
 the effect of all ; but if this be the case, homoeopathic drugs must always be with- 
 
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ON THE BLOOD AND NERVES. 9 
 
 m. THE AKEANGEMENT OF MEDICINES ACCORDING TO THEIR 
 
 PHYSIOLOGICAL ACTIONS. 
 
 " For the proper perfection of medicine as a rational science, 
 two things are in the main needed ; the first is a right under- 
 standing of the causes and symptoms of disease ; the second, a 
 correct knowledge of the action of medicines." — {Headland) 
 The latter of these two branches of medicine, as already indi- 
 cated, is stni, however, so incomplete, that it is difficult to 
 arrange remedial agents in satisfactory groups. Subjoined is an 
 excellent and comprehensive classification by the late Professor 
 Headland,, who induded the articles of the materia medica 
 under the four following heads : 
 
 out effect (which is very probable), for all medicines contain adulterations and 
 impurities which, though small in amount, must of course acquire great potency 
 by the triturations above mentioned. 
 
 But homceopathists assert that, in spite of the errors which their opponents 
 discover in the system, it is nevertheless very successful in the cure of disease. 
 In judging, however, of homoeopathy as a system of practical medicine, it must 
 ever be regarded as made up of two distinct parts : — Ist, The original and peculiar 
 part of the system, consisting in the use of medicines selected in accordance with 
 a law embodied in the axiom similia similibics curantur, and administered in in- 
 finitesimal doses, usually varying from one grain to one-millionth of a grain, and 
 , carefully prepared according to certain precise directions ; and 2d, Attention to 
 diet and regimen — ^the only effectual and rational part of homoeopathy, the triie 
 source of all its boasted cures, and that very department of medical treatment 
 wlidoh has been insisted upon from the most ancient times by all scientific and 
 successful practitioners, both of human and veterinary medicine. The value of 
 medicines given homceopathioally has never been satisfactorily shown, and never 
 can be so untU two series of cases, as nearly as possible alike, be treated — the one 
 in the usual homoeopathic fashion, the other with the same attention to diet and 
 regimen, but without the globules. In comparative' experiments made at the 
 Edinburgh Veterinary College as to the treatment of pleuro-pneumonia and other 
 diseases, it appeared that those cases treated by diet and regiiijen alone were as 
 speedUy and effectually cjired as those treated with the globules in addition, so 
 long as these globules were given only in homoeopathic doses. 
 
 But though the principles of homoeopathy are unsound, and though its prac- 
 tice among the lower animals has not been more successful than that of many 
 more modest modes of treatment, stUl it has done some service to the cause of 
 practical medicine by demonstrating the great power of the vis medicatrix Tiaturce, 
 and the inestimable importalice of regimen and diet as auxiliaries to the medical 
 treatment of disease. Further, it has aided in the advancement of a more rational 
 system of veterinary practice by discountenancing those copious and repeated 
 bleedings, and large and reiterated physickings, which were often indiscriminately 
 prescribed for all patients ; while it has also acted beneficially in elucidating 
 various subjects connected with therapeutics, and in inducing the opponents as 
 well as the supporters of homoeopathy to institute numerous and careful observa- 
 tions on the actions of remedies both on man and the lower animals. 
 
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1 ACTION OF MEDICINES. 
 
 I. Haematics, or medicines acting on the blood. They re- 
 store some of its wanting or deficient constituents, destroy mor- 
 bid matters circulating in it, are most valuable in constitutional 
 disorders, are tolerably permanent in their action, and include 
 aU true restoratives, tonics, and alteratives. Albumin, iron, and 
 many salines, having a resemblance or identity with the con- 
 stituents of the body, are assimilated as food or restoratives.' 
 Certain saKnes probably exert a solvent effect on the fibrin and 
 lessen the tendency to aggregation amongst the red corpuscles 
 of the blood: Antiseptics within or without the body probably 
 retard or arrest destructive changes. Acids neutralise excess of 
 alkalinity, whilst alkalies conversely neutralise acidity. Most 
 haematics which are unnatural or foreign to the body, having 
 acted as antiseptics, catalytics, specifics, or vital antidotes, are 
 more or less rapidly expelled. 
 
 II. Neurotics are medicines acting upon the nervous system, 
 exciting, depressing, or otherwise altering its tone, usually 
 prompt but temporary in their effects, and useful in renaedying 
 symptoms. They include most stimulants, narcotics, and 
 sedatives. Eegarding these neurotics. Dr. John Harley, in the 
 last edition of Eoyle's Materia Medica, 1876, thus writes: — 
 " It is on the nervous system that the effects of medicines are 
 most conspicuously displayed, while their modes of action are 
 altogether obscure. We must look upon the nervous system 
 collectively as a compound voltaic battery and the nerve force 
 as electricity; we may indeed safely assume so inuch. Eeduced 
 to this simple view, we may suppose that neurotic medicines 
 act by exciting or depressing the chemical reaction, on which 
 the development of the nerve force depends, and, by increasing 
 or diminishing the conducting power of the nerve fibres, may 
 cause spasm or palsy accordingly. The electrolytic actions 
 which generate nerve force are probably induced by the de- 
 composition of complex organic substances as albumin, and it 
 is possible that the presence of such similarly constituted 
 bodies as strychnine, quinine, morphine, and the Kke — aU of 
 which significantly contain nitrogen — in the central nervous 
 system, may have a similar effect upon the changes going on 
 in the nerve cells, as the addition of sulphuric acid or neutral 
 oxalate of potash to a cell of Daniells' battery would have on 
 the current proceeding from it." 
 
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PHYSIOLOGICAL CLASSIFICATION. 
 
 11 
 
 TABLE OF THE DIFFEEENT CLASSES OF MEDICINES, ARRANGED 
 ACCORDING TO THEIR PHYSIOLOGICAL ACTIONS. 
 
 I. — MEDICINES WHICH ACT CHIEFLY AS MECHANICAL AGENTS. 
 
 Demulcents. 
 Diluents. 
 
 Soothe, soften, and slieatli. 
 Dilute the fluids. 
 
 Examples : 
 Solutions of gum, albumin, 
 
 milk, and oils. 
 Water, and watery fluids. 
 
 II. — MEDICINES -V^HIOH ACT CHIEFLY AS CHEMICAL AGENTS. 
 
 Antiseptics. 
 
 Disinfectants. 
 
 Deodorisers. 
 
 Antidotes. 
 
 Caustics. 
 
 Acids. 
 Antacids. 
 
 Prevent or arrest putre- 
 faction. 
 
 Absorb, alter, or destroy 
 contagious matters. 
 
 Disguise or destroy odours. 
 
 Counteract poisons. 
 
 Destroy the ' animal so- 
 lids, and decompose the 
 fluids. ' 
 
 CounteraXit alkslliuity. 
 
 Counteract acidity. 
 
 Examples : 
 Common salt, tar acids, zinc 
 
 and iron chlorides. 
 Tar acids, sulphurous acid, 
 
 lime chloride. 
 Bleaching powder, tar acids 
 
 and dry sodium sulphite, 
 
 Condy's fluid. 
 Dilute alkalies for acids. 
 
 Hydrated iron sesq^uioxide 
 
 for arsenic. . 
 Strong acids, metallic salts, 
 
 as silver nitrate, butter ot 
 
 antimony. 
 Sulphuric, nitric, and hydro- 
 chloric acids. 
 Alkalies, and alkaline earths, 
 
 with their carbonates. 
 
 IIL — MEDICINES WHICH ACT CHIEFLY AS VITAL AGENTS. 
 
 M 
 
 S 
 
 Rubefacients. 
 Vesicants. 
 
 Suppurants. 
 
 Errhines. 
 
 Stomachics. 
 
 Emetics. 
 
 Ecbolics.- 
 
 Aphrodisiacs. 
 
 Cause redness of the skin. 
 
 Cause discharge of serum 
 from the skin. , 
 
 Cause discharge of pus 
 from the skin. 
 
 Irritate the mucous mem- 
 brane of the nostrils. 
 
 Promote digestion. 
 
 Causp vomiting. 
 
 Induce contractions of the 
 
 uterus, and expulsion of 
 
 its contents. 
 Stimulate the generative 
 
 organs and the venereal 
 
 a.ppetite. 
 
 Examples : 
 Alcohol, turpentine. 
 Cantharides, b'oUing water. 
 
 Croton oil, tartarised anti- 
 mony. ' 
 
 Veratrum, album, euphor- 
 bium. 
 
 Ginger, cardamoms, volatile 
 oils. 
 
 Tartarised antimony, zinc 
 and copper sulphates, 
 ' mustard, salt. 
 
 Brgotj of rye, savin, can- 
 tharides. 
 
 Phosphorus, cantharides, 
 peppers. 
 
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12 
 
 ACTION OF MEDICINES. 
 
 ill 
 
 ^1 
 
 o g 
 
 P MO 
 
 CO iU4^ 
 
 ■sss 
 as 
 
 fe (» o 
 
 P g M 
 
 ■+5 PI 
 a 3 61) 
 
 Purgatives. 
 Expectorants. 
 Diaphoretics. 
 Diuretics. 
 
 Si 
 
 R.S33 
 n o s 
 
 <13 
 
 
 Restoratives. 
 Tonics. 
 
 Stimulants. 
 
 Alteratives. 
 
 Astringents. 
 
 Emollients. 
 Eefrigerants. 
 
 ' Sedatives. 
 Narcotics. 
 
 Ansestlietics. 
 
 Evacuate the bowels. 
 
 Increase secretion of respir- 
 atory membrane. 
 Increase perspiration. 
 
 Increase secretion of urine. 
 
 Increase the salivary se- 
 cretions. 
 
 Supply materials for 
 growth, and repair. 
 
 Gradually but peiTnan- 
 ently improve appetite 
 and increase vigour. 
 
 Promptly but temporarily 
 increase nervous energy, 
 and thus exalt action 
 of the heart and other 
 functions. 
 
 Neutralise or counteract 
 morbid materials or pro- 
 cesses in the blood. 
 
 Contract living tissues. 
 Soften, soothe, and relax. 
 
 7 
 
 Lower animal heat. 
 
 Depress both the nenrous 
 and circulatory systems. 
 
 Pass from the blood tp the 
 nerves and nervous cen- 
 tres, and act so as first 
 
 , to exalt nervous force 
 and then to depress it ; 
 and have also a special 
 action on the intellectual 
 part of the brain. — 
 {Headlamd.) 
 
 Diininish sensibility to 
 pain, and to external 
 impressions. 
 
 Examples ; 
 
 Aloes, croton, oils, jalap, 
 neutral salts. 
 
 Ipecacuan, balsams, gum- 
 resins. 
 
 Warm clothing, ammonia 
 acetate, ethers. 
 
 Tui'pentine, resin, nitre. 
 
 Mercurials, iodine, pungent- 
 tasted bodies. 
 
 Food, air, salines, iron, phos- 
 
 Cinchona, , quinine, iron and 
 copper sulphates. 
 
 Ammonia, alcohol, ethers, 
 volatile oils. 
 
 Mercury, iodine, arsenici 
 salines, and alkalies. 
 
 Oak balk, tannin, alum, and 
 other metallic salts. 
 
 Poultices, fomentations, 
 moistened spongiopiline. 
 
 Cold air,' cold water, ice, 
 salines, and ethers. 
 
 Aconite, prussic acid, blood- 
 letting. 
 
 Opium, Indian hemp, bella- 
 donna. 
 
 Chloroform, ether, naphtha, 
 coal gas, nitrous oxide. 
 
 III. Astringents cause- the contraction of both voluntary 
 and involuntary muscular fibre, and especially of the latter, 
 and thus &.rrest secretion and bleeding. 
 
 IV. Ehminatives are irritant medicines, unnatural to the 
 blood, which are expelled from it through the various excreting 
 
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DEMULCENTS. ,13 
 
 organs, and in their passage heighten their activity, increase 
 their discharges, and thus carry noxious matters out of the 
 system. Purgatives, diuretics, and diaphoretics are examples 
 of this class. 
 
 Dr. John Harley states that the fundamental action of drugs 
 is fourfold — first, they may retard or accelerate osmose ; 
 secondly, they may alter the condition of the blood; thirdly, 
 they may increase or diminish those changes in the nerve cells 
 ■which result in the generation of nerve force ; and lastly, by 
 virtue of similar influences, they may increase or diminish the 
 conductivity of the nerve fibres.^(Eoyle's Materia Medica, 
 sixth edition.) 
 
 Classifications of medicines, although confessedly imperfect, 
 are nevertheless of considerable practical utility, and I accord- 
 ingly give on the two previous pages a tabular view of a 
 classification which I sometimes adopted in my lectures, and 
 in which are grouped medicines, classed and denominated 
 according to their physiological actions, into three great divi- 
 sions of mechanical, chemical, and vital agents — a plan followed 
 by Dr. A. T. Thomson and several other authors. 
 
 To familiarise the student with the names, general actions, 
 and therapeutic applications of these different classes of medi- 
 ■ cines, I shall briefly notice them iu the order ia which they 
 occur in the above table. 
 
 Demulcents. 
 
 Demulcents (demulceo, I soften) soothe, soften, and sheath 
 parts with which they come in contact. ' ' They are sometimes 
 defined as internal emollients. " They include gums, mucilage, 
 sugar, starch, gelatin, albumin, fats, oils, and milk. They take 
 the place of such natural demulcents, as the tears or mucus, 
 where these are defective or wanting; lubricate and defend 
 irritable parts from injurious action of the air, of acrid secre- 
 tions, or of irritating and poisonous matters ; if absorbed un- 
 ■ changed, they exert a general demulcent effect or act as dH^ 
 uents. They are chiefly prescribed to relieve dry, irritable, and 
 inflamed states of the respiratory, digestive, and urino-genital 
 mucous membranes. 
 
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14 ACTION OF MEDICINES. 
 
 Biluents. 
 
 Diluents {diluo, I dilute) consist of bland watery fluids 
 -whicli (as the name indicates) dilute tlie blood and the ■watery- 
 secretions. They include water and such simple drinks as lin- 
 seed and hay tea, barley and treacle water. In febrile and 
 inflammatory attacks they assuage thirst, counteract torpor of 
 the digestive organs, favour activity of the several secreting 
 channels, and remove from the body waste or deleterious 
 matters. They hasten and increase the action of purgatives, 
 diuretics, and other evacuants ; and in irritation of the urinary 
 organs, augment the quantity and lessen the pungency of the 
 urine. In febrile cases they are usually prescribed in a tepid 
 state, or " with the cold air off ; " but are generally more palat- 
 able and refreshing when cold; and, if small quantities only 
 are given at a time, no harm results even from ice-cold drinks. 
 Horses working hard, and kept mostly on dry food, often suffer 
 from the want of diluents, which, if more freely and frequently 
 supplied, not only ward off trjdng thirst, but help to prevent 
 indigestion, skin irritation, febrile attacks, and even farcy. 
 
 Antiseptics — Antiputrescents — Antizyrrwtics. 
 
 Antiseptics (avrt, anti, against; and o-r]irTiK6<s, septikos, putre- 
 fying) prevent or arrest the decomposition of organic bodies. 
 The breaking up, fermentation, or putrefaction, to which com- 
 plex organic subjects are so prone, is favoured by moisture, by 
 warmth, and usually by the presence of air or oxygen, but 
 directly depends upon the presence of particular ferments, 
 germs, sporules, or living organisms, consisting of Tegetable 
 fungi, like the yeast plant ; or of bacteria, vibrios, or allied 
 animal bodies. Bacteria are believed to be either the carriers 
 of the septic • poison or the poison itself. Although minute, 
 often not exceeding .^-^y^jy^^ of an inch, seldom demonstrable 
 by the highest microscopic power, and not discernible by chem- 
 ical tests, each particular germ or ferment in the presence of 
 suitable organic matters indicates its presence and exerts its own 
 particular action. These living germs have considerable vitality; 
 in suitable situations they have wonderful powers of reproduc- 
 
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ANTISEPTICS — ANTIZYMOTICS. 15 
 
 tion. They readily float, and are carried about, in the atmo- 
 sphere. Complete exclusion of air, in which they are so 
 constantly present, prevents their access. Exposure to a tem- 
 perature over 212° usually destroys them. Charcoal, dry earth, 
 and cotton wool, mechanically entangle them, and hence often 
 retard or prevent putrefaction. Chemical action, such as oxi- 
 dation or deoxidation, the abstraction of some other essential 
 element of the unstable organism, or the coagulation of its 
 albumin, explain the operation of some antiseptics. , Dr. Angus 
 Smith ascribes to some a colytic or restraining influence; whilst 
 others, without much chgmical effect, appear to exert a positively 
 poisonous action on the septic germs. But in what manner 
 soever they operate, all true antiseptics destroy those living 
 germs which develop change and decay, and probably, also, 
 render the pabulum on which they grow and multiply less 
 suitable for their nourishment. 
 
 From remote antiquity antiseptics have been used. The 
 Egyptians employed them in embalming their dead ; Ulysses 
 burnt brimstone to fumigate his house and courts; the Eomans 
 successfully disinfected their sewage. Dr. Angus Smith made, 
 for the Cattle Plague Commissioners,* a most instructive series 
 of experiments with antiseptics. He found that cresylic acid 
 and fusel oU. stood at the head of the Hst. A few drops of either 
 placed in the bottom of wide-mouthed bottles in which pieces 
 of fresh meat were suspended, prevented putrefaction during 
 fifty-one days, although the stoppers were occasionally removed. 
 Carbolic acid and kreasote proved equally effective, but caused 
 some darkening of the meat, to which they also communicated 
 -their peculiar tar flavour. Oil of mustard, wood naphtha,, and 
 oil of bitter almonds follow next in order, preserving as effectu- 
 ally as the cresylic acid, but interfering with the natural colour 
 of the meat. Nfext in order stood acetic and pyroUgneous acids, 
 essence of pine-apples, and coal naphtha. Considerably lower 
 in the scale come in order oil of juniper, aniline, oils of pepper- 
 mint and rue, with turpentine and phosphorus. As pointed 
 out by Dr. Angus Smith, the most effectual preservers,' and 
 those which least interfere with the colour, flavour, and con- 
 sistence of the meat, are the following bodies of the alcphol 
 
 * Third Report of the Commissioners appointed to inquire into the Origin, and 
 Nature, etc., of the Cattle Plague, 1866. 
 
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1 6 ACTION OF MEDICINES. 
 
 series. (The first column gives the old formula; the second the 
 new, which is generally adhered to throughout the volume.) 
 
 Methylic alcohol, 0^ H^ Oj, 
 
 or C 
 
 ,H, 
 
 Ethylic „ C^ Hb Os 
 
 0. 
 
 H, 
 
 Amylic „ C^^ H^ 0^^ 
 
 c. 
 
 H..0 
 
 Carbolic (phenylic), Cjj Rg Og 
 
 Ce 
 
 H, 
 
 Cresylic „ C^, H^ 0^ 
 
 Or 
 
 Hs 
 
 For preserviag meat for food, these agents are not equally 
 available ; amylic, carbolic, and cresylic acids or alcohols, unless 
 used sparingly, prove injurious when swallowed. 
 
 Various gases were introduced into securely-corked bottles, 
 containing weighed portions of meat suspended in them. These 
 trials extended over twenty-eight days. The mineral acids 
 (hydrochloric, nitric, and nitrous g,cids) prevented putrefaction 
 most effectually, but darkened and destroyed the natural appear- 
 ance of the flesh. Sulphurous acid produced less discoloration^ 
 but left an unnatural pink colour. Carbonic acid after seven 
 days left the meat smelling and slimy. Heavy oil of tar, hydro- 
 gen peroxide, and M'Dougall's powder, were equally iaeffectual. 
 Ammonia and iodine kept the meat well during the twenty-eight 
 days, and without leaving their special odours. Chlorine was 
 equally effective, but bleached. Ether communicated its flavour, 
 but preserved the meat well. 
 
 Another valuable series of experiments was undertaken by 
 Dr. Angus Smith {Third Heport to Cattle Plague Commissioners), 
 in order to test the power of various antiseptics on blood and 
 water kept from' two to forty-two days. The most thorough 
 preservation was attained by zinc and iron chlorides. ' Corrosive 
 sublimate came next ; arserdous acid and copper sulphate fol- 
 lowed. In the experiment on the disinfection of sewage, the 
 best results followed the use of iron perchloride, followed by 
 lime salts. Aluminium chloride, m the form of chloralum, 
 recommended by Professor John Gamgee, has recently been 
 used. Although not so active an antiseptic as the metallic salts ' 
 first enumerated, and wanting the diffusive power which makes 
 an effective disinfectant, it proves convenient both for external 
 and internal use. The advancement of putrefaction, and the 
 amount of water added to the blood or other decomposable 
 material, were found' greatly to increase the difficulty of disin- 
 
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EFFECTUAL ANTISEPTICS. 17 
 
 fection; and hence tlie important practical conclusion, that 
 antiseptics should be added to animal excreta, and other articles 
 to he preserved, before any change has occurred, or before any 
 water is mixed with them. Common salt, so deservedly prized 
 as a domestic preservative, has wonderful antiseptic powers; two 
 ounces sufficed to preserve from putrefaction and smell, during 
 thirty-four days, one hundredweight of human excrement ; but 
 when decomposition has once set in, salt does not effectually 
 arrest it. For deodorising the meat condemned as unfit for 
 food, nothing is so cheap and effectual as Cooper's salts, which 
 consist of 80 per' cent of waste chlorides with 20 of water; 
 iron sulphate and picric acid being subsequently added to discolour 
 the meat, and prevent its being used for human food. Chloride 
 of lime, in the faimliar form of bleaching powder, destroys 
 ammonia, urea, and uric acid ; it hence proves an effectual 
 deodoriser ; but its antiseptic power is low, and on account of 
 its decomposing so many nitrogen compounds, its addition to 
 refuse matters diminishes their manurial value. Hydrogen 
 •peroxide and the permanganates are expensive but effectual 
 deodorisers. Carbolic and cresylic acids, the active constituents 
 of the impure brown carbolic acid, of kreasote, of tar oils, and 
 of M'Dougall's disiafecting powder, are for general purposes the 
 most effectual antiseptics. Mixed with stable manure, decom- 
 position and heating are prevented ; sewage treated as at Carr 
 lisle with these tar acids, although deprived of smeU, is not 
 diminished in manurial value ; flies and animalcules are seldom 
 seen on land dressed with it ; potato disease is also said to be 
 prevented; and sheep gra,zed are not liable to foot-rot. — {Third 
 Beport, p. 160.) , 
 
 To Dr. Angus Smith's list must now be added salicyKe acid 
 (Cy Hg O3), a very concentrated effectual antiseptic, more powerful 
 eVeh than carbolic acid, unlike it and its fellows, non-volatile, and 
 hence having its sphere of action limited to the parts with which 
 it is brought in contact, devoid of irritant, caustic, or poisonous 
 properties, and therefore specially suitable for food preservation 
 and for internal use. Boracic acid has also come into extensive 
 use as a non-volatUe, unirritatitig antiseptic. Chloral-hydrate 
 has been recommended by Dr. William Craig of Edinburgh as a 
 pleasant-smelling, soothing, and effectual antiseptic ; a solution 
 of five grains to the ounce of water is recommended for dissect- 
 
 C 
 
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18 ACTION OF MEDICINES. 
 
 ing-room and general surgical purposes. Dr. P. Grace Calvert 
 placed an albumiaous solution in separate tubes kept ' at 
 80°, and added to each- one-thousandtli part of various anti- 
 septics. The standard solution without anything added exhibited 
 fungi in 18 days, vibrios in 12 days, and putrid odours in 16 
 days. The miaute addition of carbolic and cresylic acids pre- 
 vented, for the three months during which the experiments 
 continued, development of fungi, vibrios, or putrid odours. The 
 solution treated Avith mercury bichloride remained without 
 vibrios or odour, but showed fungi in 81 days. Zinc chloride 
 prevented the growth of vibrios, but fungi appeared in 53 days, 
 and putrid odours in 3 8 ' days. Zinc-sulpho-carbolate averted 
 vibrios and odour, but kept fuijgi away only during 17 days. 
 Arsenious and acetic acids, although preventing smell and retard- 
 ing the development of vibrios, had no power in retarding 
 fungus growth. But quiniae sulphate arrested both fungi and 
 odour, aHowiag, however, the appearance of vibrios in 2 5 days. 
 Charcoal has no influence either on the animal or vegetable 
 germs, but prevents odour. Sulphurous acid has somewhat 
 similar effects, but being volatile loses its power, and putrid 
 smell becomes noticeable in 45 days. 
 
 Zinc and iron chlorides, with other mineral substances, have 
 long been used in surgical practice as antiseptics. For centuries 
 pitch and tar, tinctures of myrrh and of benzoin have been ap- 
 plied both in human and veterinary surgery. But Professor Lister 
 has inaugurated a new and thorough system of antiseptic surgery. 
 He uses carbolic acid ingeniously applied in many different ways, 
 with most satisfactory results, preventing the access to wounds 
 of those ubiquitous germs which induce faulty degenerate action, 
 (Checking suppuration and gangrene, and hastening healing. 
 Wounds treated antisepticaUy are as soon as possible thoroughly 
 washed with a solution of carbolic acid, containing one part of 
 acid to twenty of water ; every recess is bathed, and, if need be, 
 syringed out, with the preservative fluid. To prevent the car- 
 bolic vapour and moisture unduly irritating the wound, it is 
 usually covered with a fold of oiled silk, coated with copal and 
 dextrine, and applied well wetted with the one to twenty solu- 
 tion of carboUc acid. Over this are laid six or eight folds, of 
 antiseptic gauze saturated with the carbolic solution. Between 
 the two outer folds of the gauze a piece of Mackintosh cloth is 
 
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ANTISEPTIC SUKGEKY. 19 
 
 introdnped to prevent the direct soakage of drainage through 
 the centre of the dressing, which is retained in position by suit- 
 able bandages. To ensure the full advantage of the antiseptic 
 treatment, the wound untU cicatrised must not be exposed, even 
 for dressiag, without being played upon by carbolic vapoijr from 
 a spray producer, or covered with a protectiug piece of calico 
 soaked in carbolic solution. To prevent the possibility of con- 
 veying into the wound any septic germs, the knives, probes, 
 Hgatuxes, sponges, as well as the hands of the operator, must be 
 repeatedly moistened with carbolic solution. When used at 
 once for serious contused wounds carbolic dressings often 
 coagulate, and preserve oiftpoured blOod and serum, and prevent 
 their breaking up. To secure, however, its full advantages, 
 carbolic acid must be applied before destructive germs get access 
 to the wound, and it must be carefully and systematically con- 
 tinued until granulation has made good progress. Under car- 
 bolic spray, abscesses and bursae are opened with greatly reduced 
 risks of destructive inflammation and suppuration. 
 
 Carbolic acid having been so signally successful in surgical 
 practice many other antiseptics have been tried, some of them of 
 great utility. Salicylic acid, valuable on account of its con- 
 centrated form and its freedom from smeU, taste, and irritant 
 effect, is not volatile, and hence does not require, like the vola- 
 tile carbolic acid, that the dressings soaked with it should be so 
 frequently renewed. Boracic acid is another non-volatile un- 
 irritating antiseptic, often superseding carbolic acid where bad 
 wounds have got over the early sloughing stage, where frequent 
 
 - dressings are unnecessary, or where granulation and growth of 
 skin are to be encouraged^ Chloral hydrate is, like carbolic 
 acid, volatile, penetrating, and able to attack germs and arrest 
 the decay, irritation, and foetor of decomposing textures in deep 
 
 ■ or lacerated wounds, where the nourVolatUe salicylic or boracic 
 dressings do not actually touch ; and further recommends it- 
 self on account of its local anaesthetic virtues. Sulphurous 
 acid gas dissolved in water is a cheap, effectual, and soothing 
 antiseptic, suitable for surgical cases> Chlorinated soda solution 
 is sometimes also used, and Professor Spence recommends iodine 
 tincture, diluted according to circumstances, as a valuable stimu- 
 lant and antiseptic dressing. — {Lectures on Sv/rgefy) 
 
 Antiseptics have not hitherto been so successful iu medical 
 
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20 ACTION OF MEDICINES. 
 
 as in surgical practice. Pus and otlier degenerate cell-growths 
 being, however, certainly arrested in their development and 
 multiplication outside the body, should in like manner be 
 checked and destroyed when they circulate in the blood and 
 other soft solids. As, has been pointed out' by Dr. Lionel Beale, 
 diseased germs or bioplasms being of rapid growth, have 
 ■ scarcely any protecting envelope, and hence are more readily 
 attacked than the living tissues amidst which they are placed 
 by antiseptics introduced into the blood. Two striking experi- 
 mental observations may be adduced in favour of the efficacy 
 of antiseptics when given internally. Professor PoUi, of Milan, 
 found that dogs, which for five days previously had been re- 
 ceiving daUy doses of sodium sulphite, suffered comparatively 
 little inconvenience from the inoculation of foetid pus, which 
 destroyed, with gangrene and typhoid, dogs not previously pro- 
 tected by the antiseptic. Mr. Crookes {Third Beport of the 
 Cattle Plague Commission) injected into the veins of a cow 
 affected with cattle plague 105, grs. of carbolic acid, dissolved 
 in six ounces of glycerin and water. Not only were no bad 
 effects produced, but the cow steadily improved and recovered. 
 But even more to the purpose, as showing the efficacy of the 
 administration of antiseptics, are the observations (also made 
 by Mr. Crookes) that cattle in plague-infected buildings, 
 receiving daily an ounce of carbolic acid along with their food, 
 and having carbolic and sulphurous acid fumes frequently 
 • liberated in their sheds, did not catch the contagious plague. 
 
 Potassixim chlorate and permanganate, with other salines, 
 sulphites, sulpho-carbolates, mineral acids, salicylic acid, and 
 many valuable alteratives, doubtless owe their efficacy to their 
 antiseptic properties ; or, in other words, to their destruction 
 of disease germs, and to the alteration or removal of the pabu- 
 lum on which these germs subsist. But results much beyond 
 those at present attained may yet flow from the medicinal use 
 of antiseptics. Appropriate antiseptics may yet be discovered 
 which win retard the development or destroy the specific germs 
 of tubercle and cancer, of febrile complaints, of glanders and 
 farcy, of quarter-evil and parturient apoplexy. Their employ- 
 ment might be greatly extended in abating acute fever, lower- 
 ing elevated temperature, relieving capillary congestion, and 
 removing the foetor and contagion of the dejecta. The recent 
 
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BESTRUCTION OF CONTAGIUM. 21 
 
 discovery of the power of salicylic acid to control and arrest 
 rheumatic fsTer encourages the belief that special antidotes 
 may be found for each form of blood-poisoning. Nay more, 
 the experiments of Professor Polli and Mr. Crookes, above 
 referred to, afford good hope, that by the administration of anti- 
 septics, especially during the prevalence of epizootic and con- 
 tagious diseases, animals may be rendered comparatively safe 
 from their attacks. 
 
 Antiseptics are given medicinally by the moiith, by sub- 
 cutaneous iujection, and by inhalation; and the two latter 
 modes of introducing them into the system are especially de- 
 serving of extended use in yeterinary practice. 
 
 Disinfectants. 
 
 Disinfectants {dis, signifying separation ; and infioio, I infect) 
 are agents which absorb^ alter, or destroy contagious matters. 
 They are closely allied to deodorisers and antiseptics. Strictly 
 speaking, antiseptics prevent decomposition, whilst disinfectants 
 neutralise or destroy noxious matters produced by- decomposi- 
 tion or phange, whether ia dead or living matter. Mr. William 
 Crookes, in his report to the Cattle Plague Commissioners,* 
 . remarks : " Disinfection, in the widest sense of the term, in- 
 cludes deodorisation, and means the neutralisation or destruc- 
 tion of an substances arising from putrefying organic matter, 
 or emanating from diseased animals, either injurious to health 
 or offensive to the sense of smell." 
 
 The irwdus operandi of disinfectants is still somewhat obscure, 
 owing mainly to the imperfect knowledge of the nature and 
 behaviour of the matter of contagion. Air from feVer wards, 
 from the sheds contaiaing cattle-plague patients, and from other 
 such places filled with men and animals suffering from diseases 
 of a notoriously contagious kind, has been carefully examined ; 
 but the contagious virus which such air undoubtedly contains 
 has not hitherto been isolated or demonstrated, either by the 
 chemist or the microseopist. Until recently the matter of con- 
 tagion was believed to be in the form of a gas or volatile liquid, 
 and various gases were particularised as the essential causes of 
 
 * TUrA Report of the Omwiissioners appointed to inquire into the Origin and 
 Nature of the Cattle Plague, 1866. 
 
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22 ACTION OF MEDICINES. 
 
 contagious disorders ; as, for example, carbonic acid, marsh gas, 
 sulphuretted hydrogen, ammonium sulphide, hydrogen selenide. 
 But these gases have not been found in undue amount iu the 
 atmosphere in which patients affected by contagious diseases 
 have been kept ; moreover, when mixed with air, they may 
 usually be breathed in sensible, and sometimes even con- 
 siderable, quantities without producing such diseases. Again, 
 dilution with air o* water woiild proportionally diminish, or 
 entirely destroy, the specific action of any gaseous or volatile 
 body; but the matter of contagion retaias its power of repro- 
 duction unimpaired after being carried considerable distances 
 in air, or even in water. Such observations demonstrate con- 
 blusively that the matter of contagion occurs as a finely-divided 
 solid ; it possesses a definite shape and form ; it is an organic, 
 perhaps an organised body ; and probably resembles the pollen 
 of flowers, or the odorous dust given off by plants or animals. 
 It retains its characteristic activity although carried for con- 
 siderable distances through the air, or retained for a long time 
 in clothes, or other such substances. Suspended in air or 
 water, these contagious particles find access to the healthy 
 body mostly through the pulmonary or the alimentary mucous 
 membrane. A sufficient dose having entered the body of a 
 susceptible patient, produces, after a varying- period of incuba-. 
 tion, its notable effects; and each virus develops its own dis- 
 tinctive train of symptoms. Two views are entertained regarding 
 the way in which the matter of contagion, or " contagium," as 
 it is now termed, produces its effects. Many chemists believe 
 ■ that the organic particles commimicate their own motion or 
 activity to the decomposable materials with which they come 
 in contact. Pasteur, Beale, and other physiologists, teach that 
 contagium consists of organised germs possessed of inherent 
 vitality and power of reproduction. These germs are probably 
 distinct from microzymes, bacteria, vibriones, or such animal- 
 cules, found in the textures in various diseases. Dr. Lionel 
 S. Beale declares that under the microscope he has seen the 
 specific virus of cattle plague, of vaccine, and' of other diseases ; 
 that its visible granular particles are lodooo °f ^^ i^^h in 
 diameter. He terms it bioplasm. Other microscopists, how- 
 ever, have not hitherto been, so fortunate as to separate or 
 demonstrate these contagious germs. Of the existence of the 
 
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EFFECTUAL DISINFECTANTS. 23 
 
 contagious virus ia a distinctive solid form there can be no 
 doubt. The germs of many contagious diseases, such as cattle 
 plague, pleuro-pneumonia, and foot-and-mouth disease, cannot, 
 so far as is known, be developed by any combination of circum- 
 stances ; they spring only from parent germs given off in their 
 turn from patients iafected with the specific contagion. Occa- 
 sionally, however, distinctly contagious germs are developed de, 
 novo, probably from degenerate cells, .during the progress of 
 accidentally occurring cases of glanders, farcy, puerperal peri- 
 tonitis, or typhoid fever. 
 
 In the absence of sickness, perfect cleanliness of the animals 
 and their surroimdings, with abundance especially of pure, air 
 and pure water, are the only purifiers requisite ; but when 
 serious or catching complaints occur, further precautions are 
 desirable to attack or destroy the special seeds of disease. Par- 
 ticles of contagium are brought, and are also borne away by the 
 air. Subdivided and diffused by free currents of pure air, they 
 are obviously less likely to be taken into the animal body in 
 doses sufficient to do harm, whilst myriads, doubtless, lose their 
 vitality, or fall where , they cailnot grow or reproduce them- 
 selves. Free ventilation and adequate cubic space, with atten- 
 tion to cleanliness, further remove and dilute many of those 
 organic matters on which contagium is so prone to fasten and 
 floxirish. Besides mechanically diluting the particles of con- 
 tagion, air acts as a chemical disinfectant in virtue of its oxygen, 
 and also of its ozone, which occurs in most salubrious localities, 
 is produced especially during electrical disturbances of the 
 atmosphere, and is the natural disinfectant which neutralises 
 many dangerous organic impurities. Water, like air,> is a valu- 
 able means of cleansing and disinfecting. It mechanically 
 dilutes noxious matters, and hastens their oxidation. Sewage 
 freely nnxed with running water , is hence rapidly decomposed 
 and robbed of its injurious properties. InsuflBeiently diluted 
 with water, decomposing organic and contagious matters, in- 
 stead, however, of being deprived of their activity for evil, are 
 more likely to get distributed, and even to assume more dan- 
 gerous forms. Hence, in purifying foul or infected places, solid 
 accumulations should be mixed with some fitting antiseptic, and 
 removed without the addition of water. Stables, sheds, market- 
 stances,' trucks, or vessels contaminated by contagium, sljiould 
 
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24 ACTION OF MEDICINES. 
 
 first have their walls, floors, and woodwork swept, and, if need 
 he, scraped, and the dry or semi-solid filth, which proves so 
 xeady an absorbent of contagious virus, should be mixed with 
 MT)ougaU's disinfecting powder, and cleared away. The par- 
 tially cleansed surfaces should then be well washed with car- 
 bolic soap and water; the walls may subsequently be lime- 
 washed, and the floors spriakled with M'DougaU's powder. 
 
 Mould, and other descriptions of vegetable cells, iofusorial 
 animalcules, decaying organic matters, are all notably affected 
 by antiseptics and disinfectants. Growth, change, and decay 
 are thereby arrested, and there can scarcely be any doubt that 
 the analogous organic matter constituting contagium is siroilarly 
 affected. As pointed out by the late Professor George Wilson, 
 the matter of contagion is probably made up of two or more of 
 the four organic elements — carbon, hydrogen, oxygen, and nitro- 
 gen. If the particles floating in the air or lurking in fomites 
 can only be got at, they ought not to be difficult to destroy. 
 " Oxidisuig agents will plainly be of great value, as they can 
 readily convert hydrogen into water, and carbon into carbonic 
 acid, and thus disintegrate and destroy the organic matter. 
 Substances having a great affinity for hydrogen, such as chlorine 
 and its class, will plainly also be of .great service ; substances 
 having an affinity for oxygen will also be applicable to the 
 destruction of organic poisons ; and, finally, all reagents which 
 by contact with organic matter can determine a new arrange- 
 ment of its ultimate elements. All the powerful chemical dis- 
 infectants act in one or other, or all, of these ways." But 
 many substances, such as common salt and the tar acids, exert 
 a feeble chemical action, and yet have admittedly powerful 
 antiseptic and disinfectant properties, probably depending upon 
 their destroying the active organic particles. 
 
 Heat is an effective disinfectant ; but whether it actually 
 destroys the contagious virus, or, according to the more chemi- 
 cal view, merely disturbs its complex and unstable constitu- 
 tion, it is impossible at present to determine. In albuminous 
 and other solutions, microscopic life is effectually destroyed 
 when the temperature reaches 400°. Dr. Henry, of Man- 
 chester, foimd that vaccine lymph was rendered totally inert by 
 exposure to a temperature of 140° Fahr. Jackets worn by 
 scarlet fever patients were used with impunity by four children 
 
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METHODS OF DISINFECTION. 2 5 
 
 after being exposed during two to four hours to dry heat about 
 200°; whilst the clothes of typhus patients, after similar ex- 
 posure, were worn by himself without any bad effects. The 
 thorough cleaning of the wearing apparel, bed-clothes, and such 
 belongings of persons affected with contagious disorders, is now 
 carried out in Connection with most hospitals, and under the 
 sanitary regulations of most towns. Extremes of cold, as well 
 as of heat, interfere with the developnient of many contagions, 
 but seldom effectually destroy them. Charcoal and dry earth 
 mechanically entangle odorous and colouring matters, and in 
 like manner retain in their pores the particles of contagion 
 brought into immediate Contact with them. In much the same 
 way cotton wool has been used to filter deleterious particles 
 out of foul air, but such mechanical appliances can only have a 
 limited usefulness. The matter of septicaemia, which is heavier 
 than air, when strained through a porcelain filter, is deprived of 
 its septic properties, and with impunity has been injected into 
 recent healthy wounds, but the special germs, in unimpaired 
 activity, remain in the deposit in^the filter. 
 
 Disinfectants differ materially in their efi&cacy for different 
 purposes, and their special features have 'been examined and 
 detailed by Dr. Angus Smith in his admirable report to the 
 Cattle Plague Commissioners. When water ig present, mineral 
 salts are best, and the most effective and cheapest is zinc 
 chloride, long used in the familiar form of Sir William Bur- 
 nett's disinfecting fluid. Iron chloride also stands high, and is 
 the active constituent of EUerman's deodorising- fluid. For 
 sewage disinfection, or where there is much water, aluminium 
 sulphate, followed by lime, is recommended. Sulphites promptly 
 remove smells, and are most effectual when conjoined with the 
 tar acids. The mixture of sodium sulphite and carbolic or 
 cresylic acid, although most effectual for deodorising, has a 
 feeble power of preventing putrefaction of night soil, and when 
 remaining for a day or two freely dissolved in water they give 
 off sulphuretted hydrogen. Common salt, although it exerts 
 small power of checking decay when once established, or of 
 neutralising bad smeUs, is deservedly prized as a cheap preserver 
 of animal substances, an'd in the minute quantity of two ounces 
 to one hundredweight of night soil it prevented putrefactioA 
 and smeU, even although the mixture was kept for thirty-four 
 
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2 6 . ACTION OF MEDICINES. 
 
 days at a temperature of 60° or 70°. It is recommeuded for 
 the preservation or disinfection of infected skins, and, with 
 or without muriatic or carbolic acids, for the injection of car- 
 cases of infected animals, thus enabling them to be used 
 with impunity in the manufacture of manure. For preserving 
 meat seized as unfit for human food. Cooper's salts, consisting 
 of refuse commerciar chlorides, are cheap and effectual. Lime 
 chloride; in its convenient form of bleaching-powder, has little 
 antiseptic power, but is an effective deodoriser when used dis- 
 solved in twenty parts of water. It cannot be employed in 
 conjunction with sulphurous acid. Where there is little mois- 
 ture the tar acids are superior to everything at present in use : 
 in small amount they prevent decomposition and check fer- 
 mentation, and their effect, it should be remembered, is still 
 further increased by- admixture with dry sulphites. For the 
 disinfection of drifed skins, hair, hoofs, or flesh, and for the 
 purification of sheds, pens, waggons, etc., carbolic acid in its 
 brown impure form should be used ia the proportion of two 
 ounces to the gallon of water. M'DougaU's powder is con- 
 veniently employed to disinfect the droppings of animals, to 
 prevent the decomposition of manure, and, freely used in stables ■ 
 or cattle-boxes, it, keeps the atmosphere charged with carbolic 
 vapour. Where tar acids have been used to neutralise sewage, 
 as at Carlisle, the meadows irrigated with it are stated to be 
 almost exempt from foot-rot. 
 
 The reporters to the Cattle Plague Commission recommend 
 that air contaminated by contagious virus be disinfected by 
 muriatic acid, obtaiaed by pouring oil of vitriol on common 
 salt ; by chloriae, cheaply evolved by pouring muriatic acid on 
 manganese black oxide • by sulphurous acid, made by placing 
 sulphur on a shovelful of hot cinders ; or by tar acids sprinkled 
 over the floors or walls, or given off more abundantly by drop- 
 ping a cinder or hot iron into a vessel containing the acid. 
 These tar-acids and sulphurous acid may be very effectually 
 ■used together, and constitute the most reliable disinfectant piis- 
 ture at present known. 
 
 Iodine stood well in the cattle plague experiinents ; and 
 mainly on Dr. R W. Eichardson's recommendations, has since 
 been used in many sick-rooms and hospitals, conveniently 
 dissolved in the light diffusible amyl hydiide. The solution 
 
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INSTRUCTIONS FOR DISINFECTION. 27 
 
 contains 20 grains to the ounce ; an ounce suffices for every 
 four feet of cubic space ; distributed by a spray producer, it 
 volatilises rapidly ; it leaves when freely used a film of iodine, 
 and effectually destroys smell and noxious organic matter. Its 
 expense, however, precludes its general use in Veterinary 
 practice. 
 
 It is of paramount importance to attack the infecting 
 germs so soon as they are produced, and before they have 
 opportunity for distribution. Animals affected w:ith contagious 
 diseases should accordingly, if possible, be immediately isolated, 
 provided with attendants who shall have nothing to do with 
 healthy stock, their droppings at once disinfected, their skins 
 and feet washed daily with some antiseptic, whilst similar 
 medicine should also be given internally. 
 
 In infected sheds or stables occupied by animals, sulphur 
 fumigations may be used two or three times a week. The 
 acid must be evolved gradually, and not in amount sufficient to 
 cause coughing or pulmonary irritation, either to the animals or 
 to their attendants. Half a pound of sulphur burnt at one or 
 two spots suffices to fumigate a shed about 100 feet long and 
 20 feet in breadth and height. Carbolic acid in its impure 
 liquid form is conveniently apphed with a bru^h over the doors, 
 walls, and mangers ; and M'DougaU's powder should be scat- 
 tered over the floors and manure heaps daily. The horns, feet, 
 tails, and even the backs of the animals, inay also, during the 
 prevalence of any actively contagious disease, be brushed over 
 daily with a solution of one part of acid to a hundred of water. 
 Eugs, pieces of carpet, or sacks wetted with a strong solution, 
 should be hung about the premises, to attract any fioatiug 
 particles of disease, and also to evolve the carbolic vapour. 
 Such an atmosphere of the tar acids is not injurious to animal 
 health, and in it contagious particles cannot retain their vitality. 
 To reduce the risks of attendants carrying any virus, their 
 clothes and liands should frequently be sprinkled with weak 
 carbolic solutions, made with one part of acid to a hundred of 
 water. In sheds and other unoccupied premises the sulphurous 
 acid should be evolved more freely, the doors and windows 
 being closed, and the vapour allowed to diffuse itself for several 
 hours. Carbolic acid is subsequently used in the maimer already 
 advised. 
 
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28 ACTION OF MEDICINES. 
 
 The reporters to the Cattle Plague Commissioners adduce 
 many striking cases showing the efficacy of disinfectants. Mr. 
 William Crookes and others used carbolic and sulphurous acids 
 on many farms duriag the prevalence of cattle plague, and 
 these herds, although iu the midst of active centres of con- 
 tagion, escaped. Nay more, iudividual animals breathing an 
 atmosphere of carbolic acid, and receiving daily doses of the 
 acid with their food, resisted the contagion for weeks, although 
 plague-stricken subjects were dying in adjoioiug standings. 
 One herd of seventy-three animals ia Cheshire was for months 
 surrounded by the cattle plague. The virus was conveyed to 
 them by one of the milkmen. Four of the cows milked by 
 him sickened and died ; twenty-eight yoimger animals, unpro- 
 tected by disinfection, also caught it and perished ; but disin- 
 fection, continuously applied, effectually arrested the further 
 spread of the contagion. From the end of February until the 
 middle Of April no new cases occurred. The disease abating 
 ia the neighbourhood, the forty-one surviving cows were 
 turned out to grass ; but within a few days of their removal 
 from the protecting influence of the disinfectants, they were 
 one after another struck down by plague,, and all died. Car- 
 bolic acid sprinkled about the boxes, sheds, and enclosures ^of 
 the Jardin d'Acclimatation, in Paris, proved successful in pre- 
 venting the spread of cattle plague in 1865. Similar treatment 
 has secured the like immujuty from attacks of contagious 
 pleuro- pneumonia and foot- and -mOuth disease. Eepeated 
 instances have come under my notice, where foot-and-mouth 
 disease of a virulent type has been arrested after a portion of 
 the herd has been attacked, by washing twice a week the walls, 
 floors, doors, and other woodwork of the infected premises with 
 carbolic acid, confining the animals for several weeks to their 
 sheds or boxes, and keeping them surrounded by and breathing 
 an atmosphere abounding in the tar acids, freshly, evolved by 
 sprinkling M'DougaU's powder daily over the floors and the 
 manure. By similar disinfection the progress of influenza in 
 large staibles has been greatly abated, and the virulence of the 
 disease mitigated. 
 
 Contagious virus, whilst yet floating in the air or adhering 
 to fomites, as already pointed out, can certainly be attacked 
 and- robbed of its power of evil. When the germs of contagion, 
 
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BISINFECTANTS INTERNALLY ADMINISTEEED. 29 
 
 in small numbers, first gain access to the body, they are also 
 apparently checked in their power of reproduction, and hence 
 such disinfectants as carbolic acid and sulphites may be used 
 with good prospects of success as preventives of contagious and 
 zymotic diseases. But when for many hours or for some days 
 the virus has remained withia the body, its destruction is more 
 difficult and uncertain. Before its subtle presence is suspected 
 by the production of external symptoms, it has multiplied a 
 millionfold, andengeiidered a degenerate condition of the blood 
 and soft solids. The work of the disinfectant is now greatly 
 complicated. Not only have myriads of active virus germs to 
 be destroyed, but their destructive effects on the functions of 
 life have also to be counteracted. Mr. Crookes' experiments 
 in cases of cattle plague prove, however, very satisfactorily that 
 sulphites, bisulphites, and carbolic acid, retain their power of 
 destroying virus germs even when these have fructified within 
 the living body. " Better kiU an animal with a good disinfect- 
 ant," as remarked by Dr. Angus Smith, " than let it die putrid, 
 and ready to kill others." But the risk of killing, even by the 
 direct injection of disinfectants into the blood, is small. Mr. 
 Crookes injected into the veins of cattle plague patients one 
 ounce of sodium sulphite, and in other experiments 78 grains 
 of carbolic acid, or nearly enough to preserve from putrefaction 
 the whole mass of the circulating fluids. Although not usually 
 saving the patients, these injections invariatiy abated for a 
 time febrile symptoms, and -reduced exalted temperature. 
 Adopted at frequent short intervals, their curative results 
 would probably have been much greater. The disinfectant or 
 antiseptic treatment of contagious and 2ymotic diseases, as 
 already remarked, is of great promise, alike in the way of cure 
 and prevention. The disinfectant may be given by the mouth, 
 often conveniently enough along with food or water ; it may be 
 inhaled with the air, with steam, or with other volatile bodies, 
 or it may be injected directly into the blood. 
 
 Beodoris&rs. 
 
 Deodorisers disguise or destroy odours. Bad smells, how- 
 ever unpleasant, are not necessarily prejudicial to health, and 
 although sometimes associated with, are perfectly distinct from. 
 
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30 ACTION OF MEDICINES. 
 
 the seeds or germs of zymotic, contagious, or other such diseases. 
 Objectionable smells are largely made up of sulphuretted 
 hydrogen, phosphorus and nitrogen gases, sulphurous and , am- 
 moniacal compounds. StiU more injurious are the solid pollen- 
 like bodies, the noisome offscourings from the skin and lungs 
 of animals. Many popular deodorisers only cloak and over- 
 power instead of neutralisiag or destroying the odorous pria- 
 ciples. Of this description are fumigations with aromatic and 
 balsamic substances, such as benzoin, camphor, cascarilla, and 
 lavender, the burning of brown paper, the sprinkling of scents 
 and essences. Odours depending upon gases are readily removed 
 by effectual chemical neutrahsers : sulphuretted hydrogen, by 
 chlorine ; ammonical emanations, by hydrochloric or nitric 
 acids. Smells from decomposing orgamc matters are usually 
 most effectually got rid of by going to the source of the mischief 
 and arresting the decomposition by antiseptics, such as carbolic 
 acid, kreasote, or sulphites. Noisome odours already floatiug' 
 in the air may be attracted and absorbed by freshly-burned 
 charcoal, dried earth, or cotton wool ; or altered and broken up 
 by such gases as chlorine and sulphurous acid. For destroying 
 the intolerable smell from the cochineal dye-works, no deodor- 
 iser has been found so effectual as sulphurous acid. By free 
 admixture with air, by allowing animals sufficient cubic space 
 and ventilation, rapid subdivision and dilution of odorous 
 particles are effected, and unpleasant and noxious properties 
 are readily and effectually removed. 
 
 Powerful mineral antiseptics, such as the zinc and iron 
 chlorides, especially when used in concentrated solution, are not 
 good deodorisers. They are apt to evolve disagreeable fatty 
 acids. Not being volatile, they can only destroy the odorous 
 particles brought into immediate contact with them. The like 
 objection of beiag fixed, and hence unable to seek out the float- 
 ing odorous matters, stands against the exclusive use of the 
 permanganates in their handy form of Candy's fluid. Iodine, 
 dissolved in amyl hydride in the proportion of 2 grains to an 
 ounce, has been introduced by Dr. B. W. Eichardson, and 
 although rather expensive, is an elegant and effective deodor- 
 iser. In regulated amount, the iodine vapour may be continu- 
 ously evolved by placing about the premises portions of bibulous 
 paper, previously wetted, dried, and packed in a closed box. 
 
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ANTIDOTES. 31 
 
 In unoccupied places with closed doors, the iodised solution 
 may be freely distributed by a spray producer. Cresylic and 
 carbolic acids are good deodorisers, are volatile, but have the 
 disadvantage, when used in concentrated form and in presence 
 of much water, of evolving sulphuretted hydrogen. Most 
 effectual, and of moderate cost, is a mixture of dry sodium 
 sulphite with carboUc acid. — {Report of Dr. Angus Smith to 
 Cattle Plague Commissioners.) This should be distributed in 
 vessels aiboutthe premises to be deodorised. M'DougaU's dis- 
 infectant powder is also good, especially when charged with an 
 extra quantity of carbolic acid ; animals appear to have no 
 dislike to the ,tar-lLke odour, and nothing answers better for 
 removing the smell and arresting the decomposition of stable or 
 other manures. Lime chloride, in the familiar form of bleaching- 
 powder, is a prompt and effectual deodorlfeer, can be employed 
 either for solid or liquid impurities, is volatile, and never causes 
 any disagreeable combinations ; but, breaking up instead of pre- 
 serving organic matters, it diminishes the valueof mainure with 
 which it is mixed. It is applied as powder, or in solution 
 containing from 2 to 5 per cent, to> the walls, woodwork, and 
 floors of the places requiring purification, or sheets soaked in. 
 the solution are suspended about the premises. 
 
 Antidotes. 
 
 Antidotes (dvTt, anti, against ; and SiSiD^i, didomi, I give), 
 mitigate or arrest the action of poisons. A poison, in the 
 popular acceptation of the term, is a substance which, in small 
 quantity, destroys health and life ; but in reality it differs from 
 a medicine only in the degree or intensity of its effects. Indeed 
 many valuable medicines, when given injudiciously or in largq 
 doses, become active poisons, whilst many poisons, when properly 
 administered, prove valuable medicines. Some antidotes,, as 
 charcoal and demulcents, act mechanically, enveloping the par- 
 ticles of the poison, retarding its absorption, or ensheathing and 
 protecting the mucous surface from irritation. Chemical anti- 
 dotes alter the composition of the poison, forming mild, insoluble, 
 or innocuous compounds. Thus alkaline solutions are antidotes 
 for poisoniag with the mineral acids, on account of their 'form- 
 ing with them mild laxative salts; albumino^s matters for 
 
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32 ACTIOI^r OF MEDICINES. 
 
 poisoning witli corrosive sublimate, on account of their forming 
 with it the harmless albuminate of mercury ; the mixed oxides 
 of iron for poisoning with prussic acid, on account of their form- 
 iag with it insoluble Prxissian blue. Some antidotes counteract 
 or relieve the symptoms produced by the poison : ammonia, for 
 example, overcomes the sedative effects of prussic acid ; and 
 opium lessens the unpleasant consequences of irritants. An 
 interesting class of antidotes are those which are physiologically 
 opposed to the poison. Thus, nux vomica, with its alkaloids 
 strychnine and bruciae, excite the motor centres and tetanise 
 the voluntary muscles ; chloral hydrate, coneine, and curare, on 
 the other hand, depress and paralyse these motor centres, diminish 
 reflex function, and antagonise spasm. Chloral hydrate, accord- 
 ingly, is found to save dogs, rabbits, and other animals which 
 have received deadly' doses of the tetanus-produciag strychnine. 
 Tobacco depresses and paralyses the nervous system generally, 
 and usually destroys life by arrest of the respiratory movements. 
 Its nearest physiological opposite is atropine, which is a nerve 
 stimulant, especially of the sympathetic system, and, used sub- 
 cutaneously, combats the poisonous effects of tobacco. Theine, 
 which is a general nerve stimulant, increases motor and reflex . 
 activity, and is physiologically antagonistic to poisonous doses 
 of morphine, which depress and paralyse the cerebro-spinal axis 
 and nerve centres generally. The present imperfect knowledge 
 of the exact action of many poisons renders it, however, a some- 
 what dangerous proceeding to administer one active poison to 
 antagonise another. To be effectual, such an antidote must usually 
 be given along with or immediately after the poison — a condi- 
 tion seldom practicable in cases -of accidental poisoning. 
 
 Where poison has been swallowed it is generally important 
 at once to evacuate the stomach, in order to get rid of any poison 
 still remaining there. This is effected by the stomach pump, or 
 more effectually in carnivorous animals by emetics. The early 
 administration of such absorbent substances as charcoal, and 
 even of lard, glycerin, or clay, frequently prevents poison that has 
 been given ia a comparatively insoluble form from coming freely 
 into contact with the walls of the stomach, and thus retards its 
 absorption. Such measures are serviceable in poisoning, whether 
 of horses or cattle, and have also proved so effectual in some 
 cases of poisoning both of men and dogs, that various authori- 
 
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CAUSTICS. 33 
 
 ties recommend their prompt adoption even before any emetic 
 is given. In the case of corrosive and irritant poisons, demul- 
 cents are used to sheftth and protect the mucous surface of the 
 canal ; but large c[u,antities of fluid should not in general be 
 given untU the stomach is evacuated, as they are apt to facili- 
 tate the solution and absorption of the poisop. When active 
 poisons have got access to the blood, their- physiological oppo- 
 sites maybe administered either by the mouth, or, to save time, 
 by subcutaneous, injection. Poisons ia smaller doses or of less 
 activity are often rapidly excreted and mischief averted by the 
 
 judicious administration of purgatives and diuretics. 
 
 « 
 
 Cavstics — Escharotics. 
 
 Caustics {KaiM, kaio, I burn ; Katio-riKo's, haustikos, burning) 
 decompose both the solid and fluid animal tissues. They act 
 m the first instance chemically, separating water from the tissues, 
 and combiaing with their albuminoid constituents. This chemi- 
 cal action, which is true combustion, although lowering or 
 destroying the vitality of the part attacked, produces increased 
 vital action in the surrounding tissues. The caustics in common 
 use in veterinary practice- are salts of aluroinium, zinc, lead, 
 copper, mercury, and arsenic, silver nitrate, caustic potash, and 
 concentrated acids. These differ chiefly in the intensity of their 
 action, some being so mild that they have no effect on the sound 
 skin, and scarcely any on the mucous surfaces ; others so active 
 as to cause extensive deep sloughing, when they receive the 
 special title of escharotics (eo-x<)Epa, eschara, an eschar, scar, or 
 scab). There is little difference between solid and fluid caustics, 
 excespting that the latter are more prompt and powerful, and 
 more difficult to localise. The firing-iron or actual cautery, 
 used at any temperature above a full red heat, acts as a caustic, ' 
 producing first a chemical and then a highly exalted vital action. 
 Besides being used as a caustic, it is also much employed as a 
 counter-irritant (p. 39). 
 
 Caustics are used for repressing soft, spongy, and exuberant 
 granulations ; for stimulating indolent ulcers, and giving them 
 an albuminous coating as is done with silver nitrate; for' 
 destroying the virus in poisoned wounds, and preventing its 
 absorption when penetrating fluid caustics are prefeirable to solid 
 
 D 
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34 ACTION OF MEDICINES. 
 
 ones ; for expediting and completing the destruction of slough- 
 ing textures ; for altering morMd actions of the skin or of 
 wounds ; for exciting adhesive action in "the -walls of fistulae ; 
 for opening abscesses and forming issues ; for removing warts 
 and other tumours, especially when so deep seated and vascular 
 that they cannot he safely extirpated by the knife ; and for 
 arresting haemorrhage from accidental or surgical wounds. Em- 
 ployed for the last-mentioned purpose, caustics usually receive 
 the special title of styptics (<rTv<f>(j), stupho, I constringe; o-rvn-rucos, 
 stiiptikos, astringent). In using them the blood should be 
 reipoved by a sponge, and the part lightly pressed, so that the 
 blood-vessels may be more readily seen, and the caustic applied 
 to them with greater precision, and with as little destruction as 
 possible of the surrounding textures. 
 
 Considerable doses of strong caustics taken internally act as 
 corrosive irritant poisons, producing gastro-enteritis and fatal 
 collapse, sometimes preceded by convulsions. Smaller and more 
 diluted doses leave ulceration and dangerous lesions of the 
 digestive canal. The fitting remedies for such irritant poisoning 
 are chemical antidotes, demulcents, and opium. 
 
 Acids. 
 
 Acids (aK6s, A^«s, a point) are defined by the chemist as sub- 
 stances which are mostly soluble in water, sour to the taste, 
 redden vegetable blues, and unite with bases to form salts. 
 Those commonly used in veterinary practice are the three 
 mineral acids, sulphuric, nitric, and hydrochloric, with lactic, 
 phosphoric, and acetic acids. From their greater af&nity for 
 water, sulphuric and phosphoric acids are especially energetic. 
 Chromic acid has recently been recommended for the destruc- 
 tion of warts, and otherwise as an escharotic. Carbolic, 
 salicylic, and boracic acids are chiefly valuable for their anti- 
 septic properties. In large doses and concentrated form the 
 mineral acids and acetic acid decompose the tissues, uniting with 
 their water, bases, and albuminoids, and therefore act as irritants 
 and caustics. In smaller amount or more diluted solution they 
 are astringent and styptic. They are antidotes in poisoning by 
 alkalies. When given internally, they must be sufficiently 
 diluted to avoid corrosion. They act so differently from their- 
 
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. ACIDS EEFKIGERANTS. 35 
 
 several salts that they are believed to be absorbed in part with- 
 out beiag neutralised. With a high diffusion power they rapidly 
 reach the blood, in which they seem to neutralise excess of 
 alkali, especially of ammonia, which is often abundant in fever 
 cases. According to the late Professor Headland, they may 
 promote the formation or temporarily supply the place of lactic 
 acid, which is regarded as the natural blood fuel of the system, 
 and appears to be deficient in low fevers. That lactic or some 
 such weaker acid is developed when the stronger acids are given 
 medicinally, appears evident from the invariable increased 
 acidity of the urine. 
 
 It is a fact in therapeutics that alkaline secretions are 
 stimulated by acids, and acid secretions by alkalies. Acids 
 stimiilate salivary secretion, but check gastric secretion, which 
 is excited by alkalies. ' Acids in moderate doses given before 
 meals counteract indigestion depending upon excessive secretion 
 of gastric juice, or irregular or excessive fermentation of the 
 food. In conjunction with or following a small dose of physic 
 they relieve horses affected with acid foul mouth, faulty appe- 
 tite, irregular bowels, and unhealthy skin. With a carminative 
 they are often useful amongst iU-managed calves suffering from 
 acidity, hoven, or diarrhoea. As astringent tonics, they are service- 
 able in low fevers and' convalescence from exhausting disease. 
 Hydrochloric and lactic acids appear to be especially helpful 
 in dissolving the albuminoids of the food. Nitric acid is stated 
 to benefit long-standing cases of congestion and even cirrhosis 
 of the Uver. Although in the main closely alike in their 
 effects. Professor Waring says that hydrochloric acid promotes 
 digestion, nitric acid secretion, sulphuric acid constriction. 
 Vegetable acids are milder : being readily oxidised into car- 
 bonates, they have a primary acid but secondary alkaline actioiL 
 In full doses the mineral acids are excreted, usually imperfectly 
 „ ' neutralised, and mainly by the kidneys ; hence they correct 
 undue alkalinity, of the urine, and any tendency to phosphatic 
 deposits. 
 
 Acids and acid salts act as refrigerants, or, in other words, 
 they reduce the animal heat and. lower the pulse. A practical 
 physician and high therapeutic authority, writing in the 
 Monthly Journal of Medical Science for March 1853, remarks: 
 "We have often endeavoured to observe whether they ever do 
 
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36 ACTION, OF MEDICINES., 
 
 produce any real dimiiiutioii of the animal heat, and whether 
 therefore their title, refrigerant, is reaUy merited. We have 
 , not been able to satisfy ourselves of this-; but -we knovr, both 
 from active and passive experience, that they give for the 
 moment a sense of coolness which renders them truly delicious, 
 either under a fever or a hot sim." The refrigerant effect 
 which such acids produce when given internally, consists, 
 therefore, in the gratefully cooling, though very temporary, 
 impression which they make on the nerves of the throat and 
 stotaach ; whilst the permanent good which often follows their 
 exhibition depends on some of their physiological effects already 
 enumerated. Weakly perspiring patients are often benefited' 
 by sponging with tepid water, acidulated with vinegar or 
 other acid. Acids will again be noticed under the heads of 
 Tonics and Astringents. 
 
 Antacids — Alkalies. 
 
 Antacids (avrt, anti, agaiast ; and aKis, akis, a point) include 
 the alkalies, potash, soda, and ammonia; the alkaline earths,, 
 lime and magnesia ; the carbonates and bicarbonates of these 
 bases, and the neutral salts which they form with vegetable 
 acids, which are converted into carbonic acid m their passage 
 through the body. As an antacid, the volatile ammonia is less 
 permanent than the fixed alkalies. Potash seldom exists, either 
 free or carbonated, in the blood, but is effectual in iucreasing 
 its alkalinity by setting at liberty soda and ammonia. Potash 
 and its salts are more active than soda and its corresponding 
 salts. Lime salts, being soothing and constipating, are indi- 
 cated in diarrhoea ; magnesia salts, being laxative, are appro- 
 priate where constipation is present. Lithium carbonate, pre- 
 sent in Baden-Baden and Bath mineral waters, is prized in 
 human medicine as a solvent of urinary calculi and deposits. 
 Such active antacids as the alkalies are in large quantity cor- 
 rosive, dissolving albuminoids and saponifying fat. They are 
 prescribed as antidotes for acids of all kinds, and, wherever 
 occurring, for neutralising mineral or vegetable acids given as 
 poisons, and for removing acidity of the alimentary secretions, 
 with the indigestion and diarrheea to which such acidity often 
 gives rise. 
 
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RUBEFACIENTS — VESICANTS. 37 
 
 Alkalies stimxilate aU acid secretions, notably that of the 
 gastric juice, hut in indigestion they are apt to he given too 
 largely and iadiscriminately. Prescrihed for patients with 
 stomach derangement they are usefully conjoined wjth vegetable 
 bitters. Eapidly diffusing themselves, they readily enter the 
 blood, probably increase its altaliaity, assist in maintaining the 
 normal amount and solubility of its fibrin, abd promote oxidation. 
 They are administered in rheumatic disorders, eczema, and some 
 other skin diseases, as -well as in inflammatory and felj)rile cases. 
 In large quantities some of these antacids pass rapidly out of 
 the system by the bowels ; in smaller doses , they are excreted 
 in the uriae, increasing its alkalinity, and counteracting any 
 tendency to lithie acid deposits, which, however, are exceed- 
 ingly rare either in horses or cattle. Alkalies will again be 
 noticed under the head of Alteratives. 
 
 ' Byhefacients — ; Vesicants — Suppurcpnts. 
 
 • These three varieties of irritants, when applied externally, 
 stimulate and inflame the skin, but differ ia the degree and 
 iatensity of their action. Rubefacients {ruber, red ; and facio, 
 I make) include substances which produce slight redness and 
 inflammation, and are represented by alcohol, ammonia liai- 
 ment, mustard, and mild preparations of cantharides. Smart 
 friction and moderate heat are also .included iu this class. In 
 the lower animals, however, owing to the colour of the skia 
 and abundance of hair, this reddening is less obvious than in 
 man. Vesicants (vesica, a bladder) are more active and deep- 
 seated, iaflame the true skin, and raise vesicles or blisters, 
 which contain a serous fluid, consisting of about seventy-eight 
 parts of water, eighteen of albumin, with a Kttle fibrin, and four 
 of salts. The quantity and rapidity of the effusion vary with 
 the substance used, but are especially great ia the case of 
 steam and boUitig water. The blisters after some days either 
 dry up, or, when the inflammation has been considerable, secrete 
 a muco-purulent fluid, which hardens, protecting the parts unt£ 
 the new skin forms. Cantharides, turpentine, ammonia, and 
 boiling water are the vesicants in most common use in vete- 
 rinary practice. Suppurants (sub, under ; and pus, pus) are still 
 more powerful, actively inflame the deep-seated tissues of the 
 
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38 ACTION OF MEDICINES. 
 
 skin, and cause a crop of pustules and a purulent discharge. 
 This is the effect of croton oil and tartar emetic, mercury binio- 
 dide ointment, and also of cantharides, mustard, and other 
 active vesicants, when applied to the same spot repeatedly or 
 in large quantity. 
 
 Most of these agents act with tolerable certainty on the 
 skin both of horses and dogs, but less perfectly on the thick and 
 insensible hides of cattle, for whom the most convenient and 
 effective counter-irritant is mustard, niade up with one part 
 of turpentine and ammonia, and ten of water. Blisters require 
 to be cautiously applied to dogs, as the skin is often so irritable 
 and sensitive that the animals bite and rub the blistered parts, 
 and thus induce sloughing. The action, of turpentine on the 
 skin of horses is peculiar. If applied over a considerable sur- 
 face it produces such intense itching irritation that the animal 
 for a short time becomes excited and unmanageable^ a result 
 the more remarkable as turpentine acts but slightly on the 
 delicate human skin. ' 
 
 Setons are sometimes substituted for blisters or firing, and 
 are often preferred to firing on account of their being less apt 
 tp blemish. The setoh consists of a pieCe of tape, cord, or fine 
 wire twisted and parsed by means df a seton needle underneath 
 the skin. To prevent it slipping out, the ends are tied together 
 or knotted. It is moved daily ; and if a severe effect be desired, 
 it is sndeared with blistering ointment, Setons act chiefly on 
 , the comparatively insensible subcutaneous areolar tissue, and 
 are consequently neither very rapid nor very powerful in their 
 effects. They are serviceable where long-continued- irritation is 
 to be maintained, and especially in combating chronic inflam- 
 mation of joints, in relieving the lameness of tedious cases of 
 bone spavin, and in strangles in well-bred horses, where they 
 sometimes appear to prevent that atrophy of the muscles of the 
 larynx known as roaring, and which so frequently follows 
 strangles. Placed in the dewlap, they also prove a tolerably 
 certain preventive for black-leg in calves and young cattle, pro- 
 bably in virtue of their continued irritation, which, although 
 insufficient to interfere with health, is yet adequate to promote 
 the formation in the blood of the fibrin which is found to be so 
 deficient in this fatal disease. In like manner they also counter- 
 act the tendency to splenic apoplexy. An issue or rowel acts 
 
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THE HOT IRON. 39 
 
 in much the same manner as a seton, and consists in a wound, 
 made in the skin with a bistoury or rowel scissors, and kept 
 open by the insertion of a pledget of tow, hnt, or leather, which, 
 to increase the counter-irritation and discharge, is sometimes 
 smeared with irritant dressiags. 
 
 The hot iron or Actual Cautery is still much used in- veteri- 
 nary practice as a counter-irritant. It is generally appKed at 
 a fuU red heat, and the higher the temperature the less is the 
 pain attending its application. It is employed for some of the 
 purposes of active vesicants, and also of caustics. In diseased 
 joiats, tendons, and ligaments, in which it is so often used, it 
 amends by reflex action *deep-seated faulty nutrition. It does 
 not, as was once currently believed, form a permanent bandage 
 around the parts ; though, for a short time after the operation, 
 the skin is corrugated and tightened, it soon resumes its natural 
 elasticity, and does not embrace the subjacent , parts more 
 firmly than in health. The firing of healthy limbs, with the 
 popular idea of strengthening and braciag them up, is now 
 deservedly discountenanced ; and any benefits apparently accru- 
 ing from such an operation result from the rest which it neces- 
 sitates. In nervous excitable horses, firing occasionally pro- 
 duces irritative fever, especiaJly if several legs are done at the 
 same time. Dry cupping is occasionally employed as a deri- 
 vant or irritant, in the human subject, and is equally serviceable 
 in the lower animals. The laundress' smoothing-iron heated 
 and pressed lightly over the skin, either bare or covered with 
 brown paper or flannel, proves a useful rubefacient in rheuma- 
 tism and enlarged joints in delicate young animals. 
 
 Eubefacients, vesicants, and suppurants differ mainly in the 
 degree and permanence of their effects. They produce revul- 
 sion or withdrawal of blood from one part of the body, and 
 conduct it to another. Applied to the skin surfaces, they 
 counteract congestion of internal organs. In influenza, typhoid 
 ' fever, and other depressing disorders of horses, rubefacients, such 
 as soap-hniment or mustard jiaste, rubbed into the legs, and in 
 five minutes again washed off, are of much benefit in equalising 
 circulation and reducing temperature. Counter-irritants are in 
 common use in certain stages of infiammation of the joints and 
 of the eyes, lungs, and intestines, and their investing membranes. 
 In the outset of inflammatory attacks, by reflex action, external 
 
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40 ACTION OF MEDICINES. 
 
 irritants lessen hyperaemia by stimnlating the dilated paralysed 
 capillaries, and thus favouring resolution; in the more acute 
 stages, when blood-plasma and red and white globules are 
 escaping through tlie walls of the distended vessels, fomenta- 
 tions and poultices are generally more suitable than irritants. 
 When the disease is more circumscribed, or has somewhat 
 abated, counter-irritants are, however, again useful in promoting 
 absorption of exudation ; whilst io. many chronic cases, by acting 
 on the vaso-motor nerves, they invigorate enfeebled, over-dis- 
 tended capillaries, and substitute higher formative for lower 
 debased action. Counter-irritants should generally be applied 
 directly over the inflamed organ, but not directly to tissues of 
 the same kind as those inflamed, or immediately contiauous 
 with them. When too near to the inflamed or painful part the. 
 mischief is apt to be aggravated. According to the late Dr. 
 Anstie, if applied over a posterior branch of the spinal nerve 
 trunk, from which the irritated nerve issues, a reflex effect of 
 a beneficial character is often produced. The following condi- 
 tions mainly determine the choice of the suitable counter- 
 irritant. Promptly to produce general revulsion, as in combating 
 chill, rousing nervous depression, or overcoming such functional 
 disturbance as occasions colic, mustard and other rubefacients 
 are specially indicated. To act piore permanently on parts 
 where nutrition has been more seriously impaired, as in pleurisy 
 or phlebitis, cantharides is the appropriate counter-irritant. 
 Where bone, cartilage, or ligament has been chronically 
 affected, a still more permanent and profound effect results 
 from the use of mercury biaiodide, of the hot iron, or of setons. 
 Before the application of a blister the skin should be well 
 washed with soap and water, and the hair, when long or thick, 
 removed with a pair of scissors or a razor. The effect of the 
 application may be further expedited and increased by subject- 
 ing the part to smart friction, or the action of hot water, and 
 by rubbing the agent ^well in, taking care to spread it over an 
 amount of surface bearing some proportion, to that diseased. A 
 violent, deep-seated action is seldom desirable. An abundant 
 discharge, evidencing much tissue-destruction, is rarely requisite. 
 Better curative results are usually attained by more moderate 
 and contiauous effects. Acute iaflammation, extending over a 
 considerable area, or accompanied by fever, is seldom benefited, 
 
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STOMACHICS — CARMINATIVES. 41 
 
 and is sometimes aggravated, by tlie use of blisters. When 
 vitality is low, or the skin irritated, blisters are apt to cause 
 sloughiag. When iaordinate icritation has been produced, it 
 may be abated by, fomentation, whilst undue constitutional 
 excitement is removed by diluents, a mash diet, and a saline 
 draught. Two or three days after a blister has been applied, 
 the part should be dressed with oil,, glycerin, or ,sugar-of-lead 
 lotion. 
 
 Errhines. 
 
 Errhines (ev, en, in ; 'and piv, rhin, the nose) are a small 
 and unimportant class of topical irritants, which act on the 
 nasal mucous membrane, causing discharge of mucus. The 
 irritation of the membrane bften produces the reflex act of 
 sneezing — one or two hurried iuspirations are drawn through 
 , the nostrils, followed by a forcible expulsion of air, with which 
 are frequently removed any irritants lodged about the nasal 
 passages. Most irritant and acrid substances, when directly 
 applied. to the Schneiderian mucous membrane, act as errhiues ; ' 
 but the most notable are ammonium muriate, mercury subsul- 
 phate and iodide, tobacco, euphorbium, veratrum album, and its 
 alkaloid veratrine. Errhines, although, now disused, were for- 
 merly prescribed to cause counter-irritation in affections of the 
 eyes and head, and to expel, by inducing sneeziag, foreign 
 substances lodged iu the nostrils, nasal sinuses, or respiratory 
 passages. 
 
 , ■ Stomachics — Carminatives. 
 
 Stomachics (a-ro/jbaxos, stomachos,_ the stomach) promote 
 digestion. They include such spices and condiments as ginger, 
 carraway, and anise, with various other seeds from the natural 
 family Umbelliferce, and several volatile oils, as peppermint and 
 rosemary, from the LaJ)iatce. On account of their gently stimu- 
 lating the stomach, they are given to relieve simple indigestion, 
 and to remove flatulence and slight colic pains, in which case 
 they usually receive the special title of carminatives. They are 
 also used to hasten and facilitate the action of purgatives, and 
 to impart an agreeable flavour to many medicines. 
 
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42 ACTION OF MEDICINES. 
 
 JEmetics. 
 
 Emetics (efieriKa, from ifieb), emeo, I Tomit) cause the ex- 
 pulsion of the contents of the stomach through the oesophagus 
 and mouth. The stomach is firmly compressed between the 
 diaphragm and the abdominal muscles, the cardiac extremity of 
 the oesophagus is relaxed, and the gastric contents brought up. 
 Pressure of the stomach between the abdominal walls, and re- 
 laxation of the lower end of the oesophagus by the contraction 
 of its longitudinal fibres which ramify over the stomach, and 
 draw it towards the diaphragm, are the two essential conditions 
 on which vomiting depends. In dogs emesis is imperfectly per- 
 formed, or does not occur, when the abdominal muscles or 
 diaphragm are cut or paralysed by curara. If the cardiac ori- 
 fice remains closed, as it does in severe coughing, even although 
 the stomach is squeezed as in vomiting, retching only occurs, 
 but not vomiting. The phenomena of vomiitiag are thus de- 
 scribed by Dr. Lauder Brunton, in the Practitioner for December 
 1874: — "Uneasiness is felt; the inspirations become deeper; 
 several swallowing movements are made, which sometimes carry 
 down sufficient air to distend the stomach moderately. ' After 
 several deep inspirations, there suddenly comes one which is 
 deeper stiU. Then, instead of this being followed by expiration, 
 the glottis shuts to prevent the escape of air; -the diaphragm 
 again contracts still more deeply into the abdomen, and pulling 
 the ribs together the abdominal muscles forcibly contract ; the 
 left half of the stomach is drawn upwards, and the cul-de-sac 
 flattened out; the cardiac orifice dilates, and the contents of 
 the stomach are forcibly expelled. The pylorus remains firmly 
 contracted, and allows but little escape into the intestines." 
 
 These complex phenomena are prbduced usually by what is 
 termed reflex action. When the fauces of men or dogs are tickled 
 with a feather; when, as in experiments, the interior of the stomach 
 itself has been irritated, or when a tepid solution of mustard is 
 swallowed, the irritation of the digestive mucous membrane is 
 conveyed by. afferent nerves to the medulla oblongata, in which 
 is located a centre of vomiting, which is closely connected with 
 the respiratory centre, and in which the special movements are 
 correlated. These motor impulses are conveyed by the inter- 
 
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HORSES ANH CATTLE DO NOT VOMIT. 43 
 
 costal phrenic and pneumogastric nerves to the abdominal 
 muscles, diaphragm, stomach, and oesophagus ; muscular con- 
 tractions occur ; vomiting ensues. This centre presiding over 
 vomition has intinia,te connection with almost every part of the 
 body, and may be excited to prdduce vomiting, not only by 
 irritation 'of the fauces and stomach, but by brain disorders, 
 irritaticin of the liver and gall ducts, the intestines, the kidneys 
 and bladder, or acute pain- even of injuries of the comparatively 
 remote extremities. Vomiting, however, is generally produced 
 by medicines acting on the stomach, and the irritation being 
 thence conveyed to the vomiting centre by the afferent nerves, 
 usually the vagus and splanchnics. But the vomiting centre is 
 probably directly acted upon by such emetics as tartar emetic 
 and apomorphine, which, when injected hypodermically, or iato 
 the veins, act as certainly and more rapidly than when given by 
 the mouth. That absorption of the emetic from the stomach, 
 or actual irritation of the stomach itself, is not necessary to 
 produce vomiting, is further conclusively proved by Majendie's 
 notable experiment of removing the stomach of a dog, attaching 
 to the severed oesophagus a pig's bladder filled with fluid, which, 
 when tartar emetic was injected into the veins, was compressed 
 between the abdominal muscles and the diaphragm, and emptied 
 of its contents by vomitiag. 
 
 Dogs, cats, and pigs vomit as readily as men. Indeed, in 
 dogs, vomiting is induced by most disagreeably-tasted nauseous 
 'or acrid substances, and sometimes is brought on purposely by 
 eating Triticum repens and other emetic grasses which instinct 
 readily enables him to discover. But horses, ruminants, rabbits, 
 and guinea-pigs rarely if ever vomit, and are insensible to the 
 action of powerful emetics. In horses emesis only occws from 
 extreme distension and spasm of the stomach, from dilatation of 
 the lower part of the gullet, from rupture of the stomach and 
 intestines, and from the action of large doses of aconite, which, 
 however, induce retching and discharge of the excessive secretion 
 of saliva rather than true vomiting. This insusceptibility of 
 horses to the action of emetics depends upon several conditions 
 — on the smaHness of the stoinach, which prevents it, even 
 when tolerably fuU, from being grasped and squeezed between 
 the abdominal muscles and the diaphragm ; on the strong horse- 
 shoe-Kke band of fibres which guards the cardiac orifice ; and 
 
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44 , ACTION OF MEDICINES. 
 
 on the greater lengtli of that portion of the oesophagus between 
 the diaphragm and stomach, which folds on itself, and thus more 
 securely obstructs the cardiac orifice when the tube, under the 
 influence of emetics, is shortened by the contraction of its longi- 
 tudinal fibres. Even were the contents of the horse's stomach 
 to get so far in their upward progress, the position and length 
 of the velum palati would cause them to pass out by the nostrils, 
 and not by the mouth. It might be supposed that as cattle 
 naturally ruminate, they might also readily perform the analo- 
 gous act' of vomiting ; but none of the substances which cause 
 ^ vomiting in other animals have any such effect on cattle or 
 sheep. This mainly depends upon the large size of the sub- 
 divided stomach, which cannot be grasped and compressed 
 between the abdominal walls and diaphragm. In these rumi- 
 nants and in horses not constituted for vomiting, the vomiting 
 centre of the medulla may, moreover, be imperfectly developed; 
 and if this be so, it explains the wonderful tolerance which these 
 animals have of tartar emetic. 
 
 Emetics are sometimes divided into two classes — (1) those 
 which act mainly by irritating the mucous surface and nerves 
 of the stomach, and. include' hot water from 105° to 120°, 
 with tepid solutions of common salt, mustard, zinc, and copper 
 sulphates ; (2) those which, like tartar emetic, tobacco, ^ipeca- 
 cuanha and its alkaloid emetine, as well as apomorphine and 
 veratrine, cause vomiting by whatever channel they enter the 
 body, and appear to act mainly by direct irritation of the vomit- 
 ing centre. But the substances of this second class, when given 
 by the mouth, doubtless act in both ways. Different emetics 
 exhibit some difference in their effects. Zinc and copper sul- 
 phates act with great rapidity, and cause much increased salivary 
 and mucous secretion, and hence are specially indicated for the 
 prompt removal of poispns from the stomach. Most emetics, 
 notably veratrum, hellebore, and colchicum, if they pass beyond 
 the stomach, or are long retained, relax the bowels. Apomor- 
 phine — one of the alkaloids of opium, the most rapid and certain 
 emetic known — acts by whatever channel it enters the body, 
 exerts its effects specially on the vomiting centre, and produces 
 full effects in dogs, in doses of one-fifth of a grain. 
 
 Amongst dogs and pigs, emetics are used for removing 
 from the stomach crude undigested food, the acid products of 
 
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THE USES OP EMETICS. '4=5 
 
 fermentation, poisons and foreign bodies. Eelaxing the longi- 
 tudinal fibres of the gullet, and exciting antiperistaltic move- 
 ments, they are serviceable in clearing out obstructions from the 
 fauces and oesophagus. Compressing between the abdominal 
 walls the hver, gall bladder, aijd gall ducts, they empty them, 
 and hence are useful in bilious indigestion and some forms of 
 jaundice. This clearing out both of the stomach and biliary 
 system probably accounts for thei advantage which emetics have 
 in cutting shprt febrile attacks in dogs,, mitigating distemper, 
 and arresting epileptic seizures. In an animal which vomits so 
 easily as the dog, it is better that irritants lodged in the anterior , 
 parts of the digestive tube or circulating in the gastro-hepatic 
 system should be promptly got rid of by the mouth, rather than 
 make the longer and more tedious route by the anus, doing per- 
 haps further mischief, or running risks of absorption. Most 
 emetics while stimulatiag the vomiting centre also stimulate the 
 nearly connected respiraitory centre, and provoke mucous secre- 
 tion, hence are of signal service in the dry stage of catarrh and 
 bronchitis in 'vigorous animals. It has been observed that all 
 emetics paralyse muscular fibre ; hence doubtless the muscular 
 weakness which follows their use, and the fact that over-doses 
 often fail to cause vomiting. — (Practitioner, Dec. 1874.), When 
 freq[uent or serious they lower the force of the heart and the 
 number of the respirations, but are not now employed to produce 
 ' such sedative effects. Nor are they used, as formerly in human 
 surgery, to relax muscular fibre, and thus aid in the reduction 
 of dislocations. , For such purposes they are superseded by chloro- 
 form and ether. Enietics are contra-indicated in gastric inflam- 
 mation and congestion of the brain, and require cautious use in 
 pregnancy and hernia. 
 
 A safe and convenient emetic for a medium-sized dog con- 
 sists of a teaspoonful each of common salt and mustard dissolved 
 in a teacup of tepid water. A more prompt and certain effect 
 is produced by two or three grains of zinc sulphate dissolved in 
 a couple of ounces of warm water, rolled in a piece of meat or 
 mixed with, other food. A more permanent sedative result 
 foUows the administration of three grains tartar emetic and ten 
 grains ipecacuanha given dissolved in three or four ounces of 
 tepid water. To counteract vomiting, which occasionally proves 
 troublesome in dogs, two methods of cure are indicated — (1) the 
 
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46 ACTIOIir OF MEDICINES. 
 
 removal, by appropriate means, of the remote irritation of the 
 ' fauces, hronchi, stomach, or other part which excites the reflex 
 act ; and (2) the quieting of the over-activity of the irritable 
 vomiting centre by morphine, chloral, or potassium broinide 
 (Dr. Lauder Brunton). 
 
 JEcbolics — Parturients — Oxytocics. 
 
 EcboHcs (eK, ek, out of; and /8aA.A,(o, hallo, I throw) caxise 
 contractions of the uterus and exjiulsion of its contents. Savin, 
 rue, and cantharides, with active purgatives and diuretics, irri- 
 tate the bowels and kidheys, and by reflex action stimulate the 
 uterus. They cannot, however, either with certainty or safety, 
 be administered to bring about or hasten parturition. But 
 ergot of rye contracts involuntary muscular fibre, and has a 
 special power of contracting the uterus, and thus expelling itfe 
 contents. Ergot is occasionally given to the domesticated 
 animals to excite labour pains, when these are weak or slow, 
 to help the removal of uterine tumours, and to arrest the bleed- 
 ing sometimes, depending upon them. 
 
 Aphrodisiacs. 
 
 Aphrodisiacs {dcj^poSta-ia, aphrodisia, venery) are substances 
 which have, or are supposed to have, the power of exciting the 
 venereal appetite. They include phosphorus, cantharides, 
 peppers, and turpentines. On the Continent they are stfll 
 given to the domesticated animals, especially to cattle ; but 
 their employment is unnatural and unscientific, and further 
 fails to produce the desired effect. When the powers of pro- 
 creation are defective, instead of employing such drugs, the 
 cause occasioning the loss of power should be sought for and 
 removed. If it consist, as it often does, in' general debility, 
 the appropriate treatment wiLL consist in generous diet and 
 tonic medicines. 
 
 Purgatives — Cathartics. 
 
 X 
 
 Purgatives {purge, I purge), or cathartics (KaOaipw, kathaird, 
 I cleanse or purge) increase the peristaltic movements and 
 
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PURGATIVES ABSORBED AJSTD EXCRETED. 47 
 
 secretions of the bowels, and thus quicken and augment the 
 evacuation of faeces. The husks of grain, vegetable fibres, and - 
 other indigestible substances, with resinous and comparatively in- 
 soluble purgatives, previous to their absorption, produce merely- 
 topical irritation. All active purgatives, however, become 
 absorbed. They may gain access to the circulation by being 
 inhaled, by subcutaneous injection, or by absorption from the 
 rectum. Wheh given in the usual' way by the mouth, they 
 are first taken up by the capillary veins of the stomach and 
 small intestines, and thence enter the general circulation. Be- 
 ing unfit for remaining in the blood or becoming assimilated, 
 they are speedily returned to the intestinal mucous membrane, 
 where they are separated from the blood by innumerable active 
 secretory glands, and poured into the intestina.1 tube along with 
 the increased se°oretion to which they give rise. During both 
 absorption and excretion, they irritate the mucous membrane, 
 and consequently increase the peristaltic motions, which, when 
 excessive, occasion the pain and spasm accompanying the 
 action of violent purgatives. Different purgatives appear to be 
 excreted from different parts of the alimentary canal. Jalap 
 is believed to be chiefly separated from the surface of the small 
 intestines ; aloes from the large intestines ; and croton and 
 saline purgatives from both. Excretion, however, from some 
 part of the alimentary mucous membrane appears to be essen- 
 tial to the fuH effect of aU active purgatives ; for aloes, salts, 
 and the Eke, lose their purgative effect when administered in 
 combination with articles which prevent their excretion, or 
 cause their removal by the kidneys or other emunctories. In 
 corroboration of this. Dr. Ward records the interesting case of 
 a woman, in whom castor oil did not produce purgation, but 
 was exuded from the skin, and acted as a diaphoretic. 
 
 Purgatives vary much in the intensity of their action. 
 When mild, they are laxatives or aperients ; when they induce 
 copious watery discharges, they are termed Tiydragogue cath- 
 artics ; when they induce griping, they are styled drastic ; and 
 when accompanied by profuse discharge of bile, they are known 
 as cholagogues. Unless to effect some definite useful purpose, 
 physic should not be given to any animal. Given habitually 
 without good reason, as is still too frequently the case, cathar- 
 tics are apt to produce dyspepsia ; used injudiciously, or in 
 
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48 ACTION OP MEDICINES. 
 
 excessive doses, they cause mucli weakness, and occasionally 
 lead to paralysis of the hind limbs ; sometimes they induce 
 fatal superpurgation, and sometimes enteritis ; and these un- 
 toward effects are especially apt to ensue in horses suffering 
 from irritation or inflammation of the. skin or mucous mem- 
 brane of the air-passages. I have seen horses affected by 
 bronchitis die from superpurgation, induced by three drachms 
 of aloes ; and similar susceptibility to the action of very 
 moderate doses is also observable in typhoid fever, purpura 
 hsemorrhagica, and laminitis. 
 
 The intestiaes of man have a superficial extent of about 
 1400 square inches (Meckel). Those of the horse being three 
 times the length, and having at least three times the calibre 
 of the human intestines, must consequently have a surface of 
 about 90 square feet. This extensive superficies is covered 
 by a highly vascular mucous membrane, packed full of actively 
 secreting glands, and abundantly supplied with nerves. Such 
 an immense extent of vascular and sensitive intestinal mucous 
 membrane necessitates great caution in the administration of 
 purgatives to the horse. For at least a day previous to the 
 exhibition of the dose, the animal, if possible, should be 
 restricted to mash diet or green food. The dose should be 
 moderate, and its effect may be accelerated and increased by 
 administering it wMle the animal is fasting, by occasional 
 exercise, until it begins to operate, and by the repeated use of 
 clysters. This last auxiliary, when employed with sufficient 
 perseverance, is indeed so effectual in promoting the action of 
 the bowels, that one of the most successful of army veteri- 
 narians was wont to trust almost entirely to its use, seldom 
 giving, except in extraordinary cases, any purgative medicine 
 whatever. For horses, aloes is probably the best of all cath- 
 artics. The fixed oils are tolerably good, but less certain ; 
 whUe croton is much too drastic, unless in small amount, 
 and largely mixed with other less potent medicines. Salines 
 in cathartic doses are irregular, and sometimes act with un- 
 expected violence. Senna, colocynth, buckthorn, and other 
 substances, of much value as, purgatives for men and dogs, have 
 scarcely any such effect on horses. With a warm mash the 
 previous night, and subsequent abstinence, a moderate dose 
 of aloes given in the morning causes in most horses nausea 
 
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PURGATIVES FOR CATTLE AND DOGS. 4^ 
 
 ■withiii four hours ; and if a little tepid water is given purg- 
 ing occasionally occurs in ten hours. Without this preliniinary 
 mash, which should if possible be given, purgation is pro- 
 duced in horses in from eighteen to twenty-four hours. In 
 acute febrile cases absorption is usually tardy, and is helped 
 by combination with some sedative, as aconite, calomel, or tartar 
 emetic. A horse should never have purgative medicine when 
 his strength is reduced and his pulse small and weak, when in 
 the advanced stages of inflammatory disease of the air-passages, 
 'never without extreme caution in influenza and other debilitat- 
 ing epizootics, and seldom when the bowels themselves are 
 congested or inflamed. • 
 
 In cattle and sheep, the magnitude of the guadrisected 
 stomach, the large proportion of food which it always contains, 
 and the comparatively low vascularity and sensibility of the 
 whole alimentary canal, account for the tardy uncertain action 
 of many purgatives. For these ruminants saline purgatives 
 are preferable, and their action may be materially expedited by 
 encouraging the drinMng of water, which may be rendered 
 more palatable by sweetening it with treacle. In obstinate con- 
 stipation, or torpidity of the bowels, gamboge, croton,, and 
 calomel are often useful. Purgation may usually be produced 
 among cattle in from twelve to sixteen hours ; but cases fre- 
 quently occur where, in spite of all treatment, the bowels 
 remain unmoved for several days. The best purgatives for 
 sheep are common and Epsom salts, and castor oil, in doses ot 
 about one-fourth of those given to cattle. Calomel and croton 
 are apt to act too violently. As sheep drink sparingly, their 
 medicine should be given with a liberal quantity of fluid. 
 
 On account of the small size of his stomach and alimen- 
 tary tube, and the concentrated, nature of his food, the dog is 
 peculiarly susceptible to the action of purgatives. In him 
 they generally operate in from five to eight hours. Jalap, 
 with a httle calomel, or a mixture of equal parts of linseed 
 and castor oils, are most generally approved 'of Aloes act 
 more slowly and lincertainly, while saline medicines are apt to 
 cause vomiting, or, if retained, to purge with undue violence. 
 Indeed, aL. purgatives must be given to dogs in a well-prepared 
 condition ; for, when unpalatable, acrid, nauseous, or bulky, 
 they are very apt to be expelled by vomiting. The action of 
 
 E 
 
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50 ACTION OF MEDICINES. 
 
 cathartics on the pig is closely analogous to their effects on 
 the human subject and dog; and he is best physicked by 
 dropping on his tongue, from a shallow spoon or bottle, three or 
 four ounces of Epsom salt, dissolved in water, or a like amount 
 of linseed or castor oil. During the operation he must be 
 held by the ears by an assistant, who wiU. not be deterred by 
 the patient squealing. 
 
 No medicines are applied to so many important purposes 
 as cathartics. They are the most certain and effective evacu- 
 ants, and sometimes little inferior to blood-letting. 
 
 1st, Purgatives are given to remove from the alimentary 
 canal undigested food, feculent matters, poisonous substances, 
 and worms. Purging away offending matters, they relieve 
 dyspepsia, cohc, and many cases of diarrhoea. They are the 
 obvious remedies in constipation and torpidity of the bowels, 
 which, when depending upon atony of the muscular coat, 
 requires that the purgative be combined with strychnine 
 or mineral acids. 
 
 2d, Employed for the expulsion of worms, purgatives 
 received the special title of anthelmintics or vermifuges. By 
 increased peristaltic motion and copious secretion of fluid, they 
 sometimes mechanically cause the parasites to unloose their 
 hold, and wash them away. But the more effectual anthel- 
 mintics are vermicides ; they poison the worms. Such are 
 turpentine, and various volatile oils, quassia and other bitters, 
 and arec&, nut. To ensure the poison being freely taken by 
 the parasites, it should be given when the digestive canal is 
 empty, along with mUk or other material to which the worms 
 are partial, and unless itseK purgative a dose of physic should 
 be given with it, or a few hours later. To remove bots in 
 horses, one-fourth part of an ounce of aloe^ and asafoetida is 
 dissolved ia hot water, an ounce each of oil of turpentine and 
 ether are added when cold, and the mixture administered ia 
 gruel or linseed tea, and repeated for several mornings. For 
 destroying tape and other worms in horses, this prescription is 
 also useful. Like most other vermifuges, it is most effective 
 when the stomach and bowels are tolerably empty. Mr. 
 Eobert Littler of Long Clauson gives, for three or four con- 
 secutive mornings, a ball containing one-fourth of an ounce of 
 copper sulphate, and follows this with a purgative dose of 
 
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VEEMIFUGES. 51 
 
 aloes. Professor John Gamgee {Veterinarian's Vade Mecum)' 
 recommends two drachms of asafoetida, a drachm and a half 
 each of calomel and savin, with thirty drops of the oil of the 
 male shield fern, made up with treacle and linseed meal, given 
 at night, and followed by a purge next morning. For dogs 
 infested with tape-worm, nothing answers so well as areca nut. 
 Other remedies are occasionally used, such as one-fourth of 
 an ounce of the pomegxanate root hark ; the flowers of the 
 Abyssinian kousso; kamala, a euphorbiaceous plant effectually 
 used in India; the unexpanded flower-heads of a species of 
 artemisia or worm-seed, and its active crystalline principle san- 
 tonine; with the root-stalks, scales, and rootlets of the male 
 shield fern, n(^w generally' regarded as the most certain remedy 
 for tape-worm in man. Bound and thread worms in all 
 animals are more readily got rid of than tape- worm, and are 
 usually expelled by turpentine, iron chloride tincture, or bitter 
 infusions. Ascarides in the rectum are evacuated by turpen- 
 tine and lime water, which is also the most effectual combina- 
 tion for the destruction of thread-worms in the air-passages or 
 digestive canal of calves or lambs. By small doses of saline 
 medicines, by tonics when required, and by careful feeding, it 
 is important to secure the healthy state of the mucous lining 
 of the canal, and thus prevent the reappearance of the parasites. 
 3<^, Cathartics not only purge the intestiaes, they purge 
 the blood as well. Through the active secreting intestinal 
 surfaces, they remove water, act as depletives, abate arterial 
 pressure, and drain away dropsical effusions. Moreover, they 
 hasten , and increase the separation from the blood of effete 
 matters produced by the disintegration of the tissues, and of 
 morbid matters which have found their way into the blood, or 
 been engendered there. Especially important is this depurative 
 action of the bowels when the analogous duties of the skin or 
 kidneys are from any cause impaired. Excrementitious matters 
 in the blood, even if they do not happen to be themselves a 
 source of disease, always prove a serious aggravation to any 
 complaint, often form the pabulum on which contagious germs 
 fasten and grow, and are especially prone to impair the functions 
 of the nervous system. Nature herself sometimes endeavours 
 to remove these deleterious matters by the establishment of' 
 spontaneous diarrhoea. Whether induced naturally or artifici- 
 
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52 ACTION OF MEDICINES. 
 
 ally, this depurative action is of especial service in removing 
 febrile attacks, relieving nervous diseases, curing some itching 
 skin complaints, combatiag most inflammatory disorders, abating 
 lameness in' horses, and favouring the healing of wounds. 
 
 4ith, Purgatives are further serviceable by producing counter- 
 irritation ; they attract to the extensive intestinal surfaces an 
 unwonted amount of blood. In this way may in part be 
 explained the prompt relief which a fuU dose of physic gives in 
 congested states of the brain and nervous centres in all animals,, 
 in wounds and injuries accompanied by irritability and pain, and 
 ia acute lymphangitis in horses. 
 
 5th, Most active cathartics act on the liver, increase secretion 
 of bile, and hence are termed cholagogues. Eelieving the portal 
 circulation, they combat congestion of the liver and spleen, and 
 also of the urino-genital system. Hence their value in torpid 
 states of these organs. The most important cholagogues are 
 calomel and other mercurials, which notably increase the biliary 
 matters of the fseces. Corrosive sublimate given to dogs was 
 observed by Orfila to produce abundant vomiting of biliary 
 matter. Manganese sulphate was found by Emelin to induce 
 an extraordinary secretion of bile. Podophyllin, the amor- 
 phous resinoid extract of the Podophyllum peltaium or May- 
 apple, is said to act specially on the liver, slowly develops, its 
 purgative action, occasionally with some pain and spasm, and in 
 small doses proves alterative. Dr. A. Eohrig, experimenting 
 upon curarised dogs, introduced various purgatives into the duo- 
 denum, and observed the amount of bile excreted through a 
 glass tube placed in the gall duct. The secretion was most 
 notably increased by crbton oil, colocynth, jalap, and aloes ; 
 rhubarb and senna followed next in order ; castor oil and bitter 
 salts were less effectual; calomel had small effect in re-estab- 
 lishing the secretion when it had ceased, but had a marked 
 power of maintaining aiid increasing it beyond the natural time 
 for cessation. — (Dr. H. C. Wood.) Quinine and other bitter tonics 
 sometimes prove serviceable in torpidity of the liver ; they do 
 not, however, appear materially to increase the secretion of bile, 
 and their beneficial effects in such cases depend, according to 
 the late Professor Headland, on their striking analogy to the 
 biUary matter taurine, and their takiag its place in those dis- 
 orders where from tardy action of the Uver it is deficient. In 
 
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EXPECTORANTS — SUDORIPICS. 53 
 
 congest on and torpidity of the liver, and in bilious diarrhoea, 
 and bnious influenza of horses, when the mucous membranes 
 continue yellow and the bowels irregular, nitro-muriatic acid 
 exerts a special but not easily explained curative effect. 
 
 Esqpectorants. . 
 
 Expectorants {ex, out of; and pectus, the breast) increase; the 
 natural secretions of the mucous membrane lining the fauces, 
 trachea, and bronchi. Some of them exercise topical effects, as 
 chlorine, iodiae, ether, tobacco smoke, inhalation of the vapour 
 of water, and hot fomentations externally. Some astringents 
 and emetics exert on the throat and upper part of the digestive 
 tract stimulant or sedative effectsj which are propagated by 
 reflex action to the air-passages. Others, as ipecacuan, balsams, 
 gum resins, and antimonials, become absorbed, and, entering the 
 circulation, stimulate the mucous glands of the respiratory 
 mucous membrane, through which they are excreted. Expec- 
 torants are uncertain in their action, even on man, and stUl more 
 so on the lower animals, in which there is little evidence of 
 expectoration. Some of the beneflts formerly supposed to be 
 attained by expectorants are now tolerably certaialy secured by 
 irrigating the fauces with tepid medicated fluids from a sprayr ' 
 producer, of which the most effective is worked by steam. In 
 irritable, relaxed, or diphtheritic sore throats in horses, solutions 
 of alum, morphine, belladonna, tannin, iron salts, hydrochloric 
 and carbolic acids, are thus advantageously applied several times 
 daUy. 
 
 Diaphoretics-^— SudoHfm. 
 
 Diaphoretics (Sia^opeo), diaphoreo, I throw off by perspiration) 
 and sudorifics (sudor, sweat; and facia, I make) are similar in 
 their nature, actions, and • uses. Strictly speaking, the former 
 increase the insensible, and the latter the sensible, perspiration. 
 This is, however, a difference only in degree. 
 
 In aU the higher animals the skin performs several very im- 
 portant functions. Besides protecting the sensitive parts alike 
 from cold and external injury, and being intimately connected 
 by vessels and nerves with all parts of the body, by diminution 
 of fluid it regulates animal temperature, and as a pneumatic 
 
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54 ACTION OF MEDICINES. 
 
 apparatus excretes carbonic acid, and probably also absorbs 
 oxygen. Tbe excretion of carbonic acid is of such essential 
 importance to life and health, that asphyxia soon occurs in any 
 of the higher animals when the functions of the skia are arrested 
 by covering it over with a thin varnish. The skin is, further, 
 the channel through which the system ejects a very large, though 
 variable, amount of refuse fluid, holding in solution various salts 
 and effete organic matters. These latter are in much greater 
 amount than is generally supposed. In man, it is estimated 
 that 100 grains of azotised matter are excreted daily from the 
 skin (Carpenter) ; and in horses and cattle the quantity must be 
 at least three or four times greater. Sanctorius' experiments 
 show that, of eight parts of food taken into the healthy body, 
 three parts leave it in the faeces and urine, three by the lungs, 
 and two by the skin. These important excretory functions are 
 seriously interfered with by cold and damp ; the cutaneous 
 capHLaries are unnaturally constricted; blood is hence deter- 
 mined internally, animal heat is unduly raised ; and thus are 
 constantly produced colds and febrile attacks in hard-worked 
 and exhausted horses. During those diseases in which the 
 functions of the kidneys, lungs, or bowels are disturbed oi 
 arrested, the depurative action of the skin is of the greatest 
 possible service in preventing the blood from being poisoned by 
 the accumulation of deleterious matters. In such cases the 
 skin takes on a vicarious action, and excretes those effete mattel^s 
 which are usually disposed of by other channels. Such con- 
 siderations indicate the importance of preserving the skin m a 
 clean and healthy state. In all animals cutaneous transpira- 
 tion is the result of two actions ; first, a physical process oi 
 evaporation, depending on the porosity of the tissues, and occur- 
 ring alike in animate and iaanimate objects ; and, secondly, £ 
 vital process -of transudation or secretion, analcJgous to thai 
 occurring in other parts of the body, and capable of being modi- 
 fied by external agencies. Diaphoretics accelerate the latter o: 
 these processes, either by exciting the general circulation, as 
 is the case with active exercise ; or more commonly by stimu- 
 lating the cutaneous glands and vessels, as is the case wit! 
 friction, warm clothing, and certain medicines. 
 
 In the lower animals diaphoretics are less prompt and certaii 
 than in man; and this chiefly depends on the skins of quadruped 
 
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SWEATING MEDICINES. 55 
 
 being thicker and more plentifully covered with hair or wool, 
 and on the fact that most medicines of this class are especially 
 apt to pass off by the kidneys or bowels, rather than by the 
 skin. Horses naturally perspire more abundantly than cattle, 
 and are more easily acted on by diaphoretics. Sweating can 
 scarcely be said to occur at all either in the dog or cat. The 
 waste fluids which pass from the bodies of men and horses in 
 cutaneous transpiration appear to be got rid of in dogs by their 
 frequent micturition, and by the evaporation from their open 
 mouths and moist extended tongues. The wool-clad pelt of the 
 sheep, and thick bristled hide of the pig, alike prevent free per- 
 spiration ; and in these animals sweating medicines are mainly 
 discharged by, and hence chiefly act upon, the kidneys. The 
 best and simplest methods of causing diaphoresis in horses or 
 cattle, are to administer warm diluents freely, apply smart fric- 
 tion over the surface of the body, and subsequently keep the 
 animal well covered with horse-cloths, 'and in a dry atmosphere 
 about 70° Fahr. — the temperature most favourable for the free 
 action of the skin. In conjunction with this treatment, small 
 and repeated doses of some of the following medicines should 
 also be given : ammonium acetate, sweet spirit of nitre, sulphuric 
 ether, diluted spirits, ipecacuan, volatile oils, Dover's powder, or 
 antimonials. General stimulants in small doses usually increase 
 skin secretion ; but when there is undue arterial pressure, as in 
 the early stage of acute inflammation, sedatives, such as aconite 
 or even blood-letting itself, by reducing the heart's action and 
 arterial pressure, also increase skin secretion. Dr. WiUiam 
 Craig, of Edinburgh, has investigated and brought into notice one 
 of the most prompt and powerful of diaphoretics— the leaves 
 and small branches of jaboranoii, a Brazilian shrub, of which a 
 drachm, infused in water, in twenty minutes causes perspiration 
 to rain from human patients for four or five hours, and so pro- 
 fusely that ten to fifteen ounces have been collected. Jaborandi 
 and its alkaloid have also remarkable sialogogue properties. 
 Diaphoretics, like other evacuants, become absorbed ; they do 
 not, however, remain long in the blood ; where the conditions 
 abeady insisted on are duly attended to, they are attracted to 
 and stimulate the skin, and are carried out of the body in the 
 increased secretion they provoke. 
 
 Warm and vapour baths,, at temperatures varying from 
 
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56 ACTION OF MEDICINES. 
 
 100° to 120°, are ready diaphoretics, augment the healthy 
 functions of the skin, and are used successfully in veterinary 
 practice. The hydropathic method of sweatidg a patient is 
 also usefully employed. The patient is enveloped in a sheet 
 saturated with cold water. Over this are placed three or four 
 or half-a-dozen large horse-cloths. The legs should be sub- 
 jected to similar treatment, or rolled in warm bandages. After 
 the patient has been thus clothed for half-an-hour or an hour, 
 he will steam and perspire very freely. The sheet and rugs 
 should then be removed, and the animal dried by hand-rubbing, 
 and comfortably clothed. This mode of practice has been tried 
 both with horses and cattle, and seems useful in many cases of 
 rheumatism, and especially in gross subjects. It should not, 
 however, be adopted unless with due consideration, and under 
 competent superintendence. 
 
 Diaphoretics are applied to the following useful purposes : 
 
 1st, They restore arrested action and secretion of the skin, 
 and hence are of eminent service in equalising irregularities of 
 the circulation, counteracting congestion of internal organs, and 
 lowering exalted temperature. They are especially valuable in 
 checking those chills which so frequently usher in febrile and 
 inflammatory complaints. It would, indeed, be difficult to 
 estimate how many serious colds, febrile attacks, and inflam- 
 mations amongst horses are opportunely nipped in the bud by 
 the use of a couple of comfortable horse-rugs, bandages to the 
 legs, and a warm diaphoretic drink. 
 
 2d, By the determination of blood and nervous influence, 
 with consequent increase of secretion to the skin, they exert a 
 species of counter-irritation which is useful in overcoming in- 
 ternal congestion, and in diminishing such excessive secretion 
 of the kidneys or bowels as occur in diabetes, in chronic diar- 
 rhoea, or in the earlier stages of dysentery. 
 
 3d, Like other evacuants, they remove superfluous fluid and 
 morbid matters from the blood, and hence are useful in relieving 
 febrile, inflammatory, rheumatic, and dropsical diseases. Foi 
 these important purposes their value is greatly enhanced in 
 cases where, from any cause, the eliminating and purifying 
 function' of the bowels or kidneys is impaired or arrested. 
 
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INCREASED SECRETION OF URINE. 57 
 
 Diuretics. 
 
 Diuretics (Si^d, dia, througl^ ; o-ipeta, oureo, I make water) are 
 remedies which increase the secretion of urine. This may be 
 effected by large quantities of fluid, or certain saline, resinous, 
 or other soluble substances, which are absorbed iato the blood, 
 and thence excreted in the urine. In horses, hard work and 
 bad food, such as heated oats or musty hay, produce similar 
 effects. Some substances, as belladonna and henbane, in- 
 crease the solid as well as the fluid parts of the urine ; whilst 
 most , potash and soda salts by oxidation of effete matters 
 produce urea ; but diuretics generally, althoiigh greatly aug- 
 menting the watery parts of the urine, do not increase, but, 
 on the contrary, usually diminish, the proportion of salts and 
 organic matters expelled in it in a given time. Mr.' Bowman, 
 in explanation of this, supposes that aU such medicines stimu- 
 late the Malpighian bodies, which are intended for the secretion 
 of the watery parts of the urine, but have no such effect on the 
 uriniferous tubes or their capillary plexuses — the apparatus 
 concerned in the secr'etion of the characteristic solids of the 
 urine. It may be' that diuretics cause so much congestion of 
 this uriniferous apparatus as to arrest its functions ; indeed, 
 when the diuretic doses are too large, similar congestion and 
 arrested function appear to extend to the Malpighian bodies, 
 completely suspending the secretion of urine. 
 
 The diuretics commonly used in veterinary practice are — 
 alkalies, with alkaline and neutral salts, which must be given 
 in moderate quantity, for in large doses they act chiefly on the 
 bowels ; turpentine, with most resins and many volatile oils ; 
 sweet spirit of nitre, and most etherous and alcoholic fluids ; 
 digitalis and cantharides. All diluents and full doses of dia- 
 phoretics, when not eliminated by the skin, usually act as diu- 
 retics. Exposure to cold checks the action of the skin, and 
 favours the action of the kidneys. Active purgatives and mercu- 
 rials, by relieving congestion of the 'portal system, overcome 
 congestion of the kidneys, and thus indirectly act as diuretics. 
 A suitable diuretic ball for the horse is made with half an ounce 
 each of ni^re, resin, and soft soap. Three-fourths of an ounce 
 of each of the three ingredients dissolved in water make a good 
 
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58 ACTION OF MEDICINES. 
 
 diuretic dreneli for the cow. Stonehenge advises for a medium- 
 sized dog atout sis grains of nitre, lialf a grain of digitalis, and 
 three grains of ginger, made into a pOl with linseed meal and 
 water. Another useful combination consists of thirty drops of 
 sweet spirit of nitre and five grains of saltpetre in a little water. 
 Diuretics usually act certainly and speedily on all classes of 
 veterinary patients. Their actions are best ensured by giving 
 small and repeated doses, by using several together, by encour- 
 aging the animal to drink tolerably freely of water, thin gruel, 
 or other bland fluid, and by promoting the excretion of the 
 medicine by the kidneys, rather than by the skin or bowels. , 
 In the treatment of disease, diuretics are used for the follow- 
 ing important purposes : — 
 
 1st, To maintain or restore the healthy action of the kidneys 
 in febrile or other diseases, in which the secretion of urine 
 is diminished or arrested. Although serviceable when dimi- 
 nished urinary secretion results from functional disturbance of 
 the kidneys, diuretics are contraindicated when the urinary 
 organs themselves are congested or inflamed ; further irritation 
 is then injurious ; rest is required, and the bowels and skin 
 must for a time be got to perform the chief excretory duties of 
 the kidneys. 
 
 2d, To promote the elimination of poisons from the blood, 
 a purpose for which diuretics are recommended by Orfila and 
 other toxicologists, who find that doses of arsenic a^d other 
 drugs sufficient to poison may be given with impunity, pro- 
 vided active diuresis be speedily induced. Diuretics some- 
 times also hurry out of the body, before they do serious harm, 
 organic poisons taken into the body or formed there as a result 
 of disease. 
 
 Sd, To assist in combating inflammation of most organs, 
 excepting the urinary, by exciting counter-irritation, diminishing 
 the fluid parts of the blood, and in more advanced stages by 
 carrying away products of inflammation, or deleterious matters 
 accumulated in the system from the general impairment of 
 secretion. 
 
 Ath, To promote absorption of dropsical effusions, by remov- 
 ing water from the blood, which, in order to recover its normal 
 density, absorbs the anasarcous or dropsical swellings. 
 
 5 th, To augment the proportion of water in the urine, and 
 
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RESTORATIVES. 59 
 
 thus prevent the deposition of its solid parts in the Madder or 
 uritiary passages. For this purpose diuretics are frequently- 
 used in the human subject, occasionally in dogs and sheep, but 
 seldom either in horses or cattle, which are little subject to gravel. 
 
 Sialogogues. 
 
 Sialogogues (a-iaXov, sialon, saliva; and aycoyos, agogos, 
 evoking) increase the saUvary and buccal secretions. Some are 
 local irritants, like ginger, mustard, tobacco, and radish ; others, 
 being absorbed, excite the oral branches of the fifth nerve, and 
 stimulate the salivary glands and mucous foUicles, as is the 
 mode of operation of salts of mercury, gold and antimony, of 
 iodine, jaborandi, and almost aU nauseants. Materia medica 
 works published even so lately as 1810 often contained upwards 
 of one hundred sialogogues ; but in the present day remedies of 
 this class are only used empirically. 
 
 Bestoratives. 
 
 The growth and repair of the bodies of the higher animals 
 continually demand many and various materials. Food must 
 be supplied in sufficient amount and quality to nourish the 
 blood, whence the textures extract the several materials needful 
 for their continued restoration. "Water constitutes four-fifths of 
 the total weight of most animals, is being constantly removed 
 chiefly by the skin, lungs, and kidneys, and unless restored at 
 short intervals by suitable simple drinks, great discomfort and 
 impaired health ensue. Still more imperative is the continual 
 need of pure air to oxygenatfe and purify the blood, and remove 
 especially the carbonic acid and waste products which are 
 excreted chiefly from the lungs and skin. But whether in the 
 food, or given more directly as restorative medicines, the body 
 further requires varying supplies of all its many constituents 
 — phosphorus, specially for blood, bone, brain, and nerves ; 
 sulphur, for the skin and bile acids ; fats, for cell-growth 
 generally ; iron, for the blood globules ; salines, for the healthy 
 restoration of the blood and most other parts. 
 
 Essential as these requirements are for animals in health, 
 they are even more essential for those affected by disease. 
 
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60 ACTION OF MEDICINES. 
 
 Food then requires to be given with especial care and in an 
 easily digested form, for in aU serious diseases the digestive 
 powers are impaired, and require that physiological rest so 
 necessary to restore efficiency. In many fehrile complaints, 
 both of horses and cattle, the ordinary grains and dry fodders, 
 not being digested or assimilated, are apt to produce gastric 
 derangement. Animals affected by febrile and inflammatory 
 disorders should therefore be restricted to mashes, gruels, and such 
 soft food, to which extra nutritive value can be given as 
 required by the addition of milk and eggs. Pood should never 
 be allowed to lie long before a sick animal. If not promptly 
 cleared up it should be removed, and in a couple of hours, or 
 less time, a fresh supply should be offered. During and after 
 debilitating diseases, patients fed, as they should be, on small 
 amounts of rapidly-digested fare, obviously require such food 
 more frequently than in health. With returning appetite a 
 sick animal occasionally greedily eats more than is good for 
 him, and against this contingency well-intentioned attendants 
 require to be warned. Many bad relapses of colic and lymph- 
 angitis occur by allowing horses, so soon as they will eat, to 
 return at once to their full allowance of dry corn and hay. 
 
 Unless when affected with diarrhoea, dysentery, or diabetes, 
 animals do not injure themselves by taking too much water or 
 watery fluids, but are often rendered uncomfortable, and recovery 
 is retarded by undue restriction. A supply of water shotdd 
 always be within the patient's reach. Cold water never does 
 harm, and is more palatable and refreshing than when given 
 tepid. Saline matters, chalk, and such simple medicines, some- 
 times supplied in the drink offered to sick horses, require to be 
 sparingly added, and if they render the water at all distasteful, 
 they must be administered in some other way. 
 
 Much mismanagement, occurs with regard to the ventilation 
 and temperature of the habitations of sick animals. Even foi 
 horses or cattle accustomed to comfortable boxes, a temperature 
 of 60° to 65° is sufficiently warm. Avoiding draughts, cool ai] 
 should be freely admitted. No restorative or tonic is so effect- 
 ual as cool pure air, and it is especially needful in diseases ol 
 the respiratory organs and zymotic cases. 
 
 To the restoration of most sick animals a comfortable bee 
 greatly conduces. A sick, exhausted horse, who to his disad- 
 
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REST A GEEAT RESTORATIVE. 61 
 
 vantage would continue to stand if kept tied ia a stall, will 
 often at once lie down and rest if placed in a comfortable box. 
 In febrile and inflammatory attacks, and in recovery from 
 exhausting disease, alike in horses and cattle, a wafm rag or 
 two, and bandages to the legs, help to maintain an equable 
 temperature, and combat congestion of internal organs ; but at 
 least twice daily these rugs and bandages should be stripped off, 
 the skin wisped over, and the clothing at once reapplied. In 
 fever, when the skin is hot and dry, great comfort results, and 
 a more natural moist state of skin, and hence more active blood 
 purification and restoration ensue, from carefully sponging the 
 body several times a day* with tepid water acidulated with 
 vinegar, quickly drying, and at once putting on the clothing. 
 
 Physiological rest is a great restorative. • The pain accom- 
 panying most injuries and diseases, and greatly aggravated by 
 the performing of the natural functions of the part, instinctively 
 enjoias as much rest as possible. In irritable and inflammatory 
 states of the digestive organs, the simplest and most digestible 
 food is accordingly given, and as little duty as possible exacted 
 from the stomach and bowels. Again, when the kidneys are 
 diseased, they should be relieved from extra duty, and the skin 
 and bowels got vicariously to undertake the chief of the excre- 
 tory service. But when acute disease has passed away, the 
 gradual use of an affected part generally does good. Exercise 
 in such circumstances also proves a healthy restorer, improving 
 appetite, and promoting the various excretory functions. 
 
 Of more purely medicinal restoratives those in most common 
 use are linseed, in the form of gruel, tea, or cake, a most sooth- 
 ing, palatable, and digestible laxative combination of food and 
 medicine ; cod-Uver oil, another convenient form of supplying 
 assimilable fatty matters, especially to dogs and cats ; iron salts, 
 indicated in anaemia and debility ; phosphates, prescribed for 
 Hi-thriving, weakly young animals; salines, where the continued 
 use of dry food has diminished the normal secretions, and pro- 
 duced skin eruption and itching, often met with amongst hard- 
 worked liberaUy-fed horses. 
 
 Tonics. 
 
 Tonics (tovos, tonos, tone) are agents which increase the 
 general tone and vigour. They do this mainly by aiding 
 
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62 ACTIOK OF MEDICINES. 
 
 nutrition. Eoyle defines them as medicines " possessing the 
 power of gradually iacreasing the tone of the muscular fibre 
 when relaxed, and the vigour of the body when weakened by 
 disease." Dr. Billing, in his First Principles of Medicine, desig- 
 nates them as " substances which neither immediately nor 
 sensibly call forth actions like stimulants, nor depress them 
 like sedatives ; but give power to the nervous system to 
 generate or secrete the nervous influence by which the whole 
 frame is strengthened." The late Professor Headland taught 
 that tonics act primarily and directly on the blood As restora- 
 tives, and certainly some of them, such as iron-salts and cod- 
 liver oU, supply the blood with natural materials of which it may 
 be temporarily deficient. But whatever their modus operandi, all 
 tonics become absorbed ; many have been, detected in the blood, 
 and in various of the secretions. They appear to be retained 
 in the system in larger amount, and for a longer period, than 
 alteratives or stimulants ; and m weakly subjects in properly 
 regulated doses they gradually induce a more healthy state, 
 both of primary and secondary nutrition. Many of them 
 favour oxidation and excretion, and expedite tissue metamor- 
 phosis. In whatever manner they act, all tonics, judiciously 
 administered, produce these obvious effects: they increase the 
 appetite, the fulness and firmness of the pulse, the activity of 
 the bodily functions, the muscular power, and the capacity for 
 endurance. These effects, though somewhat slowly developed, 
 are usually very well marked, especially when tonics are given 
 in cases where the appetite is deficient or capricious, the pidse 
 weak and compressible, and the muscular system soft and 
 flabby. Given to healthy animals in large and repeated doses, 
 they do not, however, improve health ; but, on the contrary, 
 sometimes disorder digestion, and occasionally in men and 
 dogs cause febrile symptoms. Similar effects are apt to ensue 
 from their injudicious administration to sick animals. Tonics 
 resemble general and nerve stimulants, but their action is more 
 slowly and gradually induced, is more permanent, and' not suc- 
 ceeded by subsequent depression; whilst the action of stimu- 
 lants is speedily developed, but proves temporary, and is 
 succeeded by depression often corresponding with the previous 
 excitation. In short, tonics give strength, whilst stimulants 
 caU forth strength previously latent. Tonics also closely 
 
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TONICS. , 63 
 
 resemMe astringents, but act more slowly, and, properly used, 
 exert no corrugating chemical influence. 
 
 Tonics are prescribed in indigestion and mal-assimilation, 
 when these depend on debility; in most chronic and subacute 
 . disorders when unaccompanied by acute fever ; in scrofulous and' 
 other exhaustiag complaints ; and during recovery from debili- 
 tating disease. Such tonics as quinine and arsenic have in 
 man a remarkable power of arresting ague and other periodic 
 diseases, whilst salicylic acid is recently found with almost 
 equal certainty to arrest rheumatic fever. Tonics are gener- 
 ally withheld where there is active inflammation or acute 
 fever; they seldom do ihuch good, unless the bowels be in a 
 tolerably regular and normal state. To ensure their full efl'ect, 
 they should be giVen^ in moderate doses, at short intervals, and 
 for a considerable period. With the absurd idea of making up 
 for their being carelessly given at irregular and unduly long 
 intervals, they are frequently prescribed in unnecessarily large 
 doses, which are very apt to disorder digestion. The mineral 
 tonics in general use, in veterinary practice, are salts of iron, 
 zinc, and copper," arsenic, and the mineral acids. The common 
 vegetable tonics, sometimes subdivided into bitters and aroma- 
 tics, comprise gentian, quassia, cinchona and its alkaloids, with 
 such aromatic bitters as anthemis and cascarilla. Alcohol, 
 judiciously employed, is a most valuable cardiac tonic, reducing 
 the frequency and increasing the strength of the pulse. Digi- 
 talis and henbane are also heart tonics, steadying and quieting 
 irregularity and irritability. Mineral being generally more 
 active than vegetable tonic^, are more extensively prescribed 
 for horses and cattle. Many vegetable tonics contain an alka- 
 loidal or neutral principle of remarkable bitterness., They are 
 mild, and hence well suited for early convalescence, for cases 
 where more active medicines might prove irritating, and for 
 dogs. Cod-liver oil is the only tonic of animal origin pre- 
 scribed, and its use is confined to canine practice. Cold, in 
 the form of baths, douches, and sponging, proves a valuable 
 tonic, applicable for local as well as general purposes, relieving 
 irritability, bracing up soft flabby textures, and equalising 
 circulation.- 
 
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64 ACTION OF MEDICINES. 
 
 Stimulants, Calefacients, or Excitants. 
 
 Stimulants promptly but temporarily increase nervous 
 energy. They do not give strength, Kke tonics or restoratives, 
 but rather call forth dormant strength. Amongst natural 
 stimulants are cool, dry air exercise, hand-rubbing, and warmth 
 variously applied. Medicinal stimulants include alcohol, 
 ethers, volatile oils, and ammonia. They become absorbed, 
 and may often be detected in the blood and the various secre- 
 tions and excretions. They usually excite the organs by which 
 they are removed from the body, and hence frequently exhibit 
 subordinate actions as diuretics or diaphoretics. Those which 
 act with rapidity, such as ammonia and ethers, are sometimes 
 termed diffusible stimulants ,' but these rapidly-developed effects 
 are evanescent, and can only be maintained by frequently- 
 repeated doses. Acting as they do on so many different organs, 
 stimulants have a varied and extended field of usefulness. 
 Defective and irregular nervous power, depending upon debility, 
 is the chief indication for their use. 
 
 Stimulants are sometimes classified according to the organs 
 on which they chiefly act, and the special uses to which they 
 are applied. General stimulants, such as alcohol, ether, 
 ammonia, and turpentine, are of signal service in sustaining 
 the action of the heart and the powers of life in animals 
 sinking from sudden shock, from loss of blood, and from 
 poisoning by sedatives and some narcotics. They are effectual 
 in combating congestion of the lungs, caused either by exposure 
 to cold or by violent continued over-exertion, in controlling 
 those shivering attacks which are so often the precursors of 
 internal inflammation, in moderating eixalted animal tempera- 
 ture, and in abating tissue waste, as in influenza, typhoid fever, 
 and other debilitating diseases. 
 
 Cardiac stimulants, represented by alcohol, ammonia, tur- 
 pentine, and digitalis, are specially indicated in failure of 
 the heart's action from shock, profound anaesthesia, severe con- 
 tinued labour, or exhausting disease. Used for such purposes, 
 they sometimes receive the special title of cordials. 
 
 Stomachics, such as ginger and the fruits of the umbeUi- 
 ferse, are stimulants of which the effects are confined to the 
 
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DIFFUSIBLE STIMULAITTS. 65 
 
 stomacli; they improve the appetite and promote digestion. 
 CarminatiTes gently stimulate the stomach and intestinal 
 mucous membrane, excite contractions of the muscular coat, and 
 expel flatus. The carminatives in general use are spirits and 
 warm water, ether, ammonia, essential oUs, ginger, aniseed, and 
 other umbelliferous fruits, asaf cetida and other foetid gum resins. 
 
 Most active diffasible stimulants are antispasmodic. They 
 exalt and control nervous force, and thus overcome that de- 
 pressed and perverted condition of the nerves or nervous 
 centres on which spasm depends. In combating spasm, par- 
 ticularly of the intestines, such antispasmodics as alcohol, ether, 
 ammonia, and turpentine, are conjoined with such anodyne 
 narcotics as opium or Indian hemp, or such paralysers of motor 
 centres as conium. Calabar bean, or ansesthetics. ■ 
 
 Some stimrdants, such as alcohol, ether, and chloroform, act 
 specially on the brain and spinal cord, particularly when given 
 in large doses, and after a brief stage of excitement paralyse 
 sensibility and consciousness, and form the connecting links 
 between stimulants on the one hand, and narcotics and anses- 
 thetics on the other. Some stimulants act specially on the 
 motor centres and nerves, excite, and in large doses tetanise, 
 voluntary muscle. The representatives of this class are nux 
 vomica, strychnine, benzine, thebaine, codeine, and theine. 
 They are given in chronic paralysis and epilepsy, and in chorea 
 depending upon debility. 
 
 Stimulants, such as belladonna, hyoscyamus, digitalis, and 
 ergot, with their active principles, directly excite the sympa- 
 thetic nervous system, and besides sustaining the force and 
 power of the heart, stimulate other involuntary muscles, control 
 spasm, rouse the vaso-motor nerves, and counteract capillary 
 congestion and stasis. Belladonna, hyoscyamus, and stramonium, 
 three solanaceous plants, with their active principles, besides 
 more general effects, are mydriatics; they stimulate the sympa- 
 thetic ganglia and nerves of the eye, consequently dilate the 
 pupil, and are useful ia ophthalmia and in examinations of the 
 interior of the eye. Ergot of rye is a general constrictor of the 
 blood-vessels, and is accordingly used for the arrest of bleeding, 
 whilst it also specially stimulates the uterus, inducing its con- 
 traction and the expulsion of its contents. 
 
 Electricity and galvanism, although hitherto little used in 
 
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66 ACTION OF MEDICINES. 
 
 veterinary practice, are valuable stimialants. Galvanic currents 
 have been found serviceable in paralysis m horses and cattle, 
 depending upon injuries and chronic rheumatism, and in chorea 
 in dogs. They deserve further trial in obstinate torpidity of the 
 bowels, and iu the early stages of those cases of wasting of the 
 muscles of the larynx of the horse which constitute roaring. 
 
 Active inflammation and acute fever usually contra-indicate 
 the use of stimulants for horses and dogs ; but in many such 
 disorders amongst cattle and sheep, stimulants sensibly used 
 overcome congestion, equalise irregularities of temperature, re- 
 move irritability, subdue subacute inflammation, rouse the 
 excretory organs to healthy activity, and restore that harmoni- 
 ous working of the bodily functions which constitutes health. 
 
 Alteratives. 
 
 A large and important class of diseases appear to depend 
 upon some faulty or morbid materials or actions in the blood. 
 Such are scrofulous affections and rheumatism, eruptive fevers, 
 various skiu diseases, typhoid fevers in horses and cattle, with 
 distemper and several nervous disorders in dogs. A very few 
 of these blood diseases are readily removed by remedies which 
 act with almost as much certainty as antidotes. Quinine 
 promptly cuts short ague and iutermittent fevers in man, sali- 
 cylic acid controls the fever and pain of acute rheumatism, and 
 iodine arrests polyuria iu horses. Medicines thus producing with 
 certainty special curative results arefrequentlytermedspeci/?cs. As 
 therapeutics become better Understood, the present very limited 
 number of specifics may probably be increased, and particular 
 blood poisons may in time have their appropriate antidotes. 
 
 These blood diseases, when under medical control, are usually 
 counteracted and annihilated by a useful class of medicines, 
 termed alteratives, alterants, or catalytics. As their name indi- 
 cates, they alter for the better the condition of the system. 
 They have been defined by Professor Miiller as remedies which 
 are neither stimulant nor sedative, and have the power of effect- 
 ing changes in the state of the living solids, and hence in the 
 functions they perform. They include iodine, sulphur, arsenic, 
 salts of mercury, antimony, silver, zinc, copper, and lead, alkalies 
 and saline matters, mineral acids, and carbolic acid, with colchi- 
 
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ALTERATIVES. 67 
 
 cttm, Veratnun, and cod-liver oil. They are mostly of iaorganic 
 origin, are soluble ia some of tjie secretions of the alimentary 
 canal, are absorbed, and exert in the blood or soft solids their 
 special influence, neutralising or arresting morbid processes. 
 Frequently they alter the chemical character of fluids and solids; 
 they check waste and disintegration of healthy textures ; they 
 prevent development of bioplasm or degenerate cells; often they 
 accelerate oxidation, and the consequent removal of effete or 
 poisonous matters. In excessive or poisonous doses they, some- 
 times impoverish the blood; thus mercury diminishes its plastic 
 elements, and causes the development of foetid matters ; whilst 
 salines induce solution of its fibrine, and increascof its watery 
 portions. In medicinal doses the curative effects of alteratives, 
 although often only gradually established, are tolerably per- 
 manent. Being mostly unnatural to the blood, they do not 
 long remain in it ; and during their excretion, chiefly through 
 the skin and kidneys, increase their activity. Alteratives bear 
 some resemblance to tonics and astringents, and, as pointed out 
 below, are related to antiseptics and disinfectants. 
 
 Although assured by practical observation that alteratives 
 do counteract or annihilate disease, their modus operandi is not 
 yet definitely settled. Liebig and other chemists believe that 
 many diseases, and especially those known as bloOd diseases, 
 result from and are propagated within the body, by a species of 
 fermentation; and that alteratives arrest this fermentation, or 
 establish a species of rival fermentation, which checks that 
 previously going on within the system. Professor Headland 
 taught that alteratives act by catalysis or contact, somewhat in 
 the manner in which spongy platinum, without any change in 
 itself, causes combination of oxygen and hydrogen, or the emulsin 
 of bitter almonds resolves the amygdahn into prussic acid and 
 other compounds, or the albuminoid ptyahn promotes the change 
 of starch into sugar. The recent investigations of Pasteur, Dr. 
 Angus Smith, Mr. W. Crookes, Dr. Lionel Beale, Dr. A. E. 
 Sansom, and other physiologists, show that mineral salts and 
 acids, with carbolic acid and other bodies, recognisedi be it noted, 
 as alteratives, arrest fermentation and putrefaction, and destroy 
 the lower forms of Life, whether occurring without or within the 
 body. (See Antiseptics and Disinfectants.) The operation of 
 many alteratives may doubtless be similarly explained., They 
 
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68 ACTION OF MEDICINES. 
 
 neutralise or destroy raorbid germs, whether developed within 
 the body or iatrodnced from without ; they probably preserve 
 or modify the material on which such germs grow and multiply; 
 whilst many alteratives besides expedite the removal from the 
 system of used-up or dangerous materials. Some alteratives 
 have special distiuctive actions. Thus mercurials are found to 
 deprive the blood of one-third of its fibria, one-seventh of its 
 albumin, and one-siKth of its globules. Alkalies dissolve fibria, 
 retard its formation and deposition, and cause its removal in the 
 uriue. Saliaes resemble alkalies ia their effects, and, when used 
 for some time, increase, moreover, the alkaline salts of the blood. 
 Cocoa and its analogues tea and coffee are conservors of energy, 
 and arrest undue tissue-metamorphosis and excretion of urea. 
 
 Alteratives are employed in most febrile and inflammatory 
 attacks, and in rheumatism. In epilepsy and chorea, unattended 
 by nervous lesion, and depending upon a faulty state of the 
 blood, potassium bromide, arsenic, and metallic salts are specially 
 indicated. Eczema, and other skin diseases, are benefited by 
 arsenic, sulphur, and potassium iodide. Whilst alteratives 
 usually require to be given for some time before they develop 
 their curative results, the tendency which some of them exhibit 
 to impoverish the blood will indicate the propriety of their dis- 
 continuance so soon as their desired effects are produced, oi^ any 
 of their untoward symptoms are presented. ' 
 
 Many alterative prescriptions are used in veterinary prac- 
 tice. When acute febrile or inflammatory symptoms are to be 
 subdued ia horses or cattle, a scruple of calomel is given every 
 three or four hours, conjoined with a drachm of opium, which 
 prevents the mercury beiag carried out of the system too rapidly, 
 and before its desired effects are produced. In the later stages 
 of inflammation, duriag early convalescence, and ia typhoid 
 affections, mercury proves too lowering, and saline or alkaline 
 alteratives are indicated. A useful formula, either for horses 
 or cattle, consists of two ounces of Epsom salt, one ounce each 
 potassium chlorate and Mindererus' spirit, mixed with a piat of 
 water or cold gruel, and repeated twice or thrice daily. An 
 ounce of sulphur, with a drachm each of nitre and sal-ammoniac, 
 constitutes a useful alterative draught when mixed with a little 
 gruel, oil, milk, or treacle-water, to ensure the proper admixture/ 
 of the sulphur. A drachm each of nitre, sal-ammoniac, ginger. 
 
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ASTRINGENTS. 69 
 
 and gentian, repeated thrice daily, either ia bolus, or draught, 
 is prescribed both for horses and cattle. In colds, febrile 
 attacks, and the second stages of many inflammations, a useful 
 alterative draught consists of two ounces Epsom salt, one ounce 
 potassium chlorate, and ten minims hydrochloric acid, dissolved 
 in water, gruel, or beer, and repeated twice daily. In rheu- 
 matism, a drachm each of potassium iodide, nitre, and sodium 
 carbonate, with or without sulphur, prove useful, especially if 
 acute symptoms have been previously counteracted by calomel 
 and opium, or other more powerful remedies. Change of food 
 and of air, properly regulated exercisei rock-salt in the manger 
 or box, and electricity, af e included amongst alterative remedies. 
 
 Astring&nts. 
 
 Astringents (ad, to ; and stringo, I bind) corrugate the 
 softer animal solids and coagulate the fluids. They comprise 
 cold, in the form of baths and freezing mixtures, the mineral 
 acids, and most of the soluble salts of the m-etals, aluminium, 
 zinc, iron, lead, copper, mercury, and silver. Astringents of 
 vegetable origui include tannic and gallic acids, oak bark, galls, 
 catechu, and creasote ; many owe their effects chiefly to the 
 tannin they contain. Most astringents produce, in the first 
 instance, a topical chemical action. Concentrated metallic 
 solutions unite with the elements of the tissues, diininish- 
 ing their bulk' and solubility. Most vegetable astringents, 
 in large amount or concentrated form, tan them, causing their 
 partial conversion into leather — the tdugh, insoluble tanno- 
 gelatin of chemists. This chemical action, exerted equally on 
 dead and living tissues, on the living tissues is, however, 
 speedily succeeded by a vital constringing effect. Textures 
 become lessened in volume, their blood-vessels diminished in 
 calibre, their exhalations and secretions decreased. The^e 
 primary local impressions often produce beneficial reflex actions. 
 Cold applied to the loins often arrests bleeding from the uterus; 
 ice swallowed checks bleeding from the nose or lungs ; astrin- 
 gents to the mouth and fauces occasionally relieve atony of the 
 respiratory mucous lining. But astringents sometimes have a 
 still mpre extended action ; most of them become absorbed, and 
 constriage the unstripped muscular fibres of the arterial and 
 
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70' ACTION OF MEDICINES. 
 
 capillary vessels, and of the mucous membraues and glands, 
 giving firmness to the pulse, promoting digestion, and improv- 
 ing general health. In producing- these effects, astringents 
 resemble tonics, and, in practice, may be substituted for themi, 
 or combined with them. The most marked difference between 
 them probably consists in the vital action of astringents being 
 preceded by, and resulting from, a purely chemical effect. 
 
 Astringents are prescribed internally to counteract relaxa- 
 tion with the morbid conditions dependent thereon, to arrest 
 excessive mucous secretion resulting from defective tone, and 
 to stay haemorrhage. Ergot of rye has 'a special power of 
 contracting involuntary muscular fibres, and hence acts as a 
 styptic, whether when swallowed or when its active principle, 
 ergotine, is injected hypodermically. As external agents, 
 astringents counteract relaxation and excessive secretion both 
 of serum and pus ; suppress pale flabby granulations ; hasten 
 the formation of healthy cicatrices ; diminish the volume of 
 protruded organs, and thus facilitate their return, as in cases 
 of protrusion of the rectum or uterus ; coagulate blood, and as 
 styptics stop the mouths of bleeding vessels ; constringe dilated 
 and paralysed capillaries, and hence remove inflammation, — a 
 mode of treatment specially applicable to slight contusions, 
 conjunctivitis, and other cases of circumscribed and superficial 
 inflammation. The internal use of astringents should be 
 avoided in serious and extensive inflammation and fever, and 
 in undue irritability of the alimentary canal. Their local appli- 
 cation is usually contra-indicated where the parts are abnormally 
 hot, dry, or tender. In such circumstances they cause irritation. 
 
 Hmollients. 
 
 EmoUients (moUio, 1 soften) soften, soothe, and relax the 
 parts to which they are applied. They resemble demulcents ; 
 and besides the various substances already mentioned as be- 
 longing to that class, they iaclude poultices, fomentations, 
 moistened hnt, flannel, sponge, or spongio-piline, with hot 
 water, soap and water, decoction of poppies, oil, glycerin, lini- 
 mentum calcis, starch powder, and fuller's earth. They are 
 opposed to astringent tonics. They are serviceable in the 
 earlier stages of inflammation for effecting resolution ; in the 
 
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EEPRIGEEANTS., 71 
 
 more advanced stages for promotmg. supptiratioii ; in all stages 
 for relieving heat, tension, and pain. Although serviceable for 
 softening and cleansing wounds, they are generally unsuitahle 
 for those likely to heal by first iatention or adhesion. 
 
 Refrigerants. 
 
 Eefrigerants {frigeo, I am cold) reduce or moderate the 
 excessive temperature of those parts of the body vdth which 
 they come iato actual contact. They act as local tonics and 
 stimulants, and sometimes remove circumscribed and superficial 
 inflammation, especially*in parts of low organisation. Cold air 
 and cold water are not only the most common, but the most 
 convenient refrigerants. All solid substances in becoming fluid, 
 absorb heat, and this fact suggests the expediency of dissolving 
 in the water, immediately before application, such saline matters 
 as common salt and nitre, or common salt and ammonium 
 nitrate or chloride. Alcoholic, etherous, and other volatile fluids, 
 are also employed as cooling lotions, and are effectual on account 
 of their abstracting heat duiiag evaporation. Saline and some 
 other refrigerants, when given internally during fever and in- 
 flammation, are often useful in relieving thirst. They usually 
 reduce exalted temperature, and expedite recovery, probably in 
 virtue of some alterative, antiseptic, or stimulant property. The 
 healthy glow or reaction which follows the use of refrigerants, 
 whether employed internally or externally, usually affords some 
 criterion of- their curative value. In excessive doses, as when 
 ice or ice-cold water' is freely and rapidly swallowed, dangerous 
 sedative effects sometimes ensue, especially in weakly or ex- 
 hausted subjects. 
 
 In using refrigerants externally, when the temperature is 
 to be reduced below the point that can be attained by cold 
 water frequently renewed, or with saline matters dissolved in it, 
 the usual appliance consists of ice, broken small, and mixed 
 with about half its weight of salt, the mixture being applied 
 either in a gauze bag or in a thin metallic vessel. A piece of 
 metal immersed in the freezing mixture is occasionally applied 
 to the part. Such treatment is appKcable to cases of sprained 
 tendon, open joint, chronic rheumatism, simple and deep- 
 seated ophthalmia, and phrenitis, and also in relieving the 
 
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72 ACTION OF MEDICINES, 
 
 irritation of ulcerating and other -wounds. So entirely does 
 extreme cold, or congelation, as it is termed, remove sensation, 
 that ahscesses have been opened, and other minor operations 
 performed, without pain. The skin shortly becomes bloodless ; 
 the subjacent parts tense, firm, and numbed ; congestion dis- 
 appears ; while superficially inflamed structures recover their 
 tone. The cold application, repeated several times daily, may 
 be continued for five or ten minutes ; but to avoid undue re- 
 action, cold water should for some time after be appUed. In 
 the human subject congelation was successfully used by Dr. 
 Arnott in the treatment of erysipelas and other skin diseases ; 
 but, as the vitality of the chilled parts is apt sometimes to be 
 unduly reduced, with the results of languid circulation, and 
 even of sloughing, care must be taken to employ ice and other 
 active refrigerants with caution, to avoid their application too 
 suddenly or for too prolonged a period, and to moderate the 
 reaction, which is sometimes dangerously violent. 
 
 Sedatives. 
 
 Sedatives {sedo, I calm, or aUay) depress nervous force. 
 They are sometimes termed antiphlogistics, or depressants. 
 They include blood-letting, aconite, prussie acid, tartar emetic, 
 and hellebore. Through the mucous surfaces, the skin, or wounds, 
 sedative medicines find entrance into the blood, are conveyed 
 to the nervous centres or nerve^j blunt reflex irritability, and 
 derange and depress the functions of most of the vital organs. 
 They have a tolerably uniform action on man and the several 
 domestic animals. They reduce the force and frequency of 
 the pulse, diminish arterial pressure, decrease the number of 
 the respirations, lower animal heat, and hence are serviceable 
 in combating febrile attacks, and inflammation of the lungs, 
 intestines, and other organs. Eelaxing muscular fibre, they 
 control spasm. They destroy life by syncope, or arrest of the 
 heart ; or by asphyxia, or arrest of the respiratory movements. 
 They are opposed to stimulants ; they bear some resemblance 
 to narcotics, but differ from them in causing little preliminary 
 excitement, and little effect on the brain proper. 
 
 Sedatives include a number of medicines, which, although 
 they have depressent actions in common, exert their effects on 
 
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HEART AJSm NERVE SEDATIVES. 73 
 
 different organs, and are applicable to different therapeutic pur- 
 poses. Many possess subordinate actions and uses. Thus 
 antimonials are emetic as well as sedative. Aconite, in addi- 
 tion to its reducing the heart's action, has a curious anses- 
 thetic effect, which renders it a useful application in rheumatism 
 and neuralgia. Many, irritant and corrosive poisons have 
 secondary sedative effects. 
 
 Sedatives are conveniently divided into two groups — (1) 
 those which act more primarily and prominently on the heart ; 
 and (2) those which act more notably on the spinal cord, and 
 are sometimes distinguished as depresso-motors. 
 
 (1.) Aconite is the best illustration of a heart sedative. It 
 attacks the heart, or its contained ganglia, causes gradual dila- 
 tation of the ventricles, and slower, feebler action ; in poisonous 
 doses, withia a minute it produces fatal syncope ; it acts upon 
 the heart even when removed from the body, exhausting its con- 
 tractility. In moderate doses it reduces the force and frequency 
 of the heajt beat, lowers arterial pressure and temperature, and 
 controls spasm. Tartar emetic, in men, dogs, and cats, dimin- 
 ishes the heart's action; but, according to the. dose in which it 
 is given, is besides emetic, expectorant, diaphoretic, and a gastro- 
 intestinal irritant. Veratrum and its alkaloid veratriae rank 
 both as heart and spinal sedatives, produce muscular weakness 
 and trembling, clonic spasms, progressive declension of the heart's 
 action, probably caused by direct effect on the heart muscle 
 and its contaiaed ganglia. Veratriae is irritant, causes preh- 
 minary excitement, convulsions, muscxdar paralysis, increase and 
 subsequent steady lowering of the pulse and blood pressure. 
 Prussic acid is a tolerably general paralyser and sedative, but 
 acts primarily and prominently on the cerebro-spinal axis ; 
 attacks directly the heart and its contained ganglia; ia full 
 doses causes gasping, tetanic or clonic convulsions, and death, 
 in a few minutes, from cardiac or respiratory arrest. Digitalis, 
 long included amongst sedatives, although in moderate doses 
 slowing the action of the heart, is in reality a heart stimulant 
 and tonic. The Borneo and Madagascar arrow-poisons, and 
 the Java Upas antiar, rapidly paralyse and arrest the action of 
 the heart. The cobra poison, in fuU doses, is also a deadly 
 cardiac sedative. 
 
 (2.) The following are some of the more important spinal 
 
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74 ACTION OF MEDICIlirES. 
 
 sedatives or depresso-motors : — Lobelia, wHch in some respects 
 resembles tobacco, constitutes a connectiag link between seda- 
 tives affecting the heart and those affecting the spinal cord. 
 It is a local irritant, and causes vomitiag, followed by musculax 
 prostration, stupor, coma, and convulsions. Tobacco and its 
 alkaloid nicotiue are rather complex ia their actions, are 
 topical irritants, paralyse the brain and motor nerves, cause 
 relaxation of muscles, but in certaia doses excite the medulla, 
 producLQg cardiac and general tetanus. Calabar bean causes 
 muscular tremors and relaxation, suspension of reflex irritability, 
 and death by paralysis of respiration. It has been used in 
 tetanus, and for contracting the pupil, and is the physiological 
 opposite of strychnine. Curare, also called woorali — a South 
 American arrow-poison — paralyses the motor system, is allied 
 to Calabar bean and coneiae, and antagonistic to strychnine. 
 Potassium bromide causes progressive paralysis, depression of 
 temperature, asphyxia, or cardiac arrest in diastole ; the cere- 
 brum is mor6 affected than by Calabar bean. It is prescribed 
 to lessen reflex activity in epilepsy and other spasmodic dis- 
 eases. Hemlock and its alkaloid coneine are paralysers of 
 motor nerves ; their peripheral extremities are probably primarily 
 attacked ; the hind limbs are first affected ; clonic spasms occur; 
 cessation of respiratory movement Idlls ; neither consciousness 
 nor sensation is impaired. Its physiological opposite is strych- 
 nine. Water hemlock also causes giddiness, reeling, and para- 
 lysis of the functions of the cord. CEnantha crocata, -the 
 umbelliferous hemlock water dropwort, is also a depresso-motor 
 poison. Seventy-four cattle, belongiag to Lord Dunraven, turned 
 out to grass at Adare, County Limerick, in 1873, ate the fresh 
 leaves of the plant, and forty-three died, foaming at mouth, 
 shiveriQg, reeling, staggering round in a circle, with rapid and 
 laboured breathing, tetanic spasms, ajid death within a few 
 minutes. Amyl nitrite is very volatile, when inhaled acts 
 rapidly on the motor tract of the cord, causes hurried, panting 
 breathing, muscular flaecidity, loss of reflex action, and fatal 
 failure of respiration, but without impairment of consciousness 
 or sensation. Chloral hydrate occupies debateable ground be- 
 tween sedatives and narcotics ; affects the brain, causing sleep ; 
 sensibility and reflex irritability are blunted ; the muscles are 
 relaxed ; the pupils dilated ; respiratory movements gradually 
 
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BLOOD-LETTING. 75 
 
 and, fatally paralysed. It is prescribed to allay reflex irrita- 
 bility and spasm. Bromine exerts a special sedative influence 
 on the sympathetic or organic system, as well as. on tbe nerves of 
 common sensation, reduces vascular tension, and thu^ diminishes 
 secretion. Cold, properly regulated, is a powerful sedative. Dr. 
 Chapman has shown that ice appUed to the spine acts as a seda- 
 tive to the spinal cord, diminishing excessive muscular tension, 
 as of tetanus, epilepsy, or chorea, and lessening undue irrita- 
 bility and excretion, as of the bowels in dia,rrhoea or dysentery. 
 Blood-letting, the most prompt and powerful of sedative 
 remedies, is also on that account the one most liable to abuse. 
 It is chiefly serviceable in the earlier stages of acute inflatoma- 
 tion of the pleura, peritoneum, brain, and feet, and in apoplectic 
 affections — ^in fact, wherever there is high fever, with a tense, 
 firm, incompressible pulse, or a full, slow, indistinct pulse. It 
 lessens the quantity of the blood, reducing especially the pro- 
 portion of the red globules and fibrin, and to a lesser extent the 
 albumin and saline matters; whilst, by diminishing vascular 
 tension, it weakens the force of the circulation. Hence, judi- 
 ciously used, it may relieve venous congestion, counteract undue 
 reaction, stay the progress of acute inflanunation, favour absorp- 
 tion, and render the system more amenable to subsequent treat- 
 ment. In all cases where the operation is called for, either in 
 horses or cattle, blood may generally be taken to the extent of 
 four or five quarts. The exact quantity must, however, depend 
 entirely upon the circumstances of the case. Blood shoiild flow 
 freely until its abstraction has made a decided effect upon the 
 volume and strength of the pulse, or until the patient shows the 
 earliest symptoms of nausea. Blood should be drawn rapidly 
 from a large opening, as its important effect in relieving tension 
 of over-distended capillaries is thus produced more rapidly and 
 decidedly, and with less expenditure of the vital fluids. The 
 jugular vein on either side is usually selected for the operation, 
 and is safer and more convenient than any other vesseL Bleed- 
 ing from arteries is more troublesome, and not more effectual 
 than from veins. Topical blood-letting is rarely practised 
 amongst the lower animals; but in cases of weed and acute 
 laminitis many successful practitioners stiU prefer to draw blood 
 by carefully paring away the crust at the toe, laying open the 
 minute vessels, and immersing the foot in hot water or a warm 
 
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76 ACTION OF MEDICINES. 
 
 poultice. Except in expert professional hands, fleams are much 
 safer than the lancet, which occasionally in restive horses makes 
 an ugly gash. If practicable, the horse should be bled with his 
 head erect; for in this position the nauseating effects, which 
 show that no more blood can be spared, are most noticeable. 
 It is not very safe to bleed a horse when he is lying down, and 
 never, in any case, to the extent of causing fainting. When 
 enough blood has been taken, the edges of the wound must be 
 brought accurately together, and secured by a pin, round which 
 should be wound some thread, tow, or hair. Although blood- 
 letting is assuredly a valuable remedy in the early stages of 
 acute inflammation in vigorous animals, it must not be applied 
 in all cases or in all stages of inflammation. It is always 
 injurious in young weakly subjects, in the later stages of disease, 
 in epizootic and eruptive fevers, and, indeed, whenever the pulse 
 is small, quick, and weak. A horse or cow should never be 
 bled if the pulse is small, soft, or very quick, for a pulse of this 
 kind indicates weakness; and bleeding in all such cases increases 
 exudation and effnsion, instead of preventing them, whilst it 
 unnecessarily debilitates the patient, retarding his recovery, and 
 diminishing his capacity of coping with and throwing off the 
 disease. In dogs blood-letting is rarely advisable. In aU 
 animals the finger should, during bleeding, be placed upon the 
 pulse, so as to note any changes in its force and frequency; and 
 if, whilst the blood flows, the circulation gets quicker and weaker, 
 and begins to flutter, be assured the treatment is erroneous: at 
 once take away the blood-can, pin up the woiind, and beware 
 of prosecuting further the sedative treatment. Such a mischance 
 should, however, never happen ; for whenever there is the least 
 question as to the propriety of blood-letting, give the animal the 
 benefit of the doubt, and avoid a remedy, of which the reducing 
 effects are so serious and so slowly repaired. 
 
 Narcotics. ^ 
 
 Narcotics (vdpKwrK, narkosis, a benumbing) are mostly sooth- 
 ing and stupefying remedies. They include anodynes given for 
 the relief of pain, and hypnotics or soporifics given to induce 
 sleep. They were defined by the late Professor Headland as 
 " medicines which pass from the blood to the nerves or nervous 
 
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NAECOTICS. 77 
 
 centres, wMcli act so as first to exalt nervous force, and then to 
 depress it ; and have al^o a special action on the intellectual 
 part of the brain." They have heen classified, as inebriants, 
 soporifics, and deleriants ; and include opium, Indian hemp, 
 belladonna, hyoscyamus, camphor, and tobacco. Large doses 
 induce depression and stupor, preceded by comparatively little 
 excitement, and usually cause death by coma ; but in the lower 
 animals the spinal cord, as well as the brain, is notably impli- 
 cated, and spasms and convulsions are apt to interrupt the stupor. 
 Some narcotics,' such as beUadonna, hyoscyamus, and Indian 
 hemp, cause considerable, preliminary excitement, and in large 
 doses delirium, and form the connecting links, as it were, between 
 narcotics and such stimulants as alcohol and ether. Narcotising 
 the cord as well as the brain of the lower animals brings these 
 narcotics into near relationship with such depresso-motors as 
 hemlock. Calabar bean, and chloral. 
 
 There is considerable diversity in the action and uses of the 
 several narcotics, and the same narcotic furthe]^ comports itself 
 differently according to the dose and other modifying conditions. 
 Opium is described by Dr. John Harley "as a hpynotic which 
 includes anaesthesia, and an excitant which includes cramp and 
 convulsions." It has more direct effect on the brain than other 
 narcotics ; but in the lower animals this brain action is not so 
 notable as in man ; full doses also cause more preliminary 
 excitement in animals than in man ; induce in horses more 
 delirium than in dogs or men ; leave in all animals nervousness 
 and muscular weakness ; poisonous doses induce deep sleep, 
 death by coma, often interrupted by convulsions, and with 
 gradual weakening of the respiratory function. No narcotics 
 are so generally valuable as opium, and its alkaloid morphine, 
 in antagonising sleeplessness, spasm, and pain. Belladonna 
 causes more preliminary excitement than opium; large doses 
 produce delirium rather than stupor ; properly regulated doses 
 stimulate the heart and vascular system ; it dilates instead of 
 contracting the pupil. Henbane resembles beUadonna, but 
 paralyses more notably the cerebrum and motor centres, and 
 stimulates less powerfully the sympathetic ; it dilates the pupil, 
 diminishes mucous secretion, and relaxes muscular fibre. Indian 
 hemp induces hallucinations and delirium rather than stupor, 
 increases rq,ther than diminishes secretion, and is chiefly used 
 
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 78 ACTION OF MEDICINES. 
 
 by veterinarians as an antispasmodic in tetanus. Camphor in 
 large doses poisons birds and dogs, causes delirium with convul- 
 sions, stupor, and death, usually from respiratory arrest ; it is 
 prescribed as an anodyne. Tobacco, especially in full doses, 
 paralyses the cerebral functions, and is hence allied with nar- 
 cotics as well as with sedatives. Cocculus Indicus and its 
 active bitter principle picrotoxia cause giddiness, convulsions, 
 and coma, and are sometimes used to stupefy and take fish and 
 game. Chloral hydrate acts on the intellectual and motor 
 functions, soothing irritability and causing sleep ; ia full doses 
 it narcotises the cranio-spinal axis, and arrests respiratory move- 
 ments. Carbolic acid exerts somewhat sunUar effects, causing 
 delirium and death by coma, and arrest of the respiro-cardiac 
 functions ; but with these narcotic effects it conjoius notable 
 irritant and antiseptic properties. 
 
 Narcotics are given to relieve inordinate nervous action. 
 They abate the spasms of colic, chorea, and tetanus ; diminish 
 the irritability and excessive discharges of chronic cough, broii- 
 chitis, diarrhoea, and dysentery ; alleviate gastrodynia and chronic 
 vomiting in dogs ; and blunt the pain of wounds, rheumatism, 
 pleurisy, and other inflammations. To ensure their full effects, 
 they are given at intervals of one or two hours. Most narcotics 
 contain concentrated active principles, which can be conveiiiently 
 and effectually used hypodermically. 
 
 AncBsthetics. 
 
 Anaesthetics (a, a privative ; and ai'o-^ijo-ts, aisthesis, sensation) 
 are agents which produce insensibility to external impressions 
 and to pain. They are represented by chloroform, ether, and 
 laughing gas. They resemble narcotics in their general action; 
 but their peculiar distinctive power of extinguishing sensation 
 demands for them a separate consideration. 
 
 The possibility of inducing anaesthesia seems to have been 
 thought of at a very early period. Dioscorides speaks of man- 
 drakes , being employed for causing insensibility td pain. As 
 early as the third century the Chinese are said to have used a 
 preparation of hemp to induce anaesthesia during surgical opera- 
 tions ; while, about the end of the seventeenth century, Augustus 
 IL, king of Poland, underwent an operation, which, on account 
 
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ANESTHESIA. 79 
 
 of tile use of some secret agent, is said to have been unaccom- 
 panied by pain. In the beginning of the present century. Sir 
 Humpliry Davy used nitrous oxide for causing iasensibUity. 
 About 1831 etber was known to ansestbise tbe lower animals, 
 and relieve astbma in human patients. It was first used to 
 produce ansestbesia in man in America, on September 30, 1846, 
 by a Mr. Morton, in tbe extraction of a tootb, and shortly after- 
 wards was generally used for surgical operations. On this side the 
 Atlantic it was first given in London, December 19, by a dentist, 
 and two days later by the celebrated Listen. In the succeed- 
 ing February it was first used in midwifery by the late Sir 
 James Y. Simpson, who, before another year had elapsed, dis- 
 covered the more potent and convenient chloroform. It had 
 been known for some time as a chemical curiosity; some of its 
 effects on the lower animals had been observed by Dr. Mortimer 
 Glover in 1842, and by Flourens in March 1847; but its 
 ansesthetic power on man was discovered on November 4, 
 1847, by Professor Simpson, in an experiment made with a 
 small quantity on himself and some friends. Siace that date its 
 employment has spread over the habitable globe ; it has relieved 
 the sufferings of thousands, and saved the lives of hundreds, — 
 probably, indeed, of more than ever have been saved by any 
 single remedy, however ancient or valuable. Although many 
 other anaesthetics have siace been tried, none of them have 
 proved so safe and serviceable as chloroform and ether. 
 
 Ansesthetics being volatile or gaseous are usually introduced 
 . into the system through the lungs ; they have a remarkable 
 power of diffusion ; but how they determine their characteristic 
 effects is not easily explained. It has been"' stated that they 
 impair oxidation, that they contract and teW to liquefy the 
 blood globules, that they exert a direct effect on the nerve 
 textures. But in what manner soever they estabhsh their 
 action, the brain and nervous centres are speedily affected ; and 
 three tolerably distinct stages are noticed in the operation of 
 the ansesthetic. (1.) The cerebral functions are exalted and 
 deranged, much ia the same way as by full doses of alcohol, 
 but are presently depressed, causiag gradual unconsciousness, 
 suspension of special sense, and bluntiag of sensation. (2.) 
 The cerebellum and spinal cord are swiftly iavolved ; the mus- 
 cles are relaxed, common sensation is suspended, breathiug is 
 
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80 ACTION OF MEDICINES. 
 
 quiet and automatic, unconsciousness is perfect. This is the 
 stage required for all serious operations. The anterior or motor 
 centres, it should be remarked, are not so readily or so fully- 
 acted on as the posterior or sensory centres. (3.) The centres 
 of the sympathetic and the medulla are the last to yield to the 
 continued action of the anaesthetic, and as they are acted on, 
 the involuntary processes of organic Hfe become arrested ; reflex 
 actions fail to be excited; respiratory movements are stayed, 
 and the heart ceases to beat. 
 
 The symptoms of anaesthesia in the lower animals do not 
 materially differ from those in man, and, according to Dr. 
 Marshall HaU, are more uniform and perfect. In the first 
 stage, salivation and coughing sometimes occur, the respira- 
 tions are deep and somewhat hurried, the pulse quickened, the 
 surface-heat raised, the limbs moved about irregularly. During 
 this stage in man peculiar sensations and sounds are perceived, 
 and incoherent expressions are uttered. In all animals general 
 insensibility gradually supervenes, the conjunctiva loses its 
 reflex irritability, the pupil is dilated, the pulse becomes soft 
 and slow, the muscles are relaxed, excretion of carbonic acid is 
 diminished. Nausea and vomiting occasionally occur. Dogs 
 sometimes whine as if uneasy or suffering. Even during the 
 full action of the agent there is sometimes observed quivering 
 of the muscles, which renders the performance of delicate 
 operations somewhat difficult ; occasionally there is dangerous 
 depression of the action of the heart, especially when full 
 doses are very rapidly inhaled. In the lower animals, as in 
 man, anaesthesia may, however, be safely kept up for many hours 
 continuously. The degree which it is advisable to produce 
 necessarily varies much ia different circumstances. When 
 relief of pain or of irritation is sought, paralysis of sensation 
 without loss of consciousness suffices ; when a painful operation 
 is to be undergone, the patient must be rendered insensible and 
 unconscious. The inhalation, however, must be at once stopped 
 whenever the pulse, which shotddbe carefully watched throughout, 
 becomes irregular, embarrassed, or feeble; when the breathing gets 
 slow, shallow, or noisy; when the pupil dilates; or when irrita- 
 tion of the conjunctiva fails to excite reflex action and bliakinw. 
 
 Anaesthetics, even when free from pungency, require 
 to be breathed mixed with air, usually to the extent of 
 
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DIFFICULTIES IN AN^STHISING HORSES. 81 
 
 twenty times their volume. When inhaled undiluted, or when 
 air is excluded from the patient's lungs by the apparatus for 
 administration, or in any other way, asphyxia occurs; and most, 
 of the accidental deaths from anaesthetics, whether in men or 
 the lower animals, are thus accounted for. When deadly 
 anaesthesia is produced, the most important restorative is fresh 
 air, which must be got into the lungs by the operator gently 
 blowing at intervals into the patient's mouth or nostrils, or 
 carefully using a pair of bellows, alternately pressing upon and 
 releasing the ribs, and thus imitating the respiratory move- 
 ments ; whilst the tongue is drawn out, to prevent its interfer- 
 ing with access of air. Eespiratory movements may also be 
 encouraged by dashing cold water over the head and neck, by 
 stimulating clysters, by pricking the throat with needles, espe- 
 cially over the track of the phrenic nerve, and by the cautious 
 use of the galvanic battery. Congestion of the right side of 
 the heart may be relieved by a moderate bleeding from the 
 jugular vein. Until partial consciousness takes place the 
 patient is unable to swallow, and hence any attempt to ad- 
 minister stimulants is dangerous. 
 
 The mode of dying and the post-mortem appearances vary 
 somewhat with the rapidity of the poisoning. Where human 
 patients have rapidly inhaled chloroforrd or other anaesthetics 
 death has occa:sionally resulted from cardiac syncope. In the 
 lower animals, however, this is very rare; the respiratory 
 centres are gradually paralysed, respiratory movements cease, 
 death depends on asphyxia, the pulse continues to beat after 
 the respiratory movements cease. Hence the value of artificial 
 respiration in restoring patients from profound anaesthesia. 
 The blood is dark-coloured and imperfectly coagulable ; rigor 
 mortis comes on naturally; the lungs are seldom congested ; 
 the veins throughout the chest are charged with dark .blood ; 
 the right side of the heart is overfilled ; the left side nearly 
 empty; the brain and nervous centres are seldom congested. 
 
 There are some difficulties and disadvantages in the use of 
 anaesthetics in the lower animals. Horses have generally to be 
 thrown down before the inhalation can be effected. A skilled 
 assistant is necessary to regulate the administration; nausea 
 and depression occasionally continue for several hours. Anes- 
 thetics have, however, been successfully exhibited in all formid- 
 
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82 ACTION OP MEDICINES, 
 
 able surgical operations. In parturition they afford, as in 
 human patients, immunity from pain, but do not interfere with 
 the force or frequency of the involuntary contractions of the 
 uterus. Where the neck of the uterus in cows or ewes, 
 arrived at the full term of gestation, continues spasmodically 
 closed in spite of regular labour pains, and where manual efforts 
 to expand the passages have been vainly persevered with for 
 several hours, anaesthetics sometimes prove serviceable. In 
 false presentations in the mare, the straining is sometimes so 
 violent that the practitioner is powerless to rectify the foetus 
 until anaesthesia has been produced. For relieving the irrita- 
 bility and pain of such diseases as enteritis, peritonitis, pleurisy, 
 and laminitis, and for obviating the spasms of tetanus, colic, and 
 asthma, a low degree of anesthesia proves useful In some of 
 these cases diluted solutions are injected into the rectum, and 
 exert, often by reflex action, an anodyne effect on painful con- 
 ditions of the digestive, urinary, or genital organs. 
 
 ■ Local anaesthesia is producible without interfering with 
 general sensibility or consciousness. Lint saturated with the 
 volatile agent may be laid over the circumscribed spot ; or, with 
 a spray producer, a finely divided stream may be directed upon 
 it. Within a few minutes — often indeed in a few seconds — 
 the peripheral extremities of the sensory nerves are paralysed, 
 and sensation entirely removed. The agents generally used 
 are ether, alone or mixed with chloroform, or with alcohol. On 
 account of its rapidity of action. Dr. B. W. Eichardson recom- 
 mends a mixture of equal parts of ether and amyl hydride. 
 Freezing mixtures (p. 71), and even electricity, have somewhat 
 similar benumbiag effects. Local anaesthesia has been used by 
 veterinarians in castration, removing tumours, probing and excis- 
 ing fistulse, opening abscesses, reducing herniae, extracting teeth, 
 inserting setons, firing, and neurotomy. Those who have used 
 it most do not, however, give it an unqualified approval, and 
 often find that the subsequent healing of wounds is tardy and 
 unsatisfactory, and too frequently accompanied by suppuration 
 and sloughing. The risk of such untoward results is dimin- 
 ished by lowering as little as possible the vitality of the part, 
 anaesthesing slowly, not too deeply,. and only for a very short 
 periodi 
 
 Chloroform and ether, the only anaesthetics used in vete- 
 
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ETHER AND CHLOEOrORM THE BEST ANAESTHETICS. 83 
 
 rinary practice, 'will liave detailed consideration hereafter ; but 
 a few of the volatile bodies which have also been used as 
 anaesthetics demand brief notice. The various substances of 
 the methyl series^— of which chloroform (C H Clg) is the best 
 anaesthetic representative — are mostly narcotic. Proxylic or 
 wood spirit, or methyl alcohol (C H^ 0), and methyl hydride 
 or marsh gas (C HJ, are feebly anaesthetic. Carbon tetrachloride 
 (C Cl^, a heavy colourless liquid, anaestheses both men and 
 animals. Methyl chloride, or chloromethyl (C Hg 01), usually 
 obtained by the action of hydrochloric acid upon methyl 
 alcohol, has a low specific gravity and boiling point, is unstable, 
 has been used in surgical operations in man, and requires to be 
 given rapidly, without much admiKture of air. It is soluble in 
 water and ether, the solution in the latter, according to Dr. 
 Eichardson, being one of the most perfect anaesthetics. Methyl 
 bichloride contains an atom of chlorine less, and an atom of 
 hydrogen more, than chloroform ; is represented by the formula 
 C Hg Clg ; is volatile, pleasant to inhale, but not so safe as ether 
 or chloroform. Acetone, chemically regarded as methyl acetyl 
 (C Hg, Cg Hg 0), is more acid and irritating than anaesthetic. 
 
 Several members of the ethyl series-r-nitric, hydrochloric, 
 acetic, and formic ethers — ^have been subjected to careful experi- 
 ment, but none have been found so safe and serviceable as 
 ether (Cg Hj)^ 0. Aldehyd (C^ H^ 0) readily acts as an 
 anaesthetic, but is somewhat uncertain and irritant. Chloral 
 hydrate (C^ H Clg O, H^ 0), at ordinary temperatures being a 
 solid, cannot be inhaled ; large doses, when swallowed, produce, 
 however, anaesthesia, but only ia conjunction with deadly 
 narcosis. Croton-chloral hydrate (C^ Hg Clg 0, H^ 0), a crys- 
 taUine soM, resembling chloral hydrate ia odour and taste, is a 
 curious illustration of a partial anaesthetic; in fuU doses it 
 paralyses the cerebral functions and those of the fifth nerve, 
 but does not, lite diloroform or ether, remove general sensi- 
 bility. 
 
 Amyl hydride, or hydramel (Cj H^j H), a derivative- of 
 amylic or potato spirit (C^ Hi^ 0), is obtained from! Ameri- 
 can petroleum, has the specific gravity -625, boUs at 86° 
 Fahr., and has been used as an anaesthetic by Dr. B. W. 
 Eichardson. Pigeons, rabbits, and Guinea pigs, placed in an 
 atmosphere of 35 to 40 per cent of amyl hydride, are rendered 
 
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84 ACTION OF MEDICINES 
 
 inseDsible in less than one minute, are deeply narcotised in two 
 minutes, but the effects pass away with about the same rapidity 
 as they are produced. Slight muscular movements precede the 
 calm sleep ; scarcely any appreciable reduction occurs in the 
 animal temperature until continued inhalation is pushed nearly 
 to a fatal issue, when the temperature suddenly falls from l-|-° 
 to 2°, the pupils dilate, and presently heart and lungs cease to 
 act nearly simultaneously. The heart is fully charged with 
 blood, which on the right side is darker than usual ; but coagu- 
 lation is not interfered with, the corpuscles show no change, 
 the lungs are not congested, the voluntary and semi-involuntary 
 muscles long retain their irritability. In human patients amyl 
 hydride has been used in dentistry and other short operations. 
 For similar purposes Dr. B. W. Eichardson has also recommended 
 (Medical Times and Gazette for 1871) a mixture of amyl 
 hydride with methyl bichloride ; and more recently a i^iixture 
 of equal parts of amyl hydride and ether, the product being 
 slower and more persistent in its effects than the hydride alone, 
 • and adapted either for general or local ansesthesia. Amyl nitrite 
 (Cj Hji NOj) requires to be used with especial caution. It 
 appears to paralyse the sympathetic nervous system, and in 
 larger amount to increase arterial tension and throbbing of the 
 heart and arteries. 
 
 Ethylene, or defiant gas (Cg HJ, is a powerful, but not 
 very safe, ansesthetic. Conjoined with marsh gas and carbonic 
 oxide, it is present in coal gas, which was twenty years ago 
 used by the late Mr. Barlow and myself at the Edinburgh 
 Veterinary CoUege for horses, cattle, and dogs ; was found to 
 act almost as effectually as chloroform, but to leave considerable 
 nausea and depression. More safe and manageable than the 
 coal gas, and not far behind chloroform and ether in general 
 utility as an ansesthetic for veterinary patients, is coal naphtha, 
 the repeatedly rectified distillate of coal tar, sometimes sold as 
 Tennant's Ansesthetic Liquid. Benzine (C^ Hg), another of the 
 light hydrocarbons derived from coal tar or American petro- 
 leum, is also anaesthetic, and is generally used by entomologists 
 to narcotise their specimens. The oily, fragrant Dutch liquid, 
 or ethylene dichloride (Cg H^ C\), although favourably regarded 
 by Mr. Nunneley, was pronounced nauseating and dangerous by 
 the late Sir James Y. Simpson and Dr. Snow. Amylene 
 
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VARIOUSLY MODIFIED. 85 
 
 (^B Hio), another of the olefinea, a volatile diffusible liquid, wsls 
 highly recommended hy the late Dr. Snow ; hut it has a dis- 
 agreeable odour, and a marked tendency to paralyse the heart. 
 Nitrous oxide, or laughing gas (N^ 0), is successfully used for 
 the brief minor operations of human surgery. It is free from 
 unpleasant smell and taste ; it resembles oxygen in its effects, 
 disturbs the proper proportion of gases in the blood, after two 
 or three minutes of excitement produces unconsciousness and 
 stagnation of blood, especially in the pulmonary capillaries. 
 The inconvenient gaseous form, the complicated apparatus re- 
 quired for its administration, and its cost> iaterfere, however, 
 with its use in veterinary practice. 
 
 IV. THE CIECUMSTANCES WHICH MODII^ THE ACTIONS OF 
 
 MEDICINES. 
 
 The actions of medicines are modified both in. nature and 
 degree by many circumstances ; as by the quantity, quality, and 
 form of administration of the medicine itself ; by the species 
 and age of the patient, and by the channel by which he receives 
 the medicine. To some of these modifying conditions brief 
 notice is now given. 
 
 Quantity. — ^Variations in the quantity of the medicine, or, 
 as it 'is technically called, the dose, evidently alter the degree, 
 and occasionally, also, the kind of action. Small doses of tur- 
 pentine cause diuresis ; somewhat larger doses have a general 
 stimulant effect, and act chiefly on the bowels. Small doses 
 of most potassium, sodium, and magnesium salts, are alterative 
 and diuretic, whilst larger quantities are purgative. Aloes, m 
 small quantity, is tonic, and in krge, purgative. Alcohol and 
 opium afford striking examples of medicines in which a varia- 
 tion in dose produces a difference in the effect. With topical 
 remedies, an increase of the time during which the medicine is 
 applied is generally equivalent to an increase of dose, as illus" 
 trated in the case of mustard, cantharides, and nitric acid. 
 Absorption and retentiion in the body are usually ensured by 
 small and repeated, doses. Larger doses of most remedies, 
 unable to be retained in the blood, are generally more rapidly 
 excreted, the less soluble by the bowels, the more soluble by the 
 skin or kidneys, some of the gaseous by the lungs. Where 
 
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86 ACTION OJF MEDICINES 
 
 uniform and continued effects are required, as witli most restor- 
 atives, tonics, stimulants, and sedatives, small doses, repeated at 
 inte]?vals of one or two hours, are greatly preferable to larger 
 doses given at longer intervals. That the effects of medicines 
 begin and terminate with their administration may be regarded 
 as a general rule, subject, however, to occasional exceptions. Salts 
 of lead and mercury, for example, are often given for some time 
 without any obvious result, but afterwards produce their effects 
 suddenly and violently, as if from the combined or accumulated 
 action of a series of doses, and frequently continue to act for 
 some time after the administration of the remedy has ceased. 
 Medicines exhibiting these phenomena are said to be cumulative. 
 
 Quality. — The quality of medicines must obviously affect 
 their actions. Drugs that are impure, adulterated, or badly 
 kept, cannot have such certain and powerful effects as those 
 which are pure, carefully prepared, and well preserved. To 
 protect medical men and the public against the falsification of 
 medicines, the British Pharmacopoeia has introduced a series of 
 tests, by which the purity of all the simple substances in the 
 Materia Medica may be ascertained. 
 
 Form of Administfation. — The form in which a, medicine 
 is used often modifies its effects. Thus a state of fine division, 
 by facilitating absorption, materially hastens and increases the 
 action of medicines, which consequently present a variable and 
 decreasing activity, according as they are given in the gaseous, 
 fluid, or soM forms. Chemical combination alters aUke the 
 physical, chemical, and physiological properties of medicines. 
 One of the most striking instances of change in chemical con- 
 stitution, determining change also in physiological action, has 
 been discovered and investigated by Professor Crum Brown an^ 
 Professor Thomas E. Fraser. The nitrile bases — strychnine, 
 brucine, thebaine, and morphine — which excite muscular spasm, 
 particularly violent in the case of strychnine, when united with 
 methyl iodide, are converted into ammonium bases, and instead 
 of exciters become paralysers of the spinal motor nerves. The 
 several salts of the same base, as of iron, copper, morphine, or 
 quinine, usually exhibit a strong family Kkeness, their variations 
 in activity mainly corresponding with their solubility. To 
 secure rapidity and certainty of effect, preference should usually 
 be given to preparations which are readily soluble. Substances 
 
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ON DIFFERENT ANIMALS. 87 
 
 wluch are incompatible, or react chemically on eacli other, 
 should not be nsed together. Prescriptions should ■ invariably 
 be as brief and simple as possible. 
 
 Most vegetable substances are liable to be modified by soil, 
 climate, and cultivation. Mediciaal plants are usually most 
 active when indigenous ; but to this rule the opium-poppy, 
 liquorice, and tobacco are notable exceptions. Wild are some- 
 times superior to cultivated specimens, and should generally be 
 preferred until the other be proved of equal efficacy. Selection 
 should be made of vigorous, well-formed, dark-coloured, but not 
 excessively luxuriant, plants, growiag on dry soils, and exposed 
 to air, light, and sunsMne, except in the case of plants which 
 naturally seek situations of an opposite kind. 
 
 Species of Patient. — The several classes of veterinary patients 
 are differently affected by many mediciaes. The differences, 
 however, are chiefly in degree rather than in kind, and depend 
 upon differences in organisation and function. On the circula- 
 tory, respiratory, and urinary systems, which nearly resemble 
 each other ia man and the lower animals, medicines act toler- 
 ably uniformly. Thus aconite, digitalis, and nitre, produce 
 very similar effects ia men, horses, dogs, and cattle. Great 
 diversity, however, occurs in regard to medicines acting on the 
 nervous, digestive, and cutaneous systems, which differ con- 
 siderably in the several species of animals. The more highly 
 any organ or system of organs is developed, the more susceptible 
 does it become to the action of medicines, and, it may be added, 
 to diseases also. This general law explaias why the highly 
 developed human brain is specially susceptible to the effects of 
 such cerebral medicines as opium and chloral, and why frogs, 
 whose spiaal system is developed at the expense of their braia, 
 are so susceptible to strychnine, which acts specially on the 
 cord. The human cerebrum, the seat of intelligence, is more 
 than seven times the weight of the mesocephalon and cerebellum. 
 In the domestic animals the cerebrum is about five times 
 the weight of the posterior parts, which regulate motor energy ; 
 whilst the cord is relatively larger than in man. This 
 relative development explains how such mediciaes as opium, 
 chloroform, and chloral, cause ia man blunted intellectual 
 function and deep stupoj, whilst in the lower animals they 
 produce deranged motor function and convulsions. 
 
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88 ACTION OF MEDICINES 
 
 In the horse, aitiiougli the stomach is small, the intestines 
 are capacious, highly vascular, and ahundantly supplied with 
 nerves — provisions which, while they ensure the thorough 
 absorption of nutriment from bulky and comparatively ia- 
 nutritious food, render the animal peculiarly liable to super- 
 purgation and inflammation of the bowels. Here again is an 
 illustration of the general rule that the perfection and develop- 
 ment of any organ render it more susceptible to those mediciaes 
 which specially act upon it. Vegetable purgatives, notably 
 aloes, appear more suitable than mineral purgatives, and act 
 chiefly on the large intestiaes, and only slightly on the stomach 
 and small intestiaes. Except in disease, and under the in- 
 fluence of aconite, horses never vomit. Tartar emetic, of which 
 a few grains cause immediate emesis in dogs, has scarcely any 
 physiological effect either ui horses or cattle. Vomition ia 
 horses is prevented by the smallness of the stomach ; by its 
 distance from the diaphragm and abdominal muscles, and the 
 consequent difficulty of its compression; by the stout band of 
 muscular fibres which surrounds its oesophageal opening ; 
 according to some authorities, by the in.aptitude of the vagus 
 nerve to receive and convey the special irritation ; but more 
 probably from the absence or imperfect development of the 
 vomiting centre (p. 43). Most substances which act as emetics 
 for men and dogs are supposed to produce sedative effects when 
 given to horses in sufficient doses; but the many sedatives 
 available in human and canine practice operate uncertainly and 
 imperfectly in horses, for which aconite is the chief reliable 
 sedative medicine. Sudorifics are less active and useful than 
 in man,. and are apt to act on the kidneys, unless the animal be 
 wen clothed. 
 
 The peculiarities of the action of medicines in cattle are 
 chiefly referable to the construction of their alimentary canal, 
 and to their phlegmatic temperaments. In these rumiaants 
 the stomach is quadrisected, is extensively lined with cuticular 
 mucous membrane, and, as regards its first three divisions, is 
 less vascular and more mechanical in its action than in men, 
 dogs, or horses. The first and third compartments of the 
 stomach always contain food, often ia large quantity. These 
 facts help to es^jlain why cattle require such large doses of all 
 mediciaes, why considerable quantities of irritant and corrosive 
 
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ON CATTLE, SHEEP, AND DOGS. 89 
 
 poisons can be given them with comparative impunity, and 
 why purgatives, unless in large doses and in solution, are so 
 tardy and uncertain in their effects. The kidneys and skin of 
 cattle are less easily acted on than the corresponding organs in 
 horses ; and their duU and phlegmatic disposition resists the 
 action bofh of stimulants and tonics. It is a very prevalent 
 notion that medicines, when poured very slowly down a cow's 
 throat, pass, like the ruminated food, direct to the fourth 
 stomach. From a number of observations made at the slaughter- 
 houses on both cattle and sheep, I find, however, that neither 
 animal can be iaduced to exert this voluntary effort in behalf 
 of our medicines, whicll in all cases, no matter how slowly so- 
 ever they be given, fall into the first and second stomachs, 
 whence they shortly pass onwards through the third and fourth 
 stomachs, especially if given, as they always ought to be, with 
 a large quantity of fluid. Sheep closely resemble cattle in the 
 way in which they are affected by most medicines ; they usually 
 require about one-fourth of the dose suitable for cattle; and 
 are best drenched by being backed into a comer, and the head 
 steadied between the operator's knees, whilst the medicine is 
 cautiously poured over. 
 
 Medicines generally operate on dogs much in the same way 
 as on man ; but to this rule there are some remarkable excep- 
 tions. Dogs, for instance, take six or eight times the dose of 
 aloes usually given to the human subject, but are seriously in- 
 jured by half as much calomel or oil of turpentine as is pre- 
 scribed for a man. The opinion generally held, that medicines 
 may be given to dogs in the same doses as to men, cannot 
 therefore be safely entertained without a good many reserva- 
 tions. In dogs the alimentary canal is short and straight ; and 
 purgatives consequently act with greater rapidity than in any 
 other veterinary patients. Another peculiarity is the facility 
 with which they can be made to vomit. Indeed, vomition m 
 dogs is often naturally produced by their eating various grasses, 
 by their swallowing nauseous or unpalatable matters, or by 
 their overloading the stomach. To prevent dogs vomiting their 
 mediciae, it is well to keep the head raised for an hour after 
 its administration ; and this may be easily effected by attaching 
 a chain or cord to the collar, and fixing it to any object at the 
 requisite elevation. The kidneys are excited with more diffi- 
 
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9 ACTION OF MEDICINES 
 
 culty than in horses or cattle, and diaphoresis can scarcely he 
 said to occur at all — the skin not being adapted for cutaneous 
 transpiration. On pigs the effects of mediciaes are somewhat 
 similar to their action on men and dogs. 
 
 Age and Size. — The properties of medicines are modified, 
 especially in degree, by the age of the animal. As a general 
 rule, the younger the animal the more easily is it affected. 
 Tables have been constructed showing the doses suitable for 
 animals of different ages. Thus Bouigel&.t estimates that a 
 one-year-old colt requires one-third of the quantity of any 
 medicine given to an adult horse; a two-year-old, .one-half ; 
 and a three-year-old, two-thirds. A similar ratio is applicable 
 to cattle. Such calculations are, however, merely approxima- 
 tive. The size of the patient obviously affects the action of all 
 remedies, but the regulation of this modifying circumstance 
 must be left to the judgment of the practitioner. In this work 
 the doses mentioned under the head of each substance, unless 
 otherwise stated, are those suitable for adult animals of 
 medium size. 
 
 Mode of JExhibition. — The channel by which medicines enter 
 the body frequently modifies the degree of their action, for 
 different organs and tissues vary much in their powers both of 
 absorption and decomposition. Medicines are readily absorbed 
 from the mucous and serous surfaces, from the areolar tissues, 
 and from wounds. They are also sometimes injected into the 
 veins, when they act with remarkable rapidity and effect; but 
 this method of exhibition is attended with too much trouble 
 and risk to be of much practical utility. When given by the 
 mouth most medicines are taken up from the surfaces of the 
 stomach and duodenum — ^which afford great facOities for speedy 
 and complete absorption, and have, moreover, intimate nervous 
 connection with all the important organs of the body. To 
 secure medicines being promptly absorbed without undesirable 
 change, they should generally be introduced into the stomach 
 whilst it contains the minimum of food. Many restoratives, 
 tonics, and alteratives, as well as irritants, such as iodine, pro- 
 bably however act best when given with food or immediately 
 after eating. The surface of the rectum is less sensitive and 
 vascular than that of the stomach, and there is no gastric fluid 
 to aid the solution of insoluble medicines, which hence act less 
 
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SUBCUTANEOUSLY INJECTED. 91 
 
 promptly and powerfully than when swallowed. Medicines 
 capaMe of ready absorption, such as solutions of most saline 
 matters, of strychniae, quinine, or opium, act, however, as 
 promptly and freely when given by the rectum as by the 
 mouth. The pulmonary mucous membrane has a superficies 
 stated to be fifty times the extent of the skin surfaces, is very 
 actively-absorbent, and is well adapted for conveying mediciaes 
 into the system. This method of admiaistration, now in 
 familiar use with such substances as chloroform and ether, 
 might probably be advantageously extended to many active 
 non-volatile mediciaes, which could be iatroduced into the 
 lungs along with the v&pour of water or of other fiuids. Medi- 
 cines thus iatroduced into the body, being speedily brought 
 in a finely divided state into immediate contact with the blood, 
 act with great rapidity and certainty. In most animals the 
 skin is capable of absorbing many mediciaal substances. Solu- 
 tions of opium, tobacco, carbolic acid, and corrosive sublimate, 
 ignorantly or carelessly applied for the cure of skin diseases, 
 frequently become absorbed, and develop their poisonous action. 
 Absorption is, however, greatly facOitated by removing the 
 cuticle, by means of a small blister, and then applying the 
 medicine directly to the true skin. This constitutes the 
 endermic method of exhibition. Quinine, strychnine, morphine, 
 and the other concentrated mediciaes, when so used, operate 
 with great certainty, and in doses considerably less than those 
 usually swallowed. 
 
 Subcutaneous injection of concentrated medicines has now, 
 however, superseded the endermic method, has been successfully 
 used in all the domestic animals by Mr. Frederick Mavor of 
 Park Street, Mr. Thomas Dollar of New Bond Street, London, 
 Mr. Fearnley of Leeds, and other veteriaarians, ensures the 
 medicine being brought very near to the affected part, and, on 
 account of its rapidity, certainty, and directness of effect, well 
 deserves more general adoption. It proves especially useful in 
 arrestiag or controlling the spasms of colic aad chronic cough, 
 the sharp twinges of rheumatism, iaflammatory pain, such as 
 that of enteritis and pleurisy, as well as the effects of poisons. 
 Where pain is to be counteracted, the injection is made near 
 the affected spot, or over the nerve which is supposed to be 
 conveying the disordered impression. With active agents it is 
 
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92 ACTION OF MEDICINES 
 
 unwise, without careful trial, subcutaneoUsly to inject more 
 than one-fourth of the dose which would be given by the 
 mouth. The drug is best dissolved ia water, or other perfectly 
 bland fluid ; half an ounce to an ounce of solution is sufficient 
 for one injection for horses or cattle, and proportionately smaller 
 amounts for sheep and dogs; there is less risk than in the 
 human subject of untoward effects. The operation is of the 
 simplest description. A fold of loose sMn is taken up between 
 the finger and thumb of the left hand ; a suitable syringe is 
 quietly inserted with the right hand ; the point is carried about 
 an inch underneath the skin,' parallel with the surface ; it is 
 slowly emptied ; held for half a minute ; cautiously withdrawn ; 
 and the finger pressed for a minute on its track. The minute 
 puncture requires no plaster or dressing. A ready, but some- 
 what uncertain, substitute for hypodermic injection, consists in 
 coating a thread with a strong solution of the active principle 
 to be introduced, and drawing this medicated seton through the, 
 skin. 
 
 Mabit-^The continued use of a medicine sometimes alters 
 the degree of its action. Caustics and irritants, which exercise 
 only a topical action, exhibit, on their repeated application, 
 gradually increasing activity. But many medicines, when con- 
 tinuously administered, have their ordinary power considerably 
 diminished. Thus arsenic-eaters sometimes use with perfect 
 impunity twelve or fifteen grains of arsenic daily, — a quantity 
 sufficient to poison three or four persons unaccustomed to the 
 poison. A like tolerance is observable amongst horses which 
 have been accustomed to receive arsenic. Opium, and most 
 general stimulants, when administered for some time, gradually 
 lose their effects. Virginian deer, from habit, are said to thrive 
 on tobacco ; some monkeys, feeding on strychnine-containing , 
 nuts, are stated to become insusceptible to strychnine (Wood). 
 
 Idiosyncrasies, which in the hutnan subject render some 
 poisons almost innocuous, and some simple medicines deadly 
 poisons, are much less frequent and notable among the lower 
 animals. Those of most frequent occurrence among veterinary 
 patients are either an increased or a diminished susceptibility 
 to the action of purgatives and diuretics. Most medicines act 
 with greater certainty and effect upon well-bred animals, whether 
 amongst horses or dogs, thaii upon coarsely-bred mongrels. 
 
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MODIFIED m DISEASE. 93 
 
 Diseases. — The existence of disease modifies the action of 
 many medicines. A congested or inflammatory condition of the 
 alimentary canal retards absorption, and the consequent activity 
 of medicines given in the usual way by the mouth. Acute 
 fever, on account of increased arterial pressure, is also unfavour- 
 able to absorption. "When excretion is hindered, medicines are 
 usually retained longer ia the system, and hence act more power- 
 fully. Conversely, when excretion is active, as in diuresis, 
 diabetes, or diarrhoea, many medicines, such as opium, bella- 
 donna, and alcohol, being rapidly got rid of, do not manifest 
 their full activity. An organ in a state of disease probably does 
 not act on most medicines in the same way as it does ia health. 
 , It has been shown, for example, that certain morbid states of 
 the liver prevent the usual transformation of benzoin into 
 hippuric acid (Eoyles' Materia Medica, 6th edition). Influenza, 
 low fevers, and most extensive inflammations of mucous or 
 cutaneous surfaces, withstand reducing remedies badly, and 
 recLuire for their successful treatment the early exhibition of 
 restoratives, tonics, and stimulants. Blood-letting and full doses 
 of sedative medicines induce less depression in acute inflamma- 
 tion than in health; large quantities of opium and chloral 
 hydraite have comparatively slight effect in tetanus, hydrophobia, 
 or enteritis; while excessive doses, both of purgatives and stimu- 
 lants, are tolerated in the apoplectic form of puerperal fever 
 among cattle, and in other cases in which there is depression of 
 nervous force. 
 
 External Circumstances. — The circumstances in which 
 patients are placed have often a material influence in altering 
 the action of remedies. Diseases, whether in horses, cattle, or 
 dogs, when occurring in large towns, and in filthy, overcrowded, 
 and badly-ventilated premises, are notoriously liable to assume 
 chronic, typhoid, and untoward forms, and are apt to defy the 
 most sldlfuUy devised curative measures. Medicines can only 
 act effectually when seconded by proper sanitary arrangements. 
 Frequently a horse with influenza, typhoid fever, or pneumonia, 
 is thrown back for days by being senselessly stripped and taken 
 out of his box in cold weather ; bulky indigestible food, even 
 for one meal, or in very moderate amount, often retards recovery 
 from irritabOity of the digestive organs, and indeed from most 
 debilitating diseases; constipation and torpidity of the bowels 
 
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94 ACTION OF MEDICINES. 
 
 interfere with the absorption and satisfactory operation of all 
 medicines ; exposure to cold ■will seriously injure patients which 
 have received fuU aperient doses of salts or of turpentine, or 
 which have been freely dressed with mercurial ointment ; foul 
 air and disordered digestion prevent the healing even of simple 
 woimds. On the other hand, gentle exercise encourages the 
 action of most eliminatives; quiet favours the effects of soothing 
 remedies ; generous diet seconds powerfully the benefits of 
 restoratives, tonics, and stimulants. One other illustration of 
 the influence of surroundings on the action of remedies • must 
 suf&ce. Inflammatory disorders usually bear more prompt and 
 actively depleting treatment in winter than in summer ; in the 
 country than in the town ; in well-bred animals in good condi- 
 tion, rather than in rougher subjects which have been indiffer- 
 ently nourished. 
 
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PHARMACEUTIC PEBPARATIONS. 95 
 
 SECTION, II. 
 
 ON VETERINARY PHARMACY. 
 
 In the present section I shall briefly notice the more important 
 pharmaceutical compounds used in veterinary practice, as 
 powders, boluses, tinctures, extracts, etc., advertiag chiefly to 
 the best methods of making, preserving, and administering 
 them. To these general observations are appended tables of 
 the Pharmacopoeia and metric weights and measures. 
 
 POWDERS. 
 
 Most medicines may be coarsely powdered in a common 
 hand-mUl such as that in ordinary use for grinding cofi'ee or 
 pepper, or in an iron mortar (which should be fixed into a block 
 of wood), with a large, heavy, iron pestle, which ought to be 
 suspended from one end of a flexible rod running along the roof, 
 and fixed into the opposite wall. Preparatory to further reduc- 
 tion, many roots and barks are pounded or cut. To effect 
 minuter subdivision, small quantities of the coarse powder are 
 reduced in hand mdrtars, which are conveniently kept of wood, 
 marble, or Wedgwood ware, the latter beiag cheap, easily cleaned, 
 and little affected by acids. "When a fine state of division is 
 required, the powder is sometimes put through a sieve of wire- 
 gauze or horse-hair. Tor light pungent or irritant powders, 
 compound sieves, closed in with a lid both above and below, are 
 used. Instead of being got by tedious trituration, some powders, 
 like calomel and flowers of sulphur; are conveniently obtained 
 by sublimation ; others, like magnesium carbonate, or mercury 
 red oxide, by precipitation; other iasoluble substances, like 
 prepared chalk, by stirring in water, allowing the coarser par- 
 ticles to settle, and pouring ■ off the solution, from which the 
 finely-divided powder is gradually deposited and dried. Medi- 
 cines, especially of the more expensive descriptions, if possible, 
 
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96 ACTION OF MEDICINES. 
 
 should not te purchased in powder; for adulterations or 
 impurities are then difEicult of detection; Medicine is occasion- 
 ally administered in the state of powder scattered over, or 
 mixed with, the food ; but this method of administration is 
 only admissible in the case of very simple and tasteless reme- 
 dies, and should not be relied on where a decided or speedy 
 effect is desired. 
 
 BALLS ^BOLUSES. 
 
 Balls correspond in veterinary practice with the pills used 
 in human medicine. They are of cyliadrical form, and besides 
 the active ingredients, .usually contain certain subordinate con- 
 stituents, termed excvpients, added to give cohesion and consist- 
 ence. The most common excipients are linseed meal and 
 water, oil, lard, soap, liquorice powder, treacle, syrup, glycerin, 
 and conserve of roses, the choice being determined by the nature 
 of the active ingredients. The four excipients first mentioned 
 are chiefly used when the bolus or mass is intended for imme- 
 diate use ; when it is to be kept for any considerable time, 
 some of the others are more suitable. , To keep a mass soft and 
 moist, it is often advisable to add to it a small quantity of 
 some deliquescent alkaline salt, as potassium acetate, which 
 serves especially -w&ll. for most diuretic masses. "When the 
 active principles are resinous, a little alcohol or oil of turpen- 
 tine is a useful addition, as, for example, in making the aloetic 
 mass. In preparing a ball mass, the various ingredients are 
 sometimes mixed together in a mortar or on a slab ; but when 
 the materials are waxy or resinous the aid of heat is usually 
 necessary. A good ball mass is often troublesome to make ; 
 for it must be soft, and yet possessed of a proper consistence 
 and cohesion, must retain these properties although kept for a 
 considerable time, and must further be prepared so that each dose 
 shall make a proper sized ball. It should be preserved in jars 
 covered with moistened bladder and stout paper, and be made 
 into doses only as required : for when balls are long kept they 
 are apt to get hard, and in this state act tardily and uncertainly, 
 sometimes passing unchanged through the. whole extent of the 
 alimentary canal. For cleanliness and facUity of administra- 
 tion, balls are given either rolled up in soft- paper, or elegantly 
 and conveniently covered with a coating of gelatin. For 
 
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DKENCHES — DRINKS. 97 
 
 horses they are the most common and handy method of ad- 
 ministration ; for dogs they are also often used. The bolus is 
 given to horses either with the balling iron or with the fingers; 
 and the latter method is preferable, except in animals with 
 very small, narrow mouths, or in which the mouth cannot be 
 sufficiently opened. The operation, with a little practice and 
 dexterity, is easily performed. The ball is held by one end 
 between the thumb (which supports it below) and fingers of 
 the right hand, which is drawn together and rounded as much 
 as possible. The patient's tongue is gently drawn out a little 
 way by the left hand,^ and the ball passed rapidly along the 
 roof of the mouth, and dropped on the back of the tongue, 
 which is alt once let loose, the mouth closed, and the head for 
 a couple of minutes kept slightly elevated. 
 
 DEATJGHTS DRENCHES ^DEINKS. 
 
 Drenches are generally extempore preparations used in a 
 single dose. Bulky substances which cannot be condensed 
 into a bolus are necessarily given in draught. They are pre- 
 scribed for horses and dogs, especially when a speedy effect is 
 desired, as in colic ; and are almost the only form in which 
 physic is given to cattle or sheep. In these rirniiuants, medi- 
 cines in the solid state get mixed with the immense bulk of 
 food always found in the rumen, remain unabsorbed often for a 
 long time, and thus act tardily and imperfectly. Medicine in 
 a liquid form, however, comes immediately into intimate con- 
 tact with a large absorbing surface of mucous membrane, and 
 passes on more speedily towards the second and fourth stomachs. 
 In preparing drenches, care must be taken that the different 
 ingredients are not incompatible, decomposing or injuriously 
 reacting on each other ; and further, that their quantity be not 
 too great, as the trouble of administration may thereby be 
 unnecessarily increased. For dogs, from two to sis ounces, 
 according to the size of the animal, is an average amount ; for 
 horses, one or two pints; for sheep, from six to eight ounces; 
 but for cattle it is not so necessary to limit the proportion of 
 fluid. In giving the medicine the head should be slightly 
 raised, which in horses may be conveniently done with the aid 
 of a twitch, the noose of which is placed over the animal's 
 
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98 VETERINAEY PHARMACY. 
 
 upper jaw within the incisor teeth, and the stick held hy an 
 assistant, standing on the left side of the patient. In cattle, 
 the head should also be steadied by an assistant who holds 
 either the horns or ears; and in dogs, the jaws may be 
 kept sufficiently apart by an assistant placing a loop of stout 
 tape or string, or a towel folded repeatedly, over each jaw, and 
 gently separating them, when the medicine is readily poured 
 over. Small dogs are most conveniently dosed when placed on 
 their hind quarters on a table or bench; but larger dogs should 
 be backed into a corner, and their head held between the 
 operator's knees. Cats get their physic without doing damage 
 with their claws if dropped into a capacious top boot, the head 
 being left out, and the jaws held apart with a couple of pieces 
 of tape. In aU. animals, the nostrils must be left unobstructed, 
 and the tongue loose, or only gently held down, so as to prevent 
 its interfering with the medicine passing from the bottle. 
 Glass bottles are fragile, and, when they break, waste the medi- 
 cine, and may besides injure the mouth of the patient or the 
 hands of the operator. Veterinarians, and even agriculturists, 
 should therefore have a few stout tin bottles of two sizes, 
 capable of holding a pint and a quart, made either round or 
 flat — the latter the more convenient for the pocket — and 
 closed by a screw at the nozzle. The old-fashioned horn 
 requires practice to use it without spiUing its contents, and is 
 now generally superseded by the metallic bottle. Drenches 
 ought always to be thoroughly mixed and well shaken before 
 being given, so as to prevent ammonia, turpentine, or other 
 light constituents floating to the surface, or any heavy partially 
 dissolved substance remaining at the bottom. They should be 
 carefully and slowly given ; and if coughing occurs, the opera- 
 tion should be stopped, and the animal set free for a few 
 minutes. 
 
 INFUSIONS. 
 
 Infusions are solutions of vegetable substances prepared 
 by digesting the drug in water. Nearly all the twenty-eight 
 officinal infusions are made by pouring boUing water on the 
 powdered or cut drug, usually in the proportion of one part to 
 twenty of water. The process is generally conducted in stone- 
 ware jars or jugs, provided with a cup having perforated sides 
 
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. TINCTUEES — ESSENCES. (99. 
 
 and 'bottom, fitting into the top of the jug, extending about 
 half-way down, and containing the solid matters to be infused. 
 Digestion is effected on a stove, is continued for half an hour 
 or an hour ; boiling is avoided. The infusion when cool' is 
 generally strained, but for veterinary purposes and for imme- 
 diate use decanting is often sufficient. Unless carefully bottled 
 and corked whilst hot infusions soon spoil, especially in hot 
 weather. Their keeping properties are sometimes improved 
 by concentration, by evaporation, or by addition of alcohol,^^' 
 Examples — Infusion of catechu, gentian, aloes, etc. 
 
 DECOCTIONS. 
 
 Decoctions are solutions of vegetable substances prepared 
 by boiling the drug in water. To ensure perfect solution, the 
 medicine is bruised or cut into small pieces, and occasionally 
 digested in the fluid for some time. The process is conducted in 
 glass or earthenware vessels, and boiling prolonged beyond twenty 
 minutes is carefully guarded against. Any insoluble residue 
 is subsequently separated by filtering through bibulous or un- 
 sized paper, straining through muslin or calico, or allowing 
 time to settle,' and then pouring off the supernatant fluid. 
 Decoctions when intended to be kept beyond a week or two 
 should have a little spirit added to them, and be bottled and 
 well corked while hot. Without these precautions, they are- 
 apt to ferment, or otherwise become spoilt. The British Phar- 
 macopoeia gives directions for making decoctions of aloes, poppies, 
 oak bark, and ten others less used by veterinarians. 
 
 TINCTURES SPIRITS ESSENCES ^WINES. 
 
 Tinctures are solutions usually of vegetable matters, occa- 
 sionally of animal or mineral substances, in rectified spirit, more 
 frequently in proof or pyroxylic spirit, and occasionally in ether. 
 More than half of the sixty-eight tinctures of the British Phar- 
 macopoeia are made with 'one part of the drug to eight of spirit. 
 They are prepared without heat by simple solution, by macera- 
 tion, or by displacement, or sometimes by a combination of 
 several of these processes. The materials, first reduced by 
 cutting or bruising, are placed with the spirit in a suitable 
 
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100 VETEEINAEY PHABMACY. 
 
 vessel, and usually remain from two to seven days ; the solution 
 is poured off; the residue pressed; and the tincture, when 
 filtered, is ready for use. Sometimes the materials, in a state 
 of moderately fine division, are packed in a percolator or 
 cylindrical vessel of glass, earthenware, or metal; the spirit 
 passes gradually through them, displaces and dissolves out their 
 soluble parts, filters through the linen or calico at the lower 
 part of the cylinder, and passes off by the stop-cock, which 
 should be attached to the apparatus. Some tinctures are made 
 by marcerating the materials in water for a couple of days, 
 obtaining the remaining active principles by percolation with 
 spirit, and mixing the two solutions. Tinctures are clear, of a 
 yeUow red or brown colour, and are well adapted for keeping. 
 An endeavour has been made by the revisers of the British 
 Pharmacopoeia to have all tinctures of such uniform strength 
 that one drachm should be the average dose for an adult human 
 patient. Much trouble and risk of accident would be avoided 
 if this uniformity of strength could be carried out. Medicated 
 spirits are solutions of definite volatile principles in alcohol, 
 and are represented by spiritus setheris, camphoree, and chloro- 
 formi. Essences are concentrated tinctures or spirits. Medi- 
 cated wines, such as vinum ' antimoniale, or ipecacuanhse, made 
 with sherry or orange wiae, are merely weak tinctures, 
 
 EXTRACTS. 
 
 Extracts are the soft, semi-soM residues left by evaporating 
 the natural expressed juices of plants, or decoctions, infusion^, 
 or tinctures, containing their active principles. The best solvent 
 for making the solution from which the extract is subsequently 
 prepared is that which removes the active principles without 
 acting on starch, gum, or other matters, which not only uselessly 
 increase the bulk of the preparation, but also render it apt to 
 spon. To avoid the high temperature so liable to decompose 
 or volatilise the active principles, especially of narcotic plants, 
 fluid matters are first got rid of by evaporation in vacuo, and 
 the residue is transferred to flat shallow pans, in which it is 
 exposed to currents of air at ordinary temperatures, and con- 
 tinually stirred until the desired consistence is reached. Well- 
 made extracts keep for a considerable time without change. 
 
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MIXTURES— SYRTTPS. 101 
 
 especially in a cool, dry place, and ^ if occasionally moistened 
 with rectified spirit ; but when twelve months old, they should 
 be regarded with suspicion. Of the thirty-six of&cinal extracts 
 veterinarians chiefly use extracts of belladoniia, hemlock, digitalis, 
 and Indian hemp. The succi or expressed juices of belladonna, 
 hemlock, henbane, and five other plants, are enumerated in 
 the British Pharmacopoeia, and are preserved by addition ot 
 one-third of their bulk of rectified spirit. 
 
 LIQUORES. 
 
 Thirty-nine liquors appear in the British Pharmacopoeia, 
 nearly all being solutions of inorganic bodies or of alkaloids. The 
 seven containing the poisons, arsenic, atropine, morphine, and 
 strychine, contain four grains of the active principle to the fluid 
 ounce. Examples of such preparations in common use are 
 liquor anmionise acetatis, or Mindererus spirit, liquor arsenicalis, 
 or Fowler's solution ; liquor ferri perchloride ; liquor potassse. 
 No general rules can be laid down for their preparation ; their 
 properties are very, variable ; but those pf importance to 
 veterinarians will be noted when treating of the medicines 
 they contain. 
 
 MIXTUEBS. 
 
 Mixtures are fluids containing two or more ingredients; 
 either mechanically commingled or chemically combined. They 
 differ little from draughts or drenches, are usually prepared extem- 
 poraneously, are turbid, and deposit a sediment on standing. 
 Camphor, chalk, and catechu mixtures are examples of such 
 preparations. 
 
 SYEUPS CONFECTIONS ELECTUAEIES. 
 
 Syrups are medicated saccharine solutions, of a density 
 varying between 1-300 and 1-400. They are usually made 
 with' one pa,rt of the drug to two and a .half of refined sugar ; 
 a little spirit is sometimes added to ensure keeping. A proper 
 consistence is important : if too thin and weak, they become 
 mouldy, and are apt to ferment ; if too thick and strong, the 
 sugar crystaUises out. Simple syrup, occasionally employed in 
 
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102 VETBRINAEY PHARMACY. 
 
 veterinary practice, consists of two parts of sugar and one of water. 
 Although the British Pharmacopoeia recognises eighteen syrups, 
 veteriuarians only use syrups of buckthorn, poppies, ginger, and 
 iron-iodide. Electuaries are made of sugar or mucilage. Con- 
 fections and conserves are soft preparations, chiefly consisting of 
 sugar or treacle, and used as vehicles for administering iasoluble 
 or disagreeable-tasted drugs. 
 
 LOTIONS. 
 
 Lotions are fluid preparations intended for external use, and 
 generally made up extemporaneously. Lotions for the eye are 
 usually called collyria. 
 
 OINTMENTS UNGUENTA. 
 
 Oils, fats, and wax, constitute the basis of ointments, which 
 are of the ordinary consistence of butter, are intended for ex- 
 ternal use, and are applied with or without friction. To im- 
 prove their keeping they are now generally made with lard or 
 oil, impregnated with benzoin or other balsams. When lard 
 or oil is the excipient, the several ingredients mky be mixed 
 in a conveniently-sized mortar ; but when wax or resia is used, 
 it must be melted over a slow fire, the other constituents then 
 added, and the whole mass stirred until it has acquired a proper 
 consistence. Ointments, of which thirty-four figure in the British 
 Pharmacopoeia, should be kept in well-closed pots or jars, which 
 (except when in daily use) should be covered with moistened 
 bladder and strong paper. They are generally dispensed either 
 in little wooden boxes or in earthenware pots, both of which 
 the practitioner should have of several different sizes. In 
 dispensing these and other of&ciaal preparations, spatulse of 
 steel, bone, wood, and horn, are essential articles of the labora- 
 tory furniture. Cerates are stiff ointments containing wax. 
 Liniments, made with oil or soap, have a mediate consistence 
 between ointments and oils. 
 
 PLASTERS EMPLASTEA. 
 
 Plasters are solid adiesive substances, usually containing 
 lead oxide (litharge), with resin, wax, soap, fats, tar or pitch ; 
 
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FOMENTATIONS. 103 
 
 are conveniently kept fused in rolls, and are prepared for use by- 
 being spread on calico, linen, or leather. They are less useful 
 in veterinary than in human practice ; for, in the lower animals 
 they are apt to be displaced from the greater power of the 
 panniculus carnosus, and from the patients' rubbing or biting at 
 them. Where they are to remain on for some days or weeks, 
 the melted ingredients are applied directly to the skin, covered 
 first with a little teased tow or hnt, and then with a linen or 
 leathern bandage. Plasters of this kind are popularly known 
 as charges, and were formerly much used in all kinds of lame- 
 ness. They are beneficial from their stimulating properties ; 
 from their preventing, *when large and thick, undue motion of 
 injured parts; and from their ensuring the patient several weeks' 
 release from work. 
 
 FOMENTATIONS. 
 
 Fomentations are applied for local bathing or stupiag. 
 They often consist of water alone ; but vinegar, saline, and 
 other substances, are sometimes added. Unless otherwise 
 specified, they are applied hot. Their exact temperature, 
 undetermined by definite rules, must be modified by the nature 
 and extent of the malady, and the part of the body to which 
 they are applied. When for the eye, they may be about 100°; 
 for strains, weed, and such cases, they should be as hot as the 
 hand can bear ; while for enteritis, pleuro-pneumonia, or other 
 cases in which they are intended promptly to produce active 
 counter-irritation, they are most effectual when almost scalding 
 hot. For such cases, flannel or horse-cloths are saturated with 
 boUing water, are partially dried by a wringer or by a couple 
 of men whose hands are protected from scalding by dry coarse 
 towels, and are laid over a large extent of surface contiguous to 
 the parts affected. The hot wet woollen article should be 
 covered with some oil-skih or piece of inackintosh to retard 
 evaporation and cooling. Sometimes the pained part to be 
 soothed, or the surface sought to be stimulated, is covered with 
 several thicknesses of woollen stuffs, amongst the folds of 
 which water of the fitting temperature is poured at short inter- 
 vals. Jets of steam mixed with air to prevent their scalding, 
 and used either plain or medicated, may be substituted for the 
 ordinary stuping with water. Fomentations are generally made 
 
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104 VETERINAEY PHARMACY. 
 
 witli a sponge or soft piece of rag, tow, or liat. When there 
 are foul discharges, sponges should he interdicted, as they 
 often carry putrefactive germs ; and the piece of lint or tow 
 is thrown away as soon as done with'. 
 
 Fomentations are chiefly useful for cleansing and soothing 
 irritable wounds: for relieving external or superficial inflamma- 
 tion, with its attendant symptoms of heat, pain, and swelling ; 
 and also for reducing by reflex action internal inflammation, 
 such as that of the respiratory organs or the bowels. The 
 chief disadvantages in the ordinary use of fomentations are 
 their' being withdrawn before their heat and moisture have time 
 to do much good, and their causing subsequent rapid coohng. 
 To obtain their fuU benefits, they should be continued during 
 several hours ; fresh supplies of water, of the requisite temper- 
 ature, being had in abundance. After the operation is finished, 
 the parts should be rubbed dry, and well clothed, in order to 
 prevent the rapid diminution of temperature which otherwise 
 ensues from evaporation. Further to , prevent chilling, the 
 fomented surfaces are sometimes stimulated by a light dressing 
 of mustard. Heat applied along the spine excites the sympa- 
 thetic gangha'; a greater amount of nervous infiuence hence 
 passes to the blood-vessels of internal organs, their diameter is 
 lessened, and, according to Dr. Chapman, heat thus applied acts 
 beneficially in arresting bleeding from the nose and lungs. 
 Conversely, cold, as in the form of the ice-bag, applied along 
 the spine, lessens the amount of nervous current from the spinal 
 cord; an increased flow of blood thus follows through the 
 vessels regulated by those parts of the cord, and hence vital 
 activity is augumented. In this manner, according to Dr. 
 Chapman, may be explained the advantages of cold applied to 
 the spine in cases of diarrhoea and tetanus. 
 
 POULTICES CATAPLASMS. 
 
 Poultices are external applications of a soft and pulpy con- 
 sistence, and are usually intended to act locally. They are 
 applied either hot or cold. Hot poultices are commonly made 
 of linseed meal, bran, or oatmeal, with a sufficiency of boiling 
 water to bring them to a suitable consistence ; or of carrots or 
 turnips, either steamed or boiled. Unless nicely prepared, soft, 
 
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DRY AND MOIST HEAT. 105 
 
 fresli, and frequently changed, they merit the late Mr. Liston's 
 observation that they are associated with putrefaction and nasti- 
 ness. Heat, without the moisture, may be applied by the agency 
 of hot bricks, salt, or sand, of hot-water bags, of weU-warmed 
 rugs or flannels, or of the smoothiag iron. Hot poultices allay 
 pain and irritation, reduce circumscribed and superficial inflam- 
 mation, and promote suppuration. They directly soothe, soften, 
 and relax the surfaces with which they come in contact, and by 
 reflex action indirectly propagate these good effects to remote 
 parts. Encouraging suppuration, they are unsuitablfi for wounds 
 which, if let alone, will heal by first intention or adhesion, and 
 for cases of long-standing inflammation, where the parts have 
 become relaxed and deficient in tone. In such eases, cold 
 applications are indicated. 
 
 Cold poultices are made of the, same materials and in the 
 same way as hot poultices, and are then allowed to cool. Their 
 temperature is sometimes further reduced by pouring over them 
 vinegar and water, sour milk, solutions of equal parts of nitre 
 and sal-ammoniac, or of sal-ammoniac and common salt, or mix- 
 ' tures of ice and salt. Cold poultices are especially adapted for 
 sub-acute inflammation, particularly of joints, ligaments, tendons, 
 and feet, and other parts of comparatively low organisation. 
 They are even more useful in joint and feet diseases of cattle 
 than of horses ; and sometimes benefit cases which have previ- 
 ously been ineffectually treated by hot applications. 
 
 In veterinary practice some ingenuity and mechanical dex- 
 terity are required to get poultices properly and securely applied. 
 To keep them at a uniform temperature, hot or cold solutions are 
 poured over them every hour ; or, better still, fresh poultices are 
 supplied as the old ones become dry, altered in temperature, or 
 foul. As they are apt to sodden the skin and destroy its repara- 
 tive power, they ought not to be used longer than they are really 
 required. Unwieldy to apply, and often troublesome to regulate 
 as to temperature, they are now generally superseded by foment- 
 ations, by antiseptic dressings, by water dressings of moistened 
 and medicated lint or tow, from which evaporation is retarded 
 by a covering of oiled sOk or gutta percha cloth, or by spongio- 
 piline — a felted wool and sponge, coated on one surface with 
 gutta percha, and when soaked with hot water proving a cleanly; 
 handy substitute for a poultice. 
 
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106 VETERINARY PHARMACY. 
 
 CLYSTEES — GLYSTEES ENEMA ^ENEMATA ^INJECTIONS. 
 
 Clysters are in frequent use for all the domesticated animals 
 for evacuating the bowels, for allaying irritation of the rectum 
 and adjacent organs, when they should be tepid, of a mucilagi- 
 nous, soothing description, and used at short intervals, and for 
 introducing food and medicines when, as in sore throat, tetanus, 
 or apoplectic cases, they cannot readily be swallowed. Medi- 
 cines may usually be given by the rectum in the same doses as 
 by the mouth. Tonics, restoratives, astringents, and sedatives 
 are sometimes given by the rectum in a solid form as a supposi- 
 tory, made up with soap, lard, or starch. A cylinder of soap 
 introduced and held for a minute encourages the action of the 
 bowels in dogs and cats, and also in young foals and calves. 
 Clysters, when employed in constipation, usually consist of soap 
 and water, sonietimes with oU, turpentine, or solution of aloes, 
 and occasionally with tobacco smoke ; in diarrhcea, they princi- 
 pally consist of starch-gruel, with the addition of vegetable 
 astringents and opium. No remedies are more safe and effectual 
 for keeping the bowels in order, whether in health or disease ; 
 and their diligent use, especially in horses, often safely and 
 effectually fulfils the purposes of purgative medicine given by 
 the mouth. They frequently prove a convenient vehicle for 
 exhibiting food and stimulants in debilitating disorders. Lime 
 water and turpentine, solution of quassia, and other medicated 
 injections, are useful means of expelling ascarides. An ounce 
 or two of cold water, thr'own up every morning, relieves piles 
 in dogs. Injected in large amount, and with an extra long tube, 
 they occasionally overcome intussusception. These copious 
 tepid injections, with full doses of opium or ansesthetics to relax 
 spasm, are the only hopeful treatment for obstruction and intus- 
 susception, whether in horses or dogs. By reflex action tepid 
 clysters, retained i£ possible for a short time, relieve irritation 
 and pain of the bowels, kidneys, and uterus. "When intended 
 to be retained and absorbed, clysters should be limited in quan- 
 tity, not exceeding two or three pints in th"fe horse, or two or 
 three ounces in a dog of 20 lbs. weight. Where intended to 
 produce evacuation of the bowels, their quantity may be trebled 
 or quadrupled. Of the many kinds of apparatus for giving 
 
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WEIGHTS AND MEASURES. 107 
 
 clysters, those in common use are — the old-fashioned bladder 
 tied on a piece of leaden pipe ; Eeid's patent clyster syringe, 
 improved by Mr. Arnold, which has also the advantage of being 
 available as a stomach pump ; Mr. Gamgee's block-tin tube and 
 funnel, which fill the intestines by gravitation, and obviate the 
 necessity of pumping ; and the common barrel syringe, of which 
 the best kinds are made of copper tinned over, with a nozzle 
 which screws out at pleasure, and can be carried in the interior 
 of the instrument. In the horse the rectum is generally cleared 
 out by the hand before any of these articles are used ; and in 
 all animals the part of the apparatus which enters the gut 
 should be smeared with lard or oil, and introduced slowly and 
 carefully. Injections are occasionally made into ,the nostrils, 
 urethra, bladder, and uterus, as well as into wounds ; whilst 
 medicated spray thrown from a scent-disperser, from a caout- 
 chouc ball and tube, or, better stiU, from a steam' spray-pro- 
 ducer, is often serviceable in relieving sore throat, especially in 
 horses. 
 
 'WEIGHTS AND MEASURES, IMPBEIAL AND METRIC. 
 
 Two systems of weights — the avoirdupois and the apothe- 
 caries' — were formerly employed by medical men, veterinarians, 
 and chemists. The avoirdupois or imperial weight was used by 
 wholesale druggists, and also by retailers in buying their drugs,- 
 and usually in selling out quantities amounting to or exceeding 
 an ounce. In dealing with smaller quantities, and in mak- 
 ing up prescriptions, apothecaries' weight was employed. To 
 avoid the ambiguity occurring from the use of these two systems 
 of weights, the British Pharmacopoeia in 1864 abolished the 
 apothecaries' weight, adopted the avoirdupois ounce as the stand- 
 ard, divided it into 437-5 grains, and ignored entirely drachms 
 and scruples. But so great is the inconvenience now arising 
 from the want of some denomination between the grain and the 
 ounce, that medical and veterinary authorities, although dis- 
 pensing with the scruple, still use the drachm (dr. ■5j-)' 'which 
 is. one-eighth of Ihe avoirdupois ounce, or contains 54'6875 
 grains. 
 
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108 VETERINARY PHARMACY. 
 
 PHAEMACOPCEIA MEASURE , OF WEIGHT. 
 
 1 Grain, gr.j. 
 
 1 Ounce, oz.j. g =437-5 grains. 
 
 1 Pound,lb.j = 16 ounces=7000 grains. 
 
 As some veterinarians for a time may still hold to the 
 abolished apothecaries' weight, its denominations with their 
 appropriate signs are appended, and it may be recollected that 
 the grain is one-eleventh more than that of the British Pharma- 
 copoeia. 
 
 apothecaries' measure of weight. 
 
 1 Grain, gr.j. 
 
 1 Scruple, Bj = 20 grains. 
 
 1 Drachm, 3j = 3 scruples = 60 grs. 
 
 1 Ounce, 5j = 8 drachms = 480 grs. 
 
 1 Pound, Ib.j = 12 ounces- =5760 grs. 
 
 The measures of the British Pharmacopoeia are those in 
 former use. The fluid ounce of distilled water, although 
 weighing 437'5 grains, is still divided iato 480 miaims. 
 
 MEASURE OF CAPACITY. 
 
 1 Minim, min. tlj^j. 
 
 1 Flmd drachm, fgj = 60 minims. 
 
 1 Fluid ounce, f ^ = 8 fluid drachms. 
 
 1 Pint, Oj =20 fluid ounces. 
 
 1 Quart, Qt.j = 2 pints. 
 
 1 Gallon, O.j = 4 (quarts. 
 
 It is often useful to recollect the weight of different measures. 
 Of water, one minim (tlLJ.) weighs nine-tenths of a grain; a 
 fluid ounce at 60° weighs exactly an ounce avoirdupois ; hence 
 a pint is equal to a pound and a quarter, and a gallon to ten 
 pounds avoirdupois. Every practitioner must, of course, be 
 provided with proper balances of different sizes, legibly marked 
 weights of different denominations, and graduated measures, 
 which, for the sake of cleanliness, should be made of glass or 
 
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DOMESTIC WEIGHTS AND MEASUEES. 109 
 
 earthenware rather than of metal. Much time is saved both to 
 himself and his employers by having the bottles in which he 
 dispenses his medicines graduated to ounces ; and such bottles 
 may now be purchased at prices very little above those given 
 for the ordinary sorts. To prevent mistakes, it is also weU to 
 send out medicines for external and internal use in differently 
 shaped and differently coloured bottles, and to label carefully 
 aU potent preparations " Poison." 
 
 When standard measures cannot be obtained, the practi- 
 tioner has often occasion to use some of the ordinary domestic 
 utensils, with the capacity of which he ought therefore to be 
 familiar. Common tumblers contain from eight to ten fluid 
 ounces ; tea-cups, about five fluid ounces ; wiae-glasses, about 
 two fluid ounces; table-spoons, half a fluid ounce; dessert-spoons, 
 two fluid drachms ; and tea-spoons, one fluid drachm of sixty 
 minims. Such measurements, however, are merely approxi- 
 mative. The pint and quart bottles, subdivisions of the old 
 wine measure now disused, contain respectively about 13 and 
 27 fluid otinces, and Tiot, as their names might indicate, 20 and 
 40 fluid ounces. Medicines are sometimes measured by the 
 drop, which varies, however, exceedingly with the density and 
 viscidity of the fluid, and the form and size of the vessel from 
 which it faUs. 
 
 The metric system of weights and measures is now legalised 
 in this country; is everywhere extensively used in scientific 
 observations ; and from the simphcity of its decimal gradations, 
 is certain to become general for all purposes. The metric 
 tables of weight, capacity, and length, with their relations to 
 the -corresponding tables of the British Pharmacopoeia, are 
 appended : — 
 
 MEASUEES OFiVEIGHT. 
 
 1 Milligramme = 0*001 gramme 
 
 — 0-015432 grains. 
 
 1 Centigramme = 0"01 „ 
 
 = 0-15432 
 
 1 Decigramme = 0"1 „ 
 
 = 1-5432 
 
 1 Gramme = I'O „ 
 
 = 15-432 
 
 1 Decagramme = 10"0 
 
 = 0-022046 lbs. 
 
 1 Hectogramme = 100"0 „ 
 
 = 0-22046 „ 
 
 1 Kilogramme =1000-0 
 
 = 2-2046 
 
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110 VETERINARY PHARMACY. 
 
 The gramme, taken as the unit of weight, is a cubic centi- 
 metre of water at 4° C. or 39-2° Fahr. 
 
 MEASURES OF CAPACITY. 
 
 1 MOlitre = 1 gramme of water = 0-0610 cubic in. 
 
 1 Centilitre = 10 „ „ = 0-610 
 
 1 Decilitre = 100 „ „ = 6-10 
 
 1 Litre = 1000 „ „ = 61-0 
 
 A litre is a cubic decimetre, equal to one kilogramme, or 
 1-76 pint. 
 
 MEASURES OF LENGTH. 
 
 1 Millimetre = 
 
 0-001 metre 
 
 = 0-03937 English in 
 
 1 Centimetre = 
 
 0-01 
 
 = 0-3937 
 
 JJ 
 
 1 Decimetre = 
 
 0-1 
 
 = 3-937 
 
 3> 
 
 1 Metre = 
 
 1-0 
 
 = 39-37 
 
 Ji 
 
 1 Decametre = 
 
 10-0 
 
 = 32-80 
 
 English ft 
 
 1 Hectometre = 
 
 100-0 
 
 = 328-08 
 
 J) 
 
 A metre is equal to the ten-millionth part of a quarter of 
 the meridian of the earth. It is equal to 3-28 English feet. 
 
 The Fahrenheit thermometer being the measure of heat still 
 retained by the British Pharmacopoeia, and iu most works on 
 human Materia Medica, is agaiu adopted in this book. As the 
 centigrade scale is now so extensively used, it is, however, de- 
 sirable to note the following rule for converting centigrade 
 degrees into Fahrenheit degrees, — 100° centigrade being equal 
 to 180° Fahrenheit, 10° centigrade =18 Fahrenheit, or 5° 
 centigrade = 9° Fahrenheit ; hence any number of centigrade 
 degrees, if multiplied by 9, divided by 5, and 32 added, are 
 converted iuto Fahrenheit degrees. By the reverse process, 
 Fahrenheit degrees are of course converted iato centigrade. 
 
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VETEEINAEY MEDICINES. 
 
 ACETIC ACID. 
 
 The British Pharmacopoeia recognises the following varieties of 
 acetic acid, namely : — 
 
 Glacial acetic acid, containing . . '84 per cent of anhydrous acid. 
 Acetic acid of chemistry and the shops 28 „ „ 
 
 Diluted acetic acid .... 3"63 „ „ 
 
 British, French, and distilled vinegars . 4-5 „ „ 
 
 Glacial acetic acid is prepared by heating sodium acetate 
 with sulphuric acid. When rectified it contains one per cent 
 of water, and corresponds to 84 per cent of acetic anhydride 
 — a colourless volatile pungent liquid (HCg Hg O^). The 
 glacial acid is mobile, oily, and colourless, with a pungent 
 acetous odour and taste, a corrosive action upon organised 
 tissues, and a specific gravity of 1'065. It boils at 243° 
 Fahr., distils unchanged, is combustible, miscible in all propor- 
 tions with water and alcohol, crystaUises at 34° into radiating 
 pearly plates, hence its title, of glacial acetic acid. Sixty grains 
 mixed with a fluid ounce of water requires for neutralisation 
 990 grain measures of the volumetric solution of soda. Acetic 
 acid, even when considerably diluted, reddens litmus, dissolves 
 volatile oils, resins, camphor, and vegetable alkaloids, and unites 
 with bases to form the crystaUisable and soluble acetates. 
 These salts are distinguished by the acetous odour they emit 
 when heated with sulphuric acid ; the peculiar ethereal odour 
 and pungent taste of acetone they evolve when heated with 
 lime ; and the red-brown colour they produce in neutral solu- 
 tion when treated with iron perchloride. 
 
 Acetic Acid (acidum aceticum) contains 28 parts of 
 acetic anhydride, is one-third the strength of the glacial acid, 
 is colourless, strongly acid with a pungent odour, and a specific 
 
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112 ACETIC ACID — ^VINEGAE. 
 
 gravity of 1-044. It is -usually prepared from tHe destructive 
 distillation of sucli liard woods as oak, ash, or beech, exposed 
 to a red heat in iron retorts. Combustible gases are given off, 
 charcoal remains in the retorts, and there distUs over a dark 
 brown tarry acid liquid, which when it stands deposits tar. 
 The lighter liquor, whicji contains from 2 to 4 per cent of 
 ■ acetic acid, is decanted and distilled ; wood spirit and acetone 
 are first given off, and subsequently the impure acid, which is 
 neutralised usually with sodium carbonate. The resulting 
 acetate is dried and roasted to remove tar and creasote, re- 
 dissolved and distilled with sulphuric acid. An imperfectly 
 purified acid still containing some residual tarry matters is sold 
 as pyroHgneous acid. The -diluted acid of the British Pharma- 
 copoeia is made by mixing one volume of this commercial acid 
 with seven of water, has the specific gravity 1"006, and corre- 
 sponds in strength with vinegar. 
 
 Vinegar (acetum) is diluted acetic acid, containing traces 
 of colouring matter, mucilage, alcohol, ethers, sulphuric acid, 
 and calcium sulphate. It is got by the destructive distillation 
 of wood, as described above; and more commonly by the oxi- 
 dation of alcohol, by exposing it to the air, at a temperature of 
 about 80°, and in contact with a ferment. In this way most 
 vinegars are manufactured in this country, from malt grain 
 cider, or solutions of sugar or spirit; in France, by exposing 
 "some of the poorer wines in half-filled casks ; and in Germany, 
 by what is termed the quick or improved method of vinegar- 
 making, from diluted alcohol, which is mixed with about one 
 1000th part of yeast, honey, vinegar, or other fermentescible 
 body, and allowed slowly to trickle at a temperature of from 
 75° to 80°, over a large surface of wood-shavings previously 
 soaked in vinegar. After a few days there is formed on the 
 surface of the shavings a gelatinous mould — ^the mycoderma 
 aeeti — ^which favours the attraction of oxygen from the air, 
 supplies it to the alcohol, and hastens its conversion into acetic 
 acid as shown by the formula — 
 
 CaHeO (alcohol) -|- 0^ (Oxygen) = G^Ujd^ (acetic acid) 
 -j-HjO (water). 
 
 British vinegar is colourless, or nearly so, has an acid 
 taste and reaction, and a refreshing acetous odour, depending 
 
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IRRITANT, STIMULANT, AND RErRIGERANT. 113 
 
 upon traces of acetic ether. Frencli champagne or white wine 
 vinegars are distinguished by their ethereal acetous odour and 
 high density; those made from the red wines yield, when 
 treated with ammonia, a purple colour and a purple flaty 
 sediment. 
 
 Impurities. — The most common adulterations of vinegar are 
 water and sulphuric acid. Water is discoverable by its dimi- 
 nishing the density and the power of neutrahsing crystallised 
 sodium carbonate. The British viaegars should have the den- 
 sity 1-01'7 to 1-019 ; the French, 1-014 to 1-022. Accordmg 
 to the British Pharmacopoeia one fluid ounce of vinegar requires 
 to neutralise it at leas1?402 grain measures, of the volumetric 
 solution of soda, and corresponds to' 4-6 per cent of anhydrous 
 acid. The following ready method of estimatiag the strength 
 of any sample of vinegar or acetic acid was communicated to 
 me by Dr. Murray Thomson : — Take a measured quantity, say 
 100 in of the vinegar, and a weighed amount, say 100 grains 
 of prepared chalk, or any other convenient form of calcium 
 carbonate. Add the chalk to the vinegar cautiously, until no 
 more is dissolved. The equivalent of dry acetic acid and 
 chalk being nearly alike, the number of grains of chalk taken 
 up (which is, of course, easily discovered by weighing the 
 quantity left) wOl therefore indicate almost exactly the number 
 of grains of real acetic acid present ia the sample. The addition 
 of 1000th part of sulphuric acid is allowed by the excise, in 
 the belief that it prevents spoihng. But the legal proportion 
 is often exceeded. , AU the sulphuric acid in one fluid ounce of 
 vinegar shojild be precipitated by ten minims of the pharma- 
 copoeia solution of barium chloride. Any traces of copper or 
 lead are detected by their precipitating hydrogen sulphide. 
 
 Actions and Uses. — ^Acetic acid is irritant, corrosive, and 
 vesicant. It is not used iaternaUy. DUuted as in vinegar it is 
 applied externally as a stimulant and refrigerant, and is em- 
 ployed pharmaoeutioally as a solvent. 
 
 It is rather less irritant than the strong mineral acids ; but 
 it kills dogs with the same symptoms of uneasiness, vomiting, 
 and abdominal pain, weakness of the hinder extremities, and 
 exhaustion. An ounce of acetic acid destroyed a medium-sized 
 dog in an hour ; a quarter of an ounce in from five to nine 
 hours ; and four or five ounces of vinegar in ten or fifteen hours 
 
 I 
 
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114 ACETIC ACII) — ^VINEGAR. 
 
 (Christison on Poisons). Horses take from six to twelve ounces 
 of vinegar, and cattle three or four pounds, without apparent 
 injury (Hertwig). Once in high repute as an antidote for almost 
 every sort of poisoning, vinegar is now employed only in the case 
 of the alkalies and alkaline carbonates. In the human subject, 
 in diluted solution, it proves refrigerant and stimulates digestion; 
 but in large amount it retards both digestion and assimilation, 
 and has hence been sometimes foolishly used to reduce corpu- 
 lence. This it can only do at the sacrifice of health. 
 
 Eubbed into the skin, acetic acid speedily causes redness, 
 and the eruption of large blisters resembling those produced by 
 boUing water ; but as a vesicant mustard or cantharides is pre- 
 ferable. As an astringent styptic or caustic it is rarely used. 
 Dissolving albumin, fibrin, and gelatin, it removes warts as well 
 as corns in the human subject, softens scurf, destroys crypto- 
 gamic parasites and acari, and hence is occasionally applied in 
 cases of mallenders and saUenders, ringworm, scab, and mange. 
 In such cases, impure pyroligneous acid is preferable, on account 
 of its containing creasote and similar empyreumatic principles. 
 Equal parts of glacial acetic acid and chloroform, mixed in a 
 thin flask, produce vapour which induces local anaesthesia in 
 five minutes. Vinegar, along with either hot or cold water, is 
 a convenient stimulant for superficial inflanamation, strains, and 
 bruises ; and a refreshing acid antiseptic for sponging the skin 
 in febrile disorders. Por fumigating stables or cowhouses, it 
 does more harm than good, inasmuch as it disguises those 
 noxious efiiuvia which it neither removes nor destroys, and may 
 thus prevent due attention to thorough ventilation, .and the use 
 of effectual disinfectants. It dissolves the active principles of 
 many medicines, and enters into the composition of vinegars of 
 cantharides and colchicum, spirit of Mindererus and oxymel. 
 Oxymel is made by heating together forty ounces of sugar or 
 honey, and five each of acetic acid and distilled water. The 
 antiseptic properties of vinegar recommend it for preserving 
 various sorts of vegetables. 
 
 Doses, etc. — ^Diluted with water or any simple fluid, in 
 about the same doses as the mineral acids, namely, f3i. to fSij. 
 for horses or cattle ; TTl_x. to ni_xx. for sheep and pigs ; and iTLij. 
 to TT^v. for dogs. 
 
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ACONITE. 
 
 Monkshood. Wolfsbane. Blue Eocket. Aconitum, Tubers, 
 leaves, and flowering tops of Aconitum Napellus, A. ferox, 
 and other varieties. 
 Nat. Ord. — Eanuncukoese. Sex. . Syst. — Polyandria Trigynia. 
 Botanists have numbered twenty-two species and upwards 
 of a hundred varieties of aconite, which are common throughout 
 the cooler mountainous districts of both hemispheres. Some 
 species are inert, or nearly so ; but others, as the Aconitum 
 ferox, Sinense, and Napellus, are very active. The last of these, 
 the common ofGicinal species, is a doubtful native of Britaia, 
 but often grown in gardens and shrubberies on account of its . 
 flowers. The cultivated are said, however, to be less active 
 than the wild plants. Its several varieties are herbaceous 
 plants, with tapering, carrot-shaped, brown roots, from which, 
 after the first year's growth, are formed one or more oval-shaped 
 tubers, which are at first nourished by the decaying parent- 
 root ; several annual erect stems from two to five feet high ; 
 dark green leaves with five wedge-shaped deeply divided lobes ; 
 long-stalked, helmet-shaped blue or purple flowers, which form 
 dense spikes, and appear in June or July; and dry, black, 
 shrivelled seeds, which ripen about the end of August. The 
 dried roots, imported from Germany or cultivated ia Britain, are 
 two to four inches long, and from half an inch to an inch thick 
 at the crown, which is knotty, are brown externally but white 
 withiu, conical, rapidly tapering, prominently marked with the 
 bases of the rootlets, of an earthy odour, — characters which 
 should distinguish them from the cyHndrical, white, pungent, 
 bitter root of horse-radish, for which it has sometimes been 
 fatally mistaken. According to Professor Schroff, of Vienna, the 
 root is six times as active as the other parts, and is consequently 
 most valued, should be taken up after the plant has flowered in 
 autumn, or before the new stem rises in spring, cut iuto smaU 
 pieces, and dried at a low temperature. The seeds are said to 
 be specially potent (Eoyle). The leaves are less active than 
 the root, but more so than the flowers, fruit, or stem, and, with 
 the flowering tops of plants cultivated in Britain, are directed 
 by the Pharmacopoeia to be gathered in July, when about 
 
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116 ACONITE 
 
 one-third of the flowers are expanded, and when the leaves 
 have matured their special properties. They should be rapidly 
 dried, and at once used for making the preparation desired. 
 Any part of an active or poisonous aconite, when slowly chewed, 
 produces a peculiar acridity, numbness, and tingling of the lips 
 and tongue, unaccompanied by irritation or inflammation. This, 
 besides being a test of aconite, is most observable in those 
 varieties and parts of the plant, and in those preparations which 
 are most potent, and hence roughly gauges the activity of any 
 specimen or preparation. 
 
 The root and leaves, when powdered, have a dirty gray 
 colour, and a strong earthy odour ; yield their active priuciple 
 readily to alcohol ; and owe their poisonous and medicinal 
 actions to an alkaloid termed aconitine or aconitia (C3(,H47N"0„) 
 generally obtaiued from the root of any active variety grown 
 in this country or imported from India, by maceration with 
 rectified spirit, recovering the spirit by distillation, dissolving 
 the residue in water, separating the alkaloid from its special 
 acid, the aconitic (Hj, G^Ufi^), washing and purifying. About 
 12 grains are extracted from 1 lb. of dried roots. Aconitine 
 is a transparent, colourless, or pale yellow powder ; bitter ; 
 crystallisabie with some difficulty ; soluble in 1 5 parts of cold 
 water, 5 of hot water, and more readily soluble in alcohol and 
 ether. It is distiaguished by producing, even when in very 
 diluted solution, peculiar tingling and numbness. Other active 
 crystalline bases, napelline, ati&ine, and aconella, have recently 
 been discovered and isolated by Messrs. T. and H. Smith of 
 Edinburgh. 
 
 Actions and Uses. — ^Aconite paralyses both the sensory and 
 motor tract of the medulla and spinal cord, causes spasm of the 
 muscles of respiration, and death from asphyxia. Used medicin- 
 ally, it is sedative, antispasmodic, and anodyne. As a sedative 
 it is more safe and manageable than blood-letting ; more certain 
 and effectual than calomel and opium or tartar emetic. When 
 chewed, or rubbed on the mucous or cutaneous surfaces, it 
 causes a pecuHar tingling and numbness, accompanied by no 
 irritation, vascular excitement, or visible alteration of structure, 
 and depending on paralysis of the sensory nerves. 
 
 General Actiom. — The investigations of Dr. John Harley * 
 * St. Thomas' Hospital Reports, vol. v. New Series, 1874. 
 
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A SPINAL PARALYSER. 117 
 
 and M. Li^geois and Hottot* indicate that aconite, so soon 
 as it enters the circulation, depresses and paralyses first the 
 sensory roots of the medulla and spinal cord, and shortly after- 
 wards the corresponding motor roots. That the sensory centres 
 and nerves are affected before the motor appears evident from 
 the early local numbness produced when any active aconite 
 is chewed or rubbed on the mucous or cutaneous surfaces ; 
 from the peculiar numbness and tingling sensations in the 
 throat which so speedily produces the characteristic insalivation 
 and champing of the jaws ; from the general numbing and 
 insensibility which precedes any loss of voluntary power, and 
 from the shallow feeble breathing. But fuU doses soon show 
 that paralysis of motor function is setting in. The feeble 
 breathing becomes irregular and distressed from the paralysis 
 • of the respiratory muscles and the spasmodic closure of the 
 respiratory passages ; mainly from this restraint on bteathing, 
 the heart's action is reduced in force and frequency ; there is 
 vascular depression and lowered temperature ; the animal loses 
 the power of supporting itseK, and drags its hind extremities. 
 But neither the brain nor special senses, excepting perhaps 
 taste, are affected. Death results from asphyxia depending 
 upon paralysis of the muscles of respiration, particularly of the 
 diaphragm, and spasmodic closure of the glottis. The right 
 side of the heart becomes enormously engorged, whilst the left 
 is nearly empty. When large doses are given the obstructed 
 respiration is probably so extreme that the heart suddenly stops 
 and asphyxia and syncope concur. 
 
 Aconite has a very uniform effect on aU. animals, from earth- 
 worms to man himself. Horses receiving an over-dose, such as 
 one to two drachms of the British Pharmacopoeia tincture, tremble 
 violently, lose the power of supporting themselves, become 
 slightly convulsed, froth at mouth, perspire freely, appear much 
 nauseated, and make efforts as if about to vomit ; the breathing 
 in half an hour becomes slower and feebler, the pulse is reduced 
 in strength, and usually in number ; six or eight hours elapse 
 before the breathing and pulse become normal. Impaired 
 appetite and more or less nausea occasionally remain for one or 
 even two days. Viborg mentions that a horse, after receiving 
 
 * Journal de Physiologie, 1861 ; also Dr. H. C. "Wood, "Treatise on Thera- 
 peutics." 
 
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118 ACONITE 
 
 eight ounces of the root and lower leaves of Aconitum Napelliis, 
 became very uneasy, breathed slowly and with dif&culty, 
 attempted to vomit, exhibited a depressed, irregular, and' inter- 
 mittent pulse, and looked round at his flanks, as if suQeriag 
 pain ; but he gradually recovered in about six hours. Wext, 
 day he got three-quarters of a pound of aconite, which induced 
 similar symptoms, and death in about twelve hours (Hertwig). 
 Similar symptoms have been observed in the following experi- 
 ments, made at the Ediaburgh Veterinary College by my 
 lamented friend Mr. Barlow and myself: — 
 
 A black mare, 1 5^ hands high, previously used for slow 
 work, and in good health, got, at 12.40 P.M. (27th September 
 1852), one fluid drachm of Fleming's tincture of aconite. At 
 1 she was nauseated, had eructations of frothy mucus, with 
 attempts to vomit, which increased till 1.30, when she went 
 down. The pulse, which was 35 before the administration of 
 the poison, was now 60, and very weak; she continued down 
 tiU 7 P.M., when she was destroyed in consequence of being 
 unable to stand. 
 
 On 24th September 1852, an aged chestnut cab horse, 16 
 hands high, and useless from a bad qtiittor, was tied up by the 
 head fox ten miautes, to ensure perfect quietude. The pulse 
 was then found to be 56, and the respirations 12. The animal 
 had a good appetite and regular evacuations. At ten o'clock 
 he got ninety minims of Fleming's tincture of aconite in a 
 linseed-meal ball, the head beiag still kept tied up for fifteen 
 minutes. In half an hour he fed greedily on potatoes and 
 beans, but no change was observable. At 1 p.m. he got fifty 
 minims of the same tincture in four ounces of water. At 1.15 
 he appeared to be making continual efforts to swallow some- 
 thing; his mouth was closed; and after such attempts at 
 swallowing, air and fluid were regurgitated up the gullet, 
 causing a rattling noise, as of air-bubbles mixed with water. 
 At 1.20 the pulse was 50 ; symptoms of actual nausea ap- 
 peared ; the muscles on the side of the neck and throat were 
 contracted ; the muzzle brought near to the breast ; the lips 
 retracted ; and the mouth slightly opened. Fits of retching • 
 came on every two minutes, and increased in violence during 
 the next ten or fifteen minutes. 1.30. — ^During each paroxysm 
 of retching the mouth was opened, the lips widely retracted, 
 
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A RESPIRATOKY AND CARDIAC POISON. 119 
 
 and four or five ounces of frothy mucus discliarged on the 
 ground. The pulse had fallen to 40, and become weak. On 
 account of the retching, the respirations could not be counted. 
 Copious perspiration broke out aU over the body, and increasing 
 distress was shown in the quivering surface, and pallid mucous 
 membrane of the mouth, nose, and eyes. 2 P.M. — Pulse 38, 
 and weak ; the respirations not easily counted, but probably 
 about nine ; in other respects no change. The animal passed 
 faeces and urine freely; and shortly after getting a pint of 
 cold water; lay down somewhat relieved, with the retching 
 scarcely so frequent. At 2.30 the pulse was weaker than ever ; 
 the breathing irregular, interrupted, and sighing; and the 
 animal unable to rise. * The labial and nasal muscles were 
 contracted, causing retraction of the lips, and disclosing the 
 gums blanched, and the teeth covered with frothy mucus. 
 Two bottles of strong ale were given, with half an ounce of 
 spirit of ammonia. At 3 P.M. the pulse was 3 5, and stUl weaker 
 than before; respiration was somewhat accelerated, probably 
 owing to the animal's being down ; perspiration continued to 
 stream from every part ; and the retching, though somewhat 
 subsided, still came on about every ten minutes. The animal 
 remained down without much change until about 6, when the 
 nausea was somewhat diminished, but the ptJse so weak as to 
 be scarcely perceptible. He was raised with difficulty, and 
 stood blowing much for fifteen minutes. At seven there was 
 little change, the pulse remained imperceptible, the respira- 
 tions about 20, and the patient unable to eat or drink. "He 
 was left with the expectation of finding him dead next 
 morning ; but at 7, A.M. (2 5th) he was up and eating. His 
 pulse was 65, his respirations 10, and his appearance very 
 haggard and reduced. October 1st. — Since last date he has 
 never regained his former , look or appetite ; for two davo 
 been unable to rise or. stand ; and has become much wasted. 
 He was destroyed by six drachms of prussic acid; but, on 
 post-mortem examination, every part except the lungs -seemed 
 healthy. These organs, more especially the right one, were 
 extensively studded with patches of extravasated blood 
 about the size of walnuts, which in those parts connected with 
 the pulmonary tissue were more or less softened, and emitted 
 an odour characteristic of heated decomposed blood. The rusty 
 
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120 ACONITE 
 
 fluid produced from the softening had in various places passed 
 into the bronchi, imparting to their frothy mucus a brown colour. 
 
 Among carnivorous animals the poisonous effects of aconite 
 are exhibited in the following experiments made at the Veteri- 
 nary College. A cat of average size got seven minims of 
 Fleming's tincture of aconite. In two minutes severe retching 
 came on, with a copious flow of saliva, probably arising from 
 paralysis of the fauces ; and iu five minutes paiaful vomiting 
 and involuntary muscular contractions of a most active kind, 
 with perverted action of the voluntary muscles, causing the 
 animal to leap up the wall and turn somersaults backwards. 
 In this, as in most other cases, the pupil, at first somewhat 
 contracted, ultimately became dilated. * The pulse was reduced 
 in volume and strength, shortly becoming very weak; the 
 breathing was gasping. The vomiting and inordinate muscular 
 action continued till within two or three minutes of death, 
 which took place twenty minutes after the administration of 
 the poison. No morbid or peculiar post-mortem appearances 
 ■were observable. A medium -sized Scotch terrier got thirty 
 minims of Fleming's tincture. In five minutes painful and 
 active vomiting came on, which must have effectually emptied- 
 the stomach. The retching and vomiting continued, however, 
 for half an hour, when the animal was so exhausted and 
 paralysed in its hinder extremities as to be unable to 
 walk except by supporting itself on its fore limbs and 
 dragging the hind ones after it. It gradually recovered, 
 however, in about two hours. In som'e other cases a drachm 
 has destroyed dogs with as much rapidity as an equal quantity 
 of medicinal prussic acid. The lungs after death are found to 
 be shrunk, and contain little blood ; the trachea and bronchi 
 are full of frothy mucus, which could not be dislodged, owing 
 to the paralysis of the respiratory muscles and glottis ; the 
 cavities of the right heart are greatly distended with blood; 
 the left side is nearly empty ; but nothing abnormal is noticed 
 &,bout the digestive organs. 
 
 Among ruminating animals the action of aconite, when 
 introduced into the stomach, is rather less prompt and powerful 
 than in horses or dogs ; and the late Professor Fleming found 
 that the activity of aconite was sensibly diminished by digesting' 
 it with the gastric secretions either of rabbits or. calves. But 
 
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AN" EFFECTUAL SEDATIVE, 121 
 
 when injected into the veins, or placed ia the areolar tissues, it 
 develops its poisonous effects as readily in ruminants as in 
 other animals. 
 
 In poisoning by aconite, finely powdered animal charcoal, 
 mixed with a little water, is given, in the hope of its absorbing 
 the poison. Emetics or the stomach-pump must then be 
 promptly used to get rid of any of the poison that may still 
 remaiu unabsorbed. The only chemical antidote of any value 
 is tannic acid, which owes its efficacy to its forming an insoluble 
 compound with the aconitine ; but to be of service it must be 
 used very promptly. By movements of the hmbs and ribs, and 
 by gentle magneto-electric currents down the back of the neck, 
 and round the ribs, Dr. John Harley endeavours to combat 
 the respiratory paralysis. Brandy and ammonia should be 
 cautiously given. The congestion of the lungs may be some- 
 what relieved by moderate bleeding from the jugular. 
 
 Medicinal Uses. — For all the domestic animals aconite is a 
 prompt and effectual sedative. In the first edition of this work, 
 published in 1853, its use was strongly recommended. It has 
 siace found growing favour with veterinarians ; but it stUl 
 deserves more extended and general employment. Ten or 
 fifteen minutes after a mediciual dose is administered, the num- 
 ber of the pulse-beats is often lowered by one-fourth, their force 
 is weakened, vascular excitement is thus abated, elevated 
 temperature is reduced, pain is assuaged. N"o sedative is so 
 certain and successful in the earlier stages of pneumonia, 
 pleurisy, or bronchitis ; of enteritis, peritonitis, or laminitis ; 
 of acute rheumatism or weed : it is indeed the most effectual 
 agent which veterinarians at present possess for controlling in 
 their outset attacks of acute inflammation and fever, whether 
 amongst horses or cattle. Mr. Balfour of Kirkcaldy for twenty- 
 five years has advantageously used it in the treatment of con- 
 tagious pleuro- pneumonia in cattle. Hard -worked horses 
 exposed to a chiU are frequently brought in with acute sore 
 throat, scarcely able to swallow, feverish, with elevated tempera- 
 ture. A couple of doses of aconite, with inhalation of steam, 
 and mustard externally, promptly abate the throat congestion 
 and inflammation, as well as the accompanying constitutional 
 fever. In enteritis in horses, Mr. Hill of Wolverhampton has 
 repeatedly found that within five minutes after aconite tincture 
 
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122 , ACONITE 
 
 is swallowed the pulse falls from 100 to 70 beats per minute, 
 and this notable effect is usually succeeded by gradual abate- 
 ment of fever and pain. {Veterinarian for July 1871.) 
 Aconite cuts short and controls inflammation, and thence is 
 specially serviceable in the outset of acute attacks. For the 
 removal of inflammatory products other medicines must be 
 used. Combined with a purgative, aconite often exerts a 
 serviceable sedative and antispasmodic effect in cases of colic. 
 In acute rheumatism it usually relieves both the constitutional 
 fever and the local inflammation. In frequently repeated doses, 
 I have found it of benefit in the outset of both forms of puerperal 
 fever in cattle; and. many flockmasters now use it with success 
 during the lambing season, giving it with gruel to all ewes 
 which have a hard time, begin to blow, or show symptoms of 
 fever. Conjoined with perfect quiet and a dose of physic, 
 aconite is successfully used in the earlier stages of tetanus by 
 Mr. Thomas DoUar, London,, by Mr. HOI, Wolverhampton, and 
 Mr. Macgillivray, Banff. {Veterinarian, 1871.) lii small, 
 frequently repeated doses, either alone or with hemlock, it 
 usually controls and steadier the excessive or irregular action 
 of the hypertrophied heart, especially in plethoric patients. 
 
 Ansesthesing superficial sensory nerves, aconite is often 
 useful as a local anodyne in neuralgic or rheumatic affections, 
 painful wounds, of swellings of a chronic or non-inflammatory 
 kind ; and in such cases not only allays pain, like opium or 
 belladonna, but also sometimes removes its cause. Lilce other 
 local, anaesthetics, it is more effective in combating irritative 
 rather than inflammatory pain. 'Diluted with fifteen or twenty, 
 parts of water, and used cautiously, Fleming's tincture often 
 relieves the itching, and hastens the cure of grease and other 
 eczematous eruptions in horses or dogs. A serviceable lotion 
 for such purposes consists of an ounce each of tinctures of 
 aconite and arnica dissolved in a quart of water. A still more 
 soothing application is made by substituting chloroform for the 
 arnica. 
 
 Doses, eic— The plant is not used in the crude state. The 
 extract, unless very carefully prepared from ah. alcohoho solu- 
 tion, is apt to be of defective or irregular strength. The tin/i- 
 ture, the simplest and best preparation both for internal and 
 external use, is sometimes of uncertain and insufficient strength; 
 
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MEDICINAL PREPARATIONS. 123 
 
 and, to prevent disappointment, should be obtained only from, 
 reliable sources. Its preparation is thus ordered by the British 
 Pharmacopoeia — Macerate 2^ ounces of aconite root in coarse 
 powder for forty^eight hours in fifteen fluid ounces of rectified 
 spirit in a close vessel, agitating occasionally ; then transfer to 
 a percolator, and when the fluid ceases to pass, pour into the 
 percolator five fluid ounces of spirit. As soon as the percola- 
 tion is completed, subject the contents of the percolator to 
 pressure, filter the product, mix the liquids, and add sufficient 
 rectified spirit to make one pint. It is beautifully transparent, 
 the colour of sherry, with a slightly bitter taste, followed by 
 the characteristic sensltion of tingling and numbness. For 
 horses the dose varies from f3ss. to f 3i. ; for cattle about 
 f 3i. ; for sheep and pigs, n|,vi. to 1H,x. ; for dogs, ITLiv. to TfLvi. 
 Fleming's tincture, stiLL much used in veterinary practice, about 
 four times as strong as the Pharmacopoeia tincture, and, on ac- 
 count of its concentration, requiring to be used most carefully, 
 is made as follows : — Take of root of Aconitum JSTapeUus, care- 
 fully dried and finely powdered, sixteen ounces troy ; rectifieo. 
 spirit, sixteen fluid ounces ; ' macerate for four days ; then pack 
 into a percolator ; add- rectified spirit until twenty-four ounces 
 of tincture are obtained. The dose for horses is about Til, x. ; 
 for cattle, from TI|,x. to tl^xx. ; for sheep, TTLij. or tlfiij. ; and 
 for dogs, from n^j. to TILij. Whichever tincture is used, should 
 be given in water or gruel, repeated at intervals of one or two 
 hours, and may usually be persevered with until its desired 
 effects are produced, or until five or six doses have been swal- 
 lowed. Used hypodermicaUy, less than half the above doses 
 ' suffice. Professor Walley finds that the activity of aconite 
 is increased by giving it in combination with alkaline carbon- 
 ates. ( VeteriTiarian's Pocket Conspectus.) 
 
 ACONITINB is one of the most potent of sedative poisons. 
 Dr. Headland {The Action of Medicines) records that -g-J^jth of 
 a grain in solution, in water, suffices to destroy a mouse ; 37^th, 
 of a grain kills a small bird after a few minutes, and -j^jth al- 
 most instantaneously ; ^th or ^i^th kills cats, the latter quan- 
 tity in twenty minutes or half an hour ; ^ grain given to a 
 shepherd's dog, weighing 20 lbs., began to operate in three or 
 four minutes, and proved fatal in sixty-five minutes; -^i^th 
 grain subcutaneously injected over the scapula of a horse causes 
 
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124 ALCOHOL. 
 
 in a few minutes champing of tlie teeth, salivation, fits of 
 retching, reduced number and force of the heart's action 
 (Mavor and Burness on Action of Medicines) ; -^g-th of a grain 
 would probably suffice to cause the death of an adult man. 
 Used subcutaneously, especial caution must be had, as it acts" 
 even more rapidly and powerfully than when given by the 
 mouth. The symptoms and post-mortem appearances are the 
 same as in poisoning with the ,crude drug, the extract, or the 
 tincture. The alkaloid has been used in human medicine, 
 especially as an external application, in the forms of alcoholic 
 solution or ointment, and is so uniform in its strength, that, 
 but for its expense, it would probably supersede all other pre- 
 parations of aconite. 
 
 ALCOHOL. 
 
 Ethyl Alcohol. Spirit of Wine. Eectified proof and other 
 Spirit, obtained by the fermentation of Sugar. 
 
 Alcohol is represented ia the Pharmacopoeia in several dis- 
 tinct forms — as absolute alcohol, rectified spirit, proof spirit, and 
 methylated alcohol ; and is, moreover, extensively used in the 
 several forms of. wines and spirits. The various alcoholic fluids 
 are obtained, either directly or indirectly, from the fermentation of 
 saccharine solutions ; in this country, from infusions of malt ; in 
 most parts of the Continent, from the juice of the grape ; ' in Ger- 
 many, from potatoes ; and in Jamaica and other rum-producing 
 countries, from molasses. In such processes saccharine matter, 
 ultimately converted into grape sugar, is dissolved and exposed 
 at a temperature generally about 65° or 70° to the action of a 
 ferment, usually the yeast fungus — ^the Torula cerevisiee — which 
 breaks it up, probably by a somewhat complicated reaction, into 
 alcohol, carbonic acid, and water, as set forth in the following 
 formula : — 
 
 1 T, . n^ „ r 2 C„H-HO = Alcohol- 
 
 1 Eqw. of Grape Sugar I ^ ^^^^ ^^ ^^^^^^^ ^^.^_ 
 
 ^' -^" "t - t 1 H, = Water. 
 
 Alcohol is believed to be the hydride of a basylous radicle 
 
 ethyl (Cg Hj), and is hence sometimes termed ethyUc alcohol. 
 
 Ethyl forms various other compounds of medicinal value — 
 
 'namely, ethyl oxide (0^ Hj) fi or common ether ; ethyl nitrite, 
 
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RECTIFIED AND PROOF SPIRITS. 125 
 
 Cg Hj NOj, the etherous principle of sweet spirit of nitre ; 
 ethyl acetate Cj H^, C^ II3 O^, or acetic ether. 
 
 When a fermented saccharine solution is exposed to a high 
 temperature, the alcohol distils over — mixedj however, with 
 water and various impurities ; if the distillation be several 
 times repeated, the fluid at 60° reaches the specific gravity "825, 
 which, according to the British excise, constitutes alcohol or 
 pure spirit. It still, however, contains from seven to ten per 
 cent of water, which, though inseparable by distillation, may be 
 removed by such water-absorbing bodies as potassium carbonate 
 and quicklime. This absolute or real alcohol is a mobile, 
 colourless fluid, with a spirituous odour, an intensely fiery taste, 
 and a specific gravity of "793. It is entirely volatile, boils at 
 173°, burns without producing smoke, becomes viscid at -166°, 
 but has never been frozen ; has a great affinity for water, absorb- 
 ing it readily from the atmosphere, and mixing with it in all 
 proportions. Next after water.it is the most universal solvent, 
 and readily dissolves chloroform, ethers, essential and concrete 
 volatile oUs, resins, most tar products, and many other medicinal 
 substances. When oxidised, it yields aldehyd and acetic acid ; 
 distilled with stdphurio acid, it produces ether, with nitric acid, 
 nitrous ether ; treated with chlorine, chloral is formed. 
 
 Rectified Spirit, spiritus rectificatus, or spirit of wine, are the 
 terms applied to the alcohol obtained from the distillation of 
 fermented saccharine fluids, containing 16 per cent by weight, 
 or 11 per cent by measure, of water, with the specific gravity 
 ■838. To absolute alcohol it bears general resemblance, but has 
 less pungency and volatility, and a higher boiling point. It is 
 used for making aU the spirits and many of the tinctures and 
 extracts of the Pharmacopoeia. 
 
 Proof Spirit, the spiritus tenuior of the Pharmacopoeia, is 
 directed to be made by mixing five pints of rectified spirit with 
 three pints of water. Thus prepared, it is freer from impurity 
 than the weak, imperfectly rectified spirit of the shops ; it con- 
 tains 49 per cent by weight, or 42 per cent by volume, of 
 water, has the specific gravity '920, and is used for the prepara- 
 tion of many tinctures. 
 
 Methylated Spirit is a mbcture of alcohol of specific gravity 
 •830, with 10 per. cent of the" pungent disagreeable fiavoured 
 mejihylic alcohol, CH^ 0, obtained from the- distillation of woo^i. 
 
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126 ' ALCOHOL 
 
 (See Methylic Alcohol.) This mixture, sold free of duty in 
 quantities of ten gallons and upwards, under the name of 
 methylated spirit, proves an immense boon to pharmaceutical 
 chemists and many other manufacturers ; for the addition of 
 the pungent methylic spirit, although it prevents the mixture 
 being used for drinking, does not interfere with its value in 
 pharmacy or the arts. 
 
 The following alcoholic fluids, employed both dieteticaUy 
 and medicinally for man, are occasionally also prescribed for the 
 lower animals : — Wine, the fermented juice of the grape, con- 
 tains from 5 to 17 per cent of excise alcohol (specific gravity 
 •825), and owes its peculiar bouquet to CBnanthic ether ; hrandy, 
 prepared by the distillation of the weaker wines, contains about 
 53 per cent of excise alcohol; rum, a fluid of about the same 
 strength, is made by the distillation of a fermented solution of 
 molasses ; whisky, of similar strength, is obtained by distilling 
 a thoroughly fermented solution of malt, or of malt and raw 
 grain ; whOst Hollands, Geneva, and gin, a little weaker than 
 these, are prepared from fermented malt, with a small quantity 
 of juniper berries. Ales and porter, convenient stimulants in 
 almost everyday use, are made by infusing malt in water at 
 about 180°; allowing it to stand for a few hours untU the 
 starch is in great part converted into dextrine and sugar ; boil- 
 ing the solution with the requisite hops ; adding yeast to cause 
 fermentation, which, however, must be carefully prevented from 
 going too far. The dark colour of porter depends on a part of 
 the malt being roasted. Porter and ales contain between 4 
 and 8 per cent of excise alcohol (density •825). 
 
 Impurities. — Excess of water, the common sophistication of 
 alcoholic fluids, increases the specific gravity, which is ascer- 
 tained either with a hydrometer or with marked beads. Com- 
 mercial spirits are apt to be contaminated by ill-flavoured, pun- . 
 gent volatile oils, and especially by fusel or grain oil, also 
 called amylic alcohol or potato spirit. The presence of this 
 fusel oil imparts to the spirit an empyreumatic burning flavour ; 
 produces a yellow coloration when shaken in a test tube with 
 a fragment of potassium iodide, and causes blackening on addi- 
 tion of sulphuric acid, or by exposure to the action of silver 
 nitrate and light. To remove grain oil, the rectifier, previous 
 to each distillation, mixes the spirit with water, or digests it 
 
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AN INEBEIANT NAKCOTIC. 127 
 
 ■with "animal charcoal ; but neither of these processes is very 
 effectual,^ whilst distillation off burnt alum, calcium chloride, 
 potassium permanganate, or the addition of silver nitrate, 
 although greatly better, are not available on the large scale. 
 
 Actions and Uses. — Alcohol is a narcotic poison of the in- 
 ebriant class ; it first stimulates, then deranges, and subsequently 
 depresses and paralyses the functions of the brain and spinal 
 cord; it kills usually by paralysis of respiration. Medicinal 
 doses are diffusible stimulants, antispasmodics, cardiac tonics, 
 and antiseptics. During their excretion from the body, they 
 act as diuretics and diaphoretics. Carefully used in small 
 doses, alcohol is a readify assimilable article of food. Locally, 
 it is irritant and refrigerant. Its solvent and antiseptic properties 
 lead, to its extensive use in pharmacy. 
 
 General Actions. — Strong spirit applied to the skin or to a 
 mucous surface produces increased vascularity, with heat, red- 
 ness, and irritability ; but these soon give place to diminished 
 vg,scularity and sensibility. Similar characteristic opposing 
 effects also occur when alcohol is taken in full doses internally ; 
 the general excitement first observed is followed by deranged ■ 
 and depressed action. It coagulates albumin, and destroys 
 those organic germs which excite fermentation and putrefaction. 
 It exerts similar effects by whatever channel it enters- the body, 
 whether injected into the veins, placed in the areolar textures, 
 inhaled, or swallowed. Moderate doses, given by the mouth, 
 increase the gastric secretions and aid digestion, but large doses 
 and strong solutions destroy the pepsin, arrest secretion, irritate 
 and inflame the mucous coat, and thus interfere with absorp- 
 tion. It has a high diffusion power, speedily becomes absorbed 
 from the veins both of the stomach and intestines. It attacks 
 the red globules, diminishing their power of giving off oxygen ; 
 rapidly acts on the nerves and nerve centres, especially on those 
 within the cranium, inducing exhilaration and general excite- 
 ment. The action of the heart becomes fuller and stronger ; 
 in health it usually gets quicker, but in weakness and disease, 
 in which alcohol is beneficial, it generally becomes steadier and 
 slower. The excitement caused by poisonous doses is quickly 
 followed by imperfect automatic control, unconsciousness, 
 gradual failure of the heart, and paralysis of respiration. The 
 treatment in such poisoning cases consists in emptying the 
 
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128 ALCOHOL 
 
 stomach by emetics or the stomach-pump, and warding off 
 deadly stupor by keeping the patient moving about ; by 
 cold affusion and the cautious use of the magneto- electric 
 apparatus. 
 
 There has been much controversy as to the dietetic value of 
 alcohol. It contains no nitrogen, and hence it is not available 
 for the building up of the albuminous colloidial structures. 
 But, like sugar, starch, or fat, it undergoes oxidation or combus- 
 tion, supplies force and heat, maintains or increases the "weight 
 of the body, and when used in excess, sometimes causes accumu- 
 lation of fat or fatty degeneration. Men and animals kept on 
 somewhat deficient diet, on which weight would be lost, main- 
 tain their weight when receiving in addition daily small doses 
 of alcohol. In health, alcohol can readily be dispensed with as 
 an article of food alike for men and animals ; it has the disad- 
 vantage of diminishing oxidation. But in febrile diseases this 
 retarding of oxidation adds greatly to its value ; undue tissue 
 waste is checked; temperature is lowered; whilst in such circum- 
 stances alcohol is more readily digested and assimilated than 
 ■most ordinary food. 
 
 On animal temperature, as in so many other of its effects, 
 alcohol acts in a twofold way. Dr. B. W. Eichardson's valu- 
 able experiments {Cantor Lecture for 1874) demonstrate that 
 soon after a full dose has been given, concurrently with the 
 early excitement stage, whilst the heart's action is increased, 
 and the capillary vessels are relaxed, blood is driven to the 
 surface, and a rise of external temperature occurs, sometimes 
 amounting to one degree. But this temporary surface glow is 
 accompanied with diminished tonicity of the surface capillaries, 
 increased radiation results, and the cooling process is hastened. 
 In the second stage of alcoholism, marked by excitement, with 
 some muscular inability and deficient automatic control, tem- 
 perature goes steadily down, the decline is quickened and 
 increased if the animal is in a cold atmosphere, and an undue 
 interval has elapsed since food has been taken. When the 
 advanced stage of unconsciousness is reached, a dangerous 
 reduction has taken place, amounting in birds to fully five 
 degrees, in dogs, rabbits, and other animals to about three 
 degrees, in man himself to two and a half to three degrees. 
 Interesting differences occur in the effects produced by fuU 
 
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PEEVERTS MOTOR FUNCTION. 129 
 
 doses on different animals. On man, with his highly developed 
 cerebral hemispheres, alcohol acts promptly, disturbing and per- 
 verting the intellectual functions ; but five times the dose is 
 requisite to, disturb the motor functions which are presided ovei 
 by about one-eighth part of the human braia. Alcohol in 
 amount corresponding to. 0-4 to the 1000 of the total weight 
 of the body, disturbs human intelligence ; whilst 2-40 per 1000 
 of weight are needed to disturb his motor functions. In pro- 
 portion to their weight, dogs take larger doses without being 
 affected; 1'5 part to 1000 of body weight is required before 
 notable effects occur, and then instead of perversion of the brain 
 proper, which is as five lo one of the dog's motor centres, there is ' 
 perversion of the motor functions. A like promiaent disturbance 
 of the motor functions-J— the prancing, striking with the feet, the 
 unsteady gait, loss of co-ordination, dragging of the hinder ex- 
 tremities — ^is observed in horses and other of the lower animals. 
 In fatal cases the stupor is sometimes broken by convulsions. 
 
 The effects of alcohol vary somewhat, according to the dose 
 and degree of concentration. Whilst full doses produce a 
 primary stage of excitement, with increased action of the heart 
 and perverted motor function, followed by perverted and de- 
 pressed reflex action, stOl larger doses exert a very rapid 
 narcotic and sedative effect, with little or no excitation or 
 inebriation. Pour or five ounces of whisky quickly swallowed 
 by dogs of about 20 lbs. weight, if not got rid of by vomiting, 
 produce rapid depression, coma, and death within several min- 
 utes, and without any appreciable excitement; and cases of 
 this kind occurring in man are recorded by Sir Eobert Chris- 
 tison in his work on Poisons. Hertwig gave an old but sound 
 horse eight ounces of alcohol, of specific gravity about ■825. 
 He became much excited and uneasy, pranced, staggered, and 
 after about two minutes fell, struck out vehemently with his 
 feet, roUed his ' eyes ; the pupils at first were contracted, and 
 latterly dilated ; he rapidly became insensible, and died in 
 about ten minutes. The pulse was little altered, and the heart 
 continued to beat for ten minutes after death. . Paralysis of 
 the muscles of respiration, or closure of the glottis, is stated by 
 Dr. Pereira to be the immediate cause of death. (Pereira's 
 Elements of Materia Medica and Thprapeutics, abridged edition, 
 1872.) Between four and six ounces produced similar symp- 
 
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130 ALCOHOL : 
 
 toms, but did not prove fatal. One to two ounces destroyed 
 dogs in periods varying between a quarter and half an hour, with 
 similar symptoms, and great iaclination to vomit. One or two 
 drachms induced m dogs reeling and stupor, which continued 
 for about half an hour. Cattle and sheep, and indeed aU 
 ruminants, are less susceptible of its influence than dogs, or 
 even horses ; and Hertwig mentions, that when it is given in 
 the form of brandy to sheep and goats, they soon become very 
 fond of it, taking six to ten ounces at a time, and gradually 
 becomiag less easily affected by it. 
 
 Chronic poisoning by g-lcohol, with impaired nervous power 
 and fatty degeneration, common enough in the human subject, 
 is unknown ia the lower animals ; but Professor John Gamgee 
 describes (Domestic Animals in Health and Disease) a form of 
 encephalitis in cattle, resulting from alcoholism, due to the 
 practice " prevalent in some parts of Scotland, of giving ' burnt 
 ale' to cows ia the neighbourhood of dislbilleries. The ale is 
 given by steeping straw in it, and the animals will also drink 
 it freely. They often sleep soundly after such a beverage, and 
 sometimes symptoms of intoxication are manifest. The symp- 
 toms are as follows : — The head is turned singularly to the side, 
 and is slightly elevated. The pupils are widely dilated, and 
 the eyes have a remarkably wild appearance. On approaching 
 the' animals, they wiuk rapidly and tremble. There is a marked 
 heat of head, horns, and ears. When pressed with the finger 
 in the axilla, they fall iastantly, and when pulled by the head, 
 they incline to turn over. The pulse is about seventy or eighty 
 per minute. After death, all the organs are found healthy, 
 except the nervous centres, and both the brain and its mem- 
 branes are found congested. This congestion often extends 
 into the spinal canal, and the pia mater over both brain and 
 cord is the seat of red spots ; the redness is either ramified, or 
 is obviously due to blood extravasation. Clots of blood have 
 been found in the lateral ventricles, and around the spinal 
 marrow in the cervical regions. There is evidently softening 
 of the brain substance, as a direct result of this condition." 
 At distilleries, where the live stock are freely supplied with the 
 dreg or wash and other refuse containiag spirit, pigs, as well as 
 cattle, are frequently intoxicated, exhibit symptoms similar to 
 those described, and sometimes terminating fatally. 
 
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MEDICINAL USES. 131 
 
 As a diffusible stimulant alcoliol resembles ether and am- 
 monia, but is scarcely so evanescent. Compared witb ether 
 and chloroform it is less volatile, incapable of administration 
 by the lungs, and hence having no general anaesthetic action. 
 Moreover, its primary stimulant stage is more marked and pro- 
 longed ; and its secondary stage of unconsciousness is usually 
 more slowly produced, is caused only by dangerously large 
 doses, and is apt to prove fatal from paralysis of the heart and 
 respiratory movements. Wines contaiaing oenanthic ether 
 differ from spirits in having part of their alcohol combiaed 
 with their saline and organic constituents. They are hence 
 more slowly absorbed ; their stimulating effects, consequently, 
 are more slowly produced, and are also more lasting. 
 
 Medicinal Uses. — Few articles are more frequently and 
 extensively used mediciuaUy. In small repeated doses it is 
 given to rouse or regulate weak or disturbed nervous power, 
 and hence is useful in many cases of indigestion in stimulating 
 gastric secretion, as an antispasmodic in colic, in arresting 
 chUls, in antagonising shock, and ia combating the sedative 
 ~ effects of such poison^ as aconite and tobacco. For many of 
 these purposes it is advantageously conjoined with ammonia. 
 It strengthens the action of the heart, dilates the capillaries, 
 and thus diminishes arterial tension, and, in conjunction with 
 warmth, for a time increases animal temperature. These pro- 
 perties recommend it in influenza, in debUitatuig disorders, and 
 in convalescence from acute attacks. Under its influence appe- 
 tite improves, the surface heat becomes normal, temperature is 
 lowered, and the quick weak pulse is firmer and steadier. In 
 many such cases advantage also results from the antiseptic 
 properties of alcohol, and its notable power of controlling and 
 diminishing tissue waste. In most colds and sore throat cases 
 amongst hard-worked horses, when the pulse is quick and weak, 
 the breathing quickened and embarrassed, the temperature over 
 103°, no treatment is so successful as a saline draught, a dress- 
 ing of mustard to the throat, and a couple of ounces of spirits 
 or a piut of ale or stout . repeated every two or three hours. 
 The following case of double pneumonia in a horse, communi- 
 cated to me by Mr. Israel Print, illustrates the value of alcohol 
 as a heart tonic and stimulant. The patient is seen after 
 twenty-four hours' 01ness,his pulse is 100, scarcely perceptible. 
 
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132 ALCOHOL 
 
 his respirations 52, his temperature 106°. He is ordered a 
 wineglassM of whisky ia a few ounces of water every two 
 hours ; gets a quart in the twenty-four hours. His pulse has 
 then fallen to 84, his respirations to 46, his temperature to 
 104°. The spirit is persevered with for another twenty-four 
 hours, with contiuued abatement of fever and distress, and the 
 animal makes a steady recovery. In farcy cases, where the 
 appetite is indifferent and the temperature at 105°, a pint of 
 ale or a glass of spirits thrice a day, in conjunction with full 
 doses of iron sulphate, improves the appetite, lowers tempera- 
 ture, and abates fever. Cows suffering from puerperal apoplexy, 
 after a full dose of physic, and if the heart is weak and irre- 
 gular and the surface cold, are often benefited by five or six 
 ounces of whisky, given at intervals of one and a half to two 
 hours ; congestion and paralysis of the nerve centres are usually 
 thus relieved. In their removal from the body by the kidneys, 
 skin, and lungs, spirituous fluids stimulate these secreting 
 organs, and increase their watery discharges. To maintain the 
 curative advantages obtained, and prevent the secondary depres- 
 sion apt to ensue, repeated doses at intervals of two to three 
 hours are generally required. To the larger veterinary patients 
 alcohol is frequently given in the form of spirits, ale, and 
 stout ; to the smaller, in the shape of wine. Given in undue 
 amount, whether in health or disease, alcohol depresses and 
 exhausts nerve force, hinders oxidation, retards excretion of mor- 
 bid matters, and causes dryness of the skin and mucous surfaces. 
 In a state of concentration, when rubbed into the more 
 delicate parts of the skin, alcohol acts as a rubefacient, but is 
 seldom used for this purpose among the lower animals. Coagu- 
 lating albumin and contracting capillary vessels, strong spirit 
 is occasionally applied to arrest bleeding. As a stimulant and 
 refrigerant for bruises, wounds, and strains, it is used through- 
 out Scotland in the familiar form of whisky-and- water ; whilst 
 a cooling lotion is made with an ounce each of rectified spirit, 
 vinegar, and ammonium chloride, dissolved in a quart of water, 
 and applied on a fold of Imt. As a refrigerant in brain dis- 
 ease, ice is however more convenient and effective. Spirit 
 beat up with white of egg is used in veterinary as well as in 
 human practice, to prevent excoriation of parts exposed to 
 pressure. An admirable and well-keeping solvent for the active 
 
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ANTISEPTIC AND SOLVENT. 133 
 
 principles of many drugs, alcohol is largely used for making 
 tinctures, extracts, and ethers. 
 
 Doses, etc. — Of rectified spirit horses take ahout ill ; cattle, 
 fgj. to fgiij. ; sheep, f §ss. ; pigs, f3ij. ; and dogs, about f 3j. 
 The doses of whisky, hrandy, ales, and wine, vary much accord- 
 ing to the condition of the patient, and the purpose they are 
 given to serve; but in exhausting disorders, they should be 
 given in moderate q^uantity, tolerably diluted, at frequent inter- 
 vals of one or two hours, and usually answer best given at meal 
 times. 
 
 ALOES. 
 
 Aloe. Inspissated juice of the leaves of various species of 
 
 Aloe. 
 
 Nat. Ord. — Liliacese. Sex. jS't/st— Hexandria Monogynia. 
 
 The several species of aloe, which yield the various sorts of 
 commercial aloes, are succulent plants, having short round 
 woody stems; strong, thick, fleshy, amplexi.caul Hght-green 
 leaves, with sharp serrated edges, and a stout spine projecting 
 at the apex;' and yellow or white spiked tubular flowers. 
 Underneath the leathery cuticle and thick cortical epidermis of 
 the aloe leaf, and exterior to the loose mucilaginous pulp, lie 
 parallel vessels which contain the yellow, bitter, purgative 
 juice. Somewhat different processes are pursued in extracting 
 and concentrating this juice. The better qualities are allowed 
 to exude spontaneously from incisions made in the leaf. In- 
 ferior results are obtained when the leaves are exposed to 
 pressure or heat, which causes a mixture of the mucilaginous 
 sap of the mass of the leaf with the cathartic juice, whilst many 
 specimens are deteriorated in the process of concentration by 
 carelessness in separating impurities and exposure to a high 
 temperature. 
 
 Varieties. — The most important varieties of aloes met with 
 in commerce and used in medicine are Barbadoes, East Indian, 
 Socotrine, Cape, and Caballine. 
 
 Baebadoes Aloes (Aloe Barbadensis), the variety of aloes 
 most extensively used in veterinary practice, is produced 
 chiefly by the AM vulgaris, which has a short cylindrical 
 woody stem ; sword-shaped leaves, with hard reddish spines, a 
 
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134 ALOES : 
 
 tough and leathery cuticle, with a light-brown parenchyma ; 
 and tubular yellow flowers. Its preparation is not confined to 
 the Island of Barbadoes, but is also carried on iu Jamaica and 
 most of the West Indian Islands. A dwarf variety is cultivated ; 
 the plants are set out sis inches from each other in the rows, 
 twelve to eighteen inches apart; the leaves, one to two feet 
 long, are cut off in March or April, in the heat of the day ; the 
 plants under good cultivation last for several years. - The 
 leaves are chopped off close to the stem, and placed , in tubs 
 with their cut ends down ; from their longitudinal vessels the 
 juice trickles out, is collected in casks, and at convenience is 
 concentrated by boiling for four or five hours, sediment and im- 
 purities being carefully kept back. When sufficiently concen- 
 trated, the juice is poured into gourd shells, and the opening 
 closed by a piece of shell let in, and secured in its place by a 
 coarse cloth nailed over it. The gourds, when filled, usually 
 weigh from 10 to 40 lbs.; and fully 2000 of these, with a 
 quantity of the drug iu boxes, are annually exported from 
 Barbadoes alone. The total export exceeds 1000 cwt., 
 most of which comes to Great Britain. The price varies 
 according to quality, from £4 to £9 : 10s. per cwt. Barbadoes 
 aloes has a dark or liver-brown colour ; a brown, opaque, 
 earthy fracture ; a disagreeable, bitter, persistent taste, and a 
 strong and disagreeable odour, especially when breathed upon 
 — an odour generally likened to that of the human axilla. It 
 is tough, hard, and difficult to pulverise ; small fragments are 
 translucent, and of an orange-brown hue ; its powder is olive- 
 green, and darker than that of the other commercial varieties. 
 The dark colour, dulness, and opacity of Barbadoes aloes are 
 generally stated to depend upon the presence of water, but may 
 also be OAving to the condition of the aloin. When dis- 
 solved in weak spirits it leaves an abundant flocculent residue. 
 East Indian, Bombay, or Zanzibar Aloes, is brought from 
 Arabia, and the coasts of the Eed Sea and Persian Gulf, to 
 Bombay and other Indian ports, and thence exported to Europe. 
 It is supposed to be obtained from the Aloe Socotrina, and per- 
 haps from other undetermined species. The manner of ex- 
 traction and purifying is unknown. It comes to the London 
 market in kegs, tin-lined boxes holding 56 lbs., or in skins, of 
 which several are packed into casks or firkins. The quality 
 
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EAST INDIAN AND SOCOTRINE. 135 
 
 and appearance of East Indian aloes are very variable. When 
 of good quality it has a brown-red colour ; in small fragments 
 is red, sparkling, and tolerably transparent ; its powder is 
 reddish brown ; its fracture more shining, and its odour less 
 disagreeable than that of either Barbadoes or Gape aloes ; its 
 taste, like that of all the varieties, is bitter and nauseous. 
 Spirit of the strength of sherry does not fuUy dissolve it, 
 but leaves a fleecy residue. Aloes native to India is mostly 
 of inferior quality, and is rarely exported. Hepatic aloes is 
 the name usually given to a second-rate opaque, liver-coloured. 
 East Indian aloes. A variety termed Mocha aloes, occasionally 
 met with in drug warehouses, is dark-coloured, fetid, and of 
 inferior quality. 
 
 SocoTEiNE Aloes {AM Socotrina) is of very fine quality, 
 comes in quantities of a few tons annually from the islands of 
 Socotra and Madagascar, is understood to be the produce of 
 the Aloe Socotrina, and is imported in skins, kegs, casks, and 
 chests. The juice is aUowed to exude spontaneously, or with 
 only gentle pressure, from the freshly-separated leaves, and is 
 then evaporated by exposure to the heat of the sun. Sir 
 Eobert Christison and other good authorities are of opinion that 
 much of the aloes sold as Socotrine consists either of selected 
 portions of East Indian aloes, or of a purified extract of that 
 variety. According to Christison and Pereira, Socotrine aloes 
 occurs in red-brown pieces, of variable size, and of a garnet-red 
 translucency when thin. Its fracture is generally smooth, 
 glassy, and conchoidal, but occasionally rough, and resembling 
 that of a tear of myrrL It has a fragrant agreeable odour, 
 which is increased if the specimen be breathed upon or heated. 
 It is brittle and easily reduced to powder, which is of a golden- 
 yeUow colour, and almost entirely soluble in spirit of the 
 specific gravity "950, the strength of sherry. It is generally 
 quoted at from £6 to £13 per cwt. From East Indian it is 
 distinguished by its redder colour, greater lustre, transparency, 
 and solubility. ' The finer varieties of Socotrine aloes are some- 
 times called aloe^ hiimAda, lucida, or clear aloes, which appear 
 also to have been the names applied to varieties now extinct. 
 
 The late Professor Pereira described, in the Pharmaceidieal 
 Journal for April 1852, a soft semi-fluid Socotrine aloes, 
 recently imported in casks containing 6 cwt. by way of Madras. 
 
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136 ' ALOES: 
 
 He considered it to be the raw or unboiled juice of tbe plant, 
 and proposed to call it Socotrine aloe juice. It has the 
 consistence of thin honey, a deep orange colour, the strong 
 fragrant odour of Socotrine aloes, and deposits on standing a 
 small quantity of minute prismatic crystals, analogous with 
 the aloin obtained by Messrs. Smith from Barbadoes aloes. 
 
 Cape Aloes (Aloe Capensis) is brought from the Cape of 
 Good Hope, and is chiefly got from the Aloe ferox, Africana, or 
 spicata, or from hybrids obtained by crossing these and other 
 varieties. "Within the last few years increasing quantities of 
 carefully-prepared gray-brown opaque aloes have been imported 
 from ISTatal in wooden boxes. The extraction of the juice, as 
 described by Mr. Lyell in Ohristison's Dispensatory, begins 
 during September and October. The leaves, cut from the 
 plant close to the stalk, are piled, with the cut ends inwards, 
 on sheep-skins or ox-hides spread in holes dug in the ground. 
 The juice slowly drains out, is evaporated in large caldrons, 
 and exported either in chests or skins — the latter generally 
 containing the better qualities. It is sold at the Cape at 
 from 2ld. to 3-|d. per lb. Cape aloes is often of very inferior 
 quality, being black, opaque, vesicular, and of little activity. 
 Those who have seen its preparation are, however, of opinion 
 that this inferiority is not owing to the species cultivated, to 
 the climate or other natural causes, but to carelessness in the 
 extraction and evaporation of the juice, and especially to the 
 commencement of operations before the termination of the wet 
 season. Although sold at less than half the price of average 
 samples of Barbadoes aloes, it is little, if at all, inferior to 
 them, or to East Indian. Mr. Joseph Gamgee, after comparative 
 experiments, declares a preference for Cape, and adds that, side 
 by side with Barbadoes, it causes equally copious but less 
 watery discharges, whilst its action was not quite so long 
 kept up. — {Veterinarian, April 1856.) The better qualities 
 have a dark-brown or olive-green resinous appearance, a com- 
 pact structure, a vitreous, conchoidal, dark-green fracture, and a 
 strong and rather disagreeable sour odour. They are very 
 brittle, and easily reduced to a powder of a gamboge-yeUow 
 colour. 
 
 Caballine or Hoese Aloes is inferior to the varieties pre- 
 viously noticed, and often consists of the residue or sediment 
 
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PROPERTIES AND COMPOSITION. 137 
 
 left from the purification of more valuable sorts. It varies 
 considerably in colour, opacity, and general appearance ; is 
 black, vesicular, and bitununous, and wants the compact struc- 
 ture of the better Mnds ; has a strong and disagreeably fetid 
 odour; usually contains a quantity of such impurities as 
 straw, bark, stones, and sand ; and should be discarded from 
 veterinary practice. 
 
 Properties. — Aloes is the inspissated concrete juice of the 
 leaves of certain species of aloe. The several varieties, although 
 varying in special characters, are amorphous, waxy, somewhat 
 resinous, with a specific gravity when dried of 1-364, are 
 rather brittle, their external surface duller and darker than a 
 freshly-made fracture, with an intensely bitter and persistent 
 taste, and a strong and more or less disagreeable odour, always 
 much increased .when the specimen is breathed on or heated. 
 "When held in the hand for some minutes aloes softens and 
 becomes adhesive. At a low red heat it is partially fused, 
 froths up, chars, and burns. Exposure to temperatures exceed- 
 ing 150° alters its composition and impairs its purgative property. 
 It is almost entirely soluble in boiling water, which, however, 
 deposits, as it cools, from 60 to 80 per cent of a brown sub- 
 stance, the so-caUed resin of aloes. Most specimens are entirely 
 soluble in prodf spirit. The watery and alcoholic solutions of 
 the several commercial varieties vary somewhat in colour, those 
 of Cape aloes having the lightest colour', those of Barbadoes the 
 darkest. The watery solution, when cold, reddens litmus, is 
 deepened in colour by alkalies, blackened by iron sesquichloride, 
 and yields a yellow-gray precipitate with lead acetate. 
 
 Composition. — The Messrs. T. and H. Smith of Edinburgh, 
 who have thoroughly investigated the composition of aloes, 
 have isolated from 25 to 30 per cent of an active, yellow, 
 crystalline, neutral bitter principle — aloin, which is noticed 
 more in detail at the ehd of this article ; about the same pro- 
 portion of an equally active, soluble, uncrystaUisable aloin into 
 which the crystaUisable form is convertible by heat, much in 
 the same way as uncrystaUisable treacle is formed during 
 the careless manufacture of crystaUisable cane sugar. A 
 pale-yeUow, mobile, mint-flavoured volatile oil, of which an 
 otince only is obtained from 400 lbs. of aloes, imparts its 
 characteristic odour. Besides mineral matters and albumin, 
 
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138 ALOES 
 
 aloes further contains about 3 per cent of a transparent brown 
 resin, deposited from hot watery decoctions, seven-eighths of 
 which is soluble in rectified spirit. This resin occurs in 
 unusual amount in inferior samples, being formed at the 
 expense of the aloin usually by exposure of the juice duriag 
 inspissation to high temperatures, and has been found by Dr. 
 William Craig of Edinburgh to possess little, if any, purgative 
 activity. Recent investigations fail to discover the aloesic and 
 gallic acids which iigured in older analyses. 
 
 Impurities. — The adulteration of aloes is chiefly confined to 
 the substitution of one variety for another, or to the mixture 
 of an inferior with a more valuable sort. Such frauds may in 
 general be detected by a knowledge of the characters of the 
 several varieties, and especially by noting their colour, lustre, 
 odour, and solubility. The admixture of stones, earth, straw, 
 and the like, must be detected by close- inspection. 
 
 Actions and Uses. — Considerable doses are purgative ; 
 repeated small doses, insufficient sensibly to increase the action 
 of the bowels, are tonie ; applied externally it is stimulant and 
 desiccant. 
 
 General Actions. — Aloes in the solid form, when given by 
 the mouth, is emulsified and saponified chiefly by the bile and 
 pancreatic fluids, and then in great part absorbed. The rapidity 
 with which a properly compounded ball is dissolved in the 
 horse's stomach is shown by an iuteresting experiment made by 
 Mr. Joseph Gamgee sen. Seven drachms of Cape aloes made 
 into a ball with sixty minims of glycerin, and roUed in white 
 tissue paper, were given to a horse, which, thirty-three minutes 
 later, was killed by dividing the carotid artery. When examina- 
 tion was made an hour after the ball was entirely dissolved, a 
 distinct odour of aloes was foimd in the stomach and duodenum, 
 but had not extended to the large intestines. Aloes has not 
 as yet been detected in the blood; but its disappearance 
 from the part to which it is applied, its impregnating the 
 milk and other secretions, and its frequently acting on the 
 kidneys, are certain evidences of its entering the circulation. 
 Being a foreign matter, it is, however, speedily excreted. In- 
 soluble ia air, it is not removable by the skdn or lungs ; in 
 full medicinal doses it is not easily separable by the kidneys ; 
 but is specially attracted to the glandular apparatus covering 
 
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PURGATIVE AND TOKIC. 139 
 
 the intestinal mucous membrane, induces there irritation and 
 copious secretion, along with which it is poured iato the canal, 
 and especially, it is believed, into its more posterior parts. The 
 increased peristaltic motion so obvious during the operation of 
 aloes, and which so much enhances its purgative effect, is a 
 reflex action depending on the irritation excited during the 
 solution, absorption, and subsequent excretion of the drug. 
 The augmented secretions render the fseces fluid, whilst the 
 increased peristaltic motion accelerates their discharge. 
 
 Compared with some other purgatives, aloes is rather tardy 
 in its action, and apt to be uncertain when the bowels are 
 irregular or loaded with hard dry food. It is, however, a safe 
 and sure purgative for horses. Unlite many other cathartics, and 
 excepting in inflammation of the ahinentary mucous membrane, it 
 is not in large amount an irritant poison. Unless given in very 
 large doses, it does not render the dejections so fluid as saline 
 purgatives, but appears to increase in greater degree the peri- 
 staltic movements. Aloes is believed specially to increase the 
 secretion of bUe. Professor Eutherford introduced aloes into the 
 duodenum of a fasting dog, and found that although only slight 
 purgation ensued, all the bile constituents were increased. It 
 is said to produce evacuations which possess a peculiar dis- 
 agreeable odour (Hertwig). The cathartic action of aloes, Kke 
 that of all true purgatives, is produced with nearly equal 
 facility by whatever channel it finds access to the blood ; by 
 placing the aloes in sufficient quantity in the areolar tissue, 
 applying it to any mucous membrane or other absorbing surface, 
 or injecting it in solution into the veins. Six drachms of 
 Barbadoes aloes, dissolved in twenty-four ounces of water, and 
 injected into the jugular vein of a horse, caused nausea, 
 frequent straining and efforts to dung, colic — which, however, 
 was only of short duration — and after twelve hours purgation. 
 When injected into the veins, it sometimes acts on the kidneys . 
 rather than the bowels. Moiroud injected four drachms, dis- 
 solved in diluted alcohol, into the veins of a horse, and next 
 day eight drachms, dissolved in a similar manner ; but instead 
 of catharsis, observed only diuresis. 
 
 The several varieties of aloes differ somewhat in the degree 
 of their action : Barbadoes is regarded as most energetic. East 
 Indian less so, and Cape the weakest, and most liable to cause 
 
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140 ALOES : 
 
 diuresis. Socotrine is stated ty Pereira to Have the best 
 tonic effect. In veterinary practice, preference has long been 
 given to Barbadoes aloes — perhaps, however, without sufficient 
 reason; for the better qualities of East Indian or Cape, when 
 given in slightly larger doses, are quite as effectual, and have 
 the advantage of being considerably cheaper. The CabaUine 
 and other inferior kinds, being very uncertain and irregular in 
 their composition, should not be used. Every sort is most 
 effective when freshly powdered ; and hence, except for 
 immediate use, should be kept in pieces, preserved from , 
 moisture in oiled silk or in tin canisters. A temperature 
 approaching 160°, applied, whether in the extraction of the 
 juice, or in making it up for use, impairs the activity of aloes 
 by converting the active aloin iato inert resin. The purgative 
 effect is materially accelerated and increased by giving it in 
 solution, and also to a lesser degree by combining it with iron 
 sulphate, vegetable tonics, or bitters. The irritant effect on 
 the rectum, sometimes an objection to its use, especially in the 
 dog, may be mitigated by giving it in solution, and prevented 
 by combining it with other purgatives. 
 
 In the horse, a cathartic dose of aloes generally causes in 
 a few hours dryness and increased warmth of the mouth, an 
 acceleration of one or even two degrees in the animal tempera- 
 ture, a somewhat quickened pulse, and occasionally nausea, 
 colic, and copious secretion , of urine. This diuretic effect 
 occasionally occurs even with good Barbadoes aloes, especially 
 when the bowels have previously been much constipated, or 
 otherwise out of order ; whilst it is stiU. more common with 
 inferior specimens of Cape and other kinds, in which the aloin 
 has been converted into resin. Combination with jalap, 
 calomel, or other such purgatives, usually counteracts this 
 diuretic tendency. Combiaation with ginger or other aromatics, 
 or with hyoscyamus or belladonna, helps to ward off nausea and 
 tenesmus. The time required for the operation of aloes differs 
 much in different horses, and is modified by various circum- 
 stances, especially by the diet upon which the animal has 
 been previously kept. A dose of four to six drachms 
 generally operates in from sixteen to twenty -four' hours. 
 The degree and continuance of the action are also liable to 
 considerable variation. In some horses, the purging is over 
 
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MEDICINAL USES: 141 
 
 in two or three hours; in others, it extends over twenty- 
 four hours. 
 
 In rumiuants, aloes is neither a prompt nor a powerful 
 purgative. When given to cattle, even in the fluid state and 
 in doses of several ounces, it fails to produce copious evacua- 
 tions, such as are obtained in the horse. Hertwig mentions 
 that, in an experiment made at the Veterinary School of Lyons, 
 a cow got six ounces of aloes, partly in solution, partly in 
 electuary ; but although uneasiness and loss of appetite were 
 observed, the bowels remained unmoved. Gilbert also gave six 
 
 . ounces, with an infusion of four ounces of senna leaves, without 
 
 * 
 
 effect. Sheep and goats take doses varying from two drachms 
 to an ounce, without being speedily or certainly purged. This 
 tardiness and uncertainty in the purgative effect of aloes on 
 ruminants mainly depends on the small effect which it has on 
 the stomach and other anterior parts of the alimentary canal ; 
 on its acting particularly on the great intestines, which in 
 Such animals are neither very sensitive nor vascular ; and on 
 its chiefly operating by increasing the peristaltic motions, which 
 are especially difficult to excite in ruminants. 
 
 As a purgative for the dog, when given alone, it is neither 
 so speedy nor so safe as calomel and jalap, or castor oil. It 
 has also the disadvantage of occasionally producing irritation of 
 the rectum ; but this may in great part be overcome by com- 
 bining it with other purgatives. The dose required to purge a _ 
 dog is unusually large as compared with that administered 
 either to the human subject or to the horse. In the case of 
 many medicines, the doses suitable for the dog and for man are 
 very similar ; but in this instance the . dog' requires eight or ten 
 times the quantity given to man. Aloes is a good purge for 
 swine, but usually takes about twelve or fifteen hours ito operate. 
 
 Medicinal vses.— There are few equine ailments in which 
 aloes is not administered. It is given in constipation, indi- 
 gestion, and colic, and for the expulsion from the intestines of 
 concretions, foreign substances, and worms. In obstinate con- 
 stipation it is best used in solution, and along with calomel, 
 frequent clysters, hand-rubbing, and fomentations. In some 
 torpid states of the bowels it is advantageously conjoined with 
 gentian and strychnine. In indigestion it is prescribed in 
 smaller doses, along with or followed by vegetable bitters and 
 
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142 ALOES 
 
 antacids. In the earlier stages of diarrhoea, small doses, con- 
 trolled in their effect by combination with gentian, and occa- 
 sionally with hyoscyamus and opium, prove useful in getting 
 rid of irritants, whether lodged in the bowels or in the blood. 
 As a vermifuge, it should be given after a considerable fast, in 
 the fluid state, and with oil of turpentine ; whilst, in addition 
 to its exhibition by the mouth, a diluted solution injected into 
 the rectum often destroys ascari^es lodged in the lower bowels. 
 For colic in the heavier descriptions of horses. Professor Dick 
 was wont to recommend foxir or five drachms of aloes rubbed 
 down with a quart of hot water, and given with an ounce each 
 of oil of turpentine and laudanum. Many bad coHc cases are 
 relieved by conjoining with the aloes in solution thirty to forty 
 minims of Pharmacopoeia tincture of aconite. When accompanied 
 with abundant evolution of gas, colic is often successfully overcome 
 by giving with the aloes two ounces of ammonia spirit, or an 
 ounce each of medicinal solution of ammonia and ether. In 
 jaundice and congested states of the liver and spleen, aloes is 
 usually selected in preference to other purgatives. In the 
 treatment of febrile attacks in horses, it sometimes supersedes 
 the need of blood-letting and sedative medicines, frequently 
 purging away deleterious matters alike from the bowels and 
 blood. Often a dose of aloes allays the irritation of wounds 
 and lamenesses. It is a valuable auxiliary in the treatment of 
 inflammation of the brain, eye, lungs, pleura, absorbents; and joints, 
 and in these and other such cases owes its ef&cacy to one or 
 other of the following causes : — It clears the intestines of un- 
 digested food and other crudities, which often occasion much 
 uneasiness, and aggravate the original disease ; it removes from 
 the blood many of those noxious matters which have been de- 
 veloped by disease, or accumulated there during its existence ; 
 it establishes extensive counter-irritation, and by reflex action 
 promotes a healthier state of diseased parts. Aloes is usually 
 effectual in removing cedematous enlargements and dropsies, 
 when they do not depend on debOity or disease of important 
 internal organs. Eepeated doses lessen the formation of super- 
 fluous blood and fat, are given both professionally and empiri- 
 cally to promote condition ; an object which is usually, however, 
 more safely and effectually secured by judicious feeding and 
 well-regulated exercise. 
 
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THE BEST PURGE FOE HORSES. 143 
 
 Among cattle and sheep, in constipation and indigestion as 
 well as in febrile and inflammatory complaints, aloes is occa- 
 sionally given ; bnt, as already stated, it is less reliable than for 
 horses. If used for ruminants, it should be combined with 
 salines, gamboge, or croton, and given in the fluid form. For , 
 dogs it is sometimes prescribed ia the same class of cases in 
 which if is given to horses, but is generally superseded by 
 calomel and jalap, or some of the oils, which have the advan- 
 tage of acting more speedily and surely. 
 
 Aloes should be avoided in irritation or inflammation of the 
 alimentary canal, and in piles or haemorrhage from the rectum. In 
 bronchitis and other inflammatory affections of the mucous 
 membranes or skin, in inflammation of the kidneys, and in in- 
 fluenza and typhoid complaints generally, it must be used with 
 great caution, and in very small doses ; for in such cases the 
 intestinal mucous membrane is unusually irritable, and super- 
 purgation and inflammation are readily induced. During preg- 
 nancy, both in the mare and bitch, the violent operation of 
 aloes must be carefully avoided. Some practitioners give it 
 both to foals and calves, but for these young animals linseed or 
 castor oil is more suitable. 
 
 As a tonic, aloes is little used. Like other bitter medicines, 
 it is occasionally prescribed in weakness and relaxation of the 
 digestive apparatus, where there is impaired secretion of bUe, or 
 tendency to the production of intestinal worms. It is some- 
 times applied externally as a gentle stimulant and desiccant, to 
 suppurating wounds and soft flabby granulations, and is an 
 ingredient of the once famous Friars' balsam. (See Benzoin.) 
 
 Doses, etc. — Horses receive Jij. to 3x., the dose depending 
 upon the rapidity and amount of catharsis required. For foals 
 several months old, the dose may be ■ readily ascertained by 
 allowing grs. v. for every week of the patient's age. Cattle 
 take gi to gij. ; sheep, gss. to gi. ; dogs, grains xxx. to 3iss. 
 and swine, 3ij. to 3^. 
 
 As a bitter tonic,, the dose of aloes for any of the domesti- 
 cated anunals is about an eighth or tenth of that given as a 
 purgative. Tonic doses should be adnainistered several times 
 a day, and in combination with atomatics and bitters. A con- 
 venient laxative tonic for the horse is made with two drachms 
 each of aloes, gentian, and ginger, rubbed into a ball with treacle. , 
 
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144 ALOES. 
 
 Another of less laxative effect is prepared with a drachm each 
 of aloes and iron sulphate, and half an ounce of ginger, made up 
 with treacle and linseed meal. Either of these may be repeated 
 daily for improving the tone of the digestive organs, and remov- 
 ing worms. 
 
 In veterinary practice, aloes is generally administered hi the 
 form either of ball or watery solution. A ball for immediate 
 use is made with freshly powdered aloes, mixed with about one- 
 eighth of powdered ginger, and made up with soft soap, lard, 
 or glycerin. The physic mass of the Edinburgh Veterinary 
 College consists of equal weights of Barbadoes aloes and treacle, 
 with two ounces of ginger to every pound of aloes. The addi- 
 tion of ginger,, or some other aromatic, appears to expedite the 
 effect, and diminish nausea and griping. The ingredients are 
 mixed over a slow fire, and constantly stirred until properly 
 melted, great care being taken to prevent the temperature from 
 rising above 120° Eahr. The mass should be /kept in air-tight 
 jars with closely fitting covers — the balls being made up as 
 required. Another good mass, less bulky than the last, is pre- 
 pared by adding to melted aloes about one-fourth of its weight 
 of rectified spirit or oil of turpentine, which is retained by the 
 resinous matter, and keeps the mass long soft and moist. 
 Triturated with strong sulphuric acid, aloes is oxidised, may be 
 made into balls, and is understood to have increased activity. 
 Aloetic balls made with lard, oils, or soap, are only suitable 
 for immediate use, and if kept for any considerable time become 
 dry and hard. This may, however, be temporarily prevented 
 by adding a little glycerin and a few ounces of potassium car- 
 bonate or acetate to every pound of the combination. Twenty 
 grains each of powdered aloes, jalap, ginger, and soap, made into a 
 pOl with a little glycerin, is a good purge for a large dog, and 
 will make two doses for a smaller animal. Of the fluid pre- 
 parations of aloes, the watery infusion is commendable for con- 
 venience and cheapness. The aloes should be rubbed down in 
 hot water, on no account exposed to a boUing temperature, and 
 the solution used freshly prepared. Tincture of aloes may be 
 made of such strength as is most convenient, is best prepared 
 by the old process of digestion, and, though more expensive, 
 keeps better than the watery infusion. Extracts made with the 
 view of removing a portion of the resin have nothing to recom- 
 
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VARIETIES OP ALOIN. 145 
 
 mend them in preference to the crude drug. As a laxative 
 enema, useful also for the removal of ascarides from the lower 
 howels, one or two drachms of aloes are dissolved, with half a 
 drachm of potassium carbonate, in a quart of soap and warm 
 water. 
 
 Aloin.. — During the summer of 1850, Messrs. T. and H. 
 Smith, the weU-known manufacturing chemists, Duke Street, 
 Edinburgh, discovered, first in Barbadoes aloes, and subsecLuently 
 in the other varieties, the peculiar crystalline principle Aloin (C34 
 Hgg Oi4, Hg 0). More recently, Dr. Fliickiger obtained from Natal 
 aloes 16 io 25 per cent of an active sparingly soluble principle, 
 crystallisable in thin rectangular scales, closely allied to Messrs. 
 Smith's Barbaloin, and to which he gives the name Nataloin 
 (Cjj H2g Oil). Still more recently an allied active neutral 
 principle, more soluble than Nataloiu, and separable in tufted 
 acicular prisms, has been isolated by Histed, and received the 
 title Socaloin (O34 H33 Ojj, SHg 0). A few particles of these 
 three aloins are distinguished by Histed as follows : — ^A drop 
 of nitric acid produces with Barbaloin a brilliant crimson which 
 rapidly fades ; with Nataloin a brilliant crimson which is per- 
 manent unless heat be applied ; with Socaloin little effect 
 follows. A drop of sidphuric acid similarly applied, and a rod 
 dipped in nitric acid passed over the mixture, has no effect on 
 Barbaloin or Socaloin, but develops with Nataloin a fine blue. 
 Messrs. Smith prepare aloin as follows :* — Barbadoes aloes is 
 powdered with sand to prevent agglutination, macerated in 
 successive quantities of cold water, and the solutions thus 
 obtained mixed and concentrated in vacuo to the consistence of 
 a syrup. This, after being kept in a cool place for two or 
 three days, becomes fiUed with minute brownish-yellow granular 
 crystals of impure aloin, which is purified by drying between 
 folds of bibulous paper, and by repeated solution in hot water, 
 filtration, and crystallisation. Ultimately it is dissolved in hot 
 rectified spirit, from which the pure aloin crystallises in radiat- 
 ing masses of prisms of a pale yellow colour, breaking when in 
 mass with a dull short fracture. Messrs. Smith inform me that 
 the crystals are long, slender, four-sided monoclLaic prisms, 
 having the oblique rhombic prism for the primary form. Pure 
 
 * Paper on Aloin, by Messrs. T. and H. Smitli, in Monthly Journal of Medical 
 Science, Feb'. 1851. 
 
 L 
 
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146 ALOIN 
 
 aloin, or as it shoTild now be specially called, Barbaloin, is odour- 
 less ; its taste, at first slightly sweet, soon becomes intensely 
 and permanently Mtter, and distinctly aloetic. It is entirely 
 combustible, burning with a yellow flame and much smoke. It 
 yields by destructive distiQation an aromatic volatile oil and a 
 resinous residue. It is neutral to test-paper. It is soluble in 
 rectified spirit, but less so in cold water, an ounce of which 
 dissolves about a graia of aloin. The solvent power both of 
 water and alcohol is greatly increased by heat. Barbaloin is 
 also dissolved by acetic acid and alkalies, forming with the 
 latter orange-yeUow solutions, which deepen in colour by oxida- 
 tion. It is insoluble in ether, oil of turpentine, and chloroform. 
 Watery solutions rapidly darken by exposure to air and light ; 
 and when heated above 150°, the aloia is oxidised, decomposed, 
 and converted into a resiuous substance of little activity. 
 Mtric acid dropped upon the crystals colours them crimson, 
 which, however, quickly gives place to brown-red. Watery 
 solutions of bromine and aloin, when mixed, produce an abun- 
 dant yeUow precipitate. 
 
 Actions and Uses. — For upwards of twenty years aloiu has 
 been used with growing favour ia medical practice, and with 
 some practitioners it has entirely superseded aloes. The dose 
 for an adult is about one grain, or between a fourth and a third 
 of the quantity of Barbadoes aloes usually prescribed. Messrs. 
 T. and H. Smith having liberally supplied me with aloin, I 
 administered drachm doses made up with flour and glyceria 
 to six three-parts-bred carriage horses, four and five years old, 
 15 to 16 hands high, in good health and condition, and pre- 
 pared with only one bran mash given four hours before the 
 aloin. No effect was observable on the ptdse, temperature, 
 appetite, or secretion of urine ; the bowels were relaxed to a 
 sHght extent in two of the animals, when they were exercised 
 twenty-four hours after receiving their ball ; whilst in two of 
 the subjects of experiment fulness and itching about the joints 
 disappeared, although no sensible effect was observed on the 
 bowels. Drachm doses of aloiu conjoined with half an ounce 
 each of gentian and ginger I find serviceable in abating febrile 
 symptoms, and .removing heat and fulness of the limbs in hard- 
 worked or grossly-fed horses. Two drachms of aloin given to 
 strong five and six year old hunters, well prepared by mashes 
 
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A VALUABLE CATHAETIO. 147 
 
 for upwards of . twenty-four hours, caused, in thirteen or four- 
 teen hours, abundant fluid evacuations. Nothing notable was 
 observed as to the pulse or temperature ; there was less dulness 
 and loss of appetite than usually accompany the full action of 
 ordinary physic ; there was no nausea or griping ; the purging 
 usually continued about six or eight hours. In these horses, 
 which were living in the country, it will be noted that the 
 aloin operated several hours earher, without impairment of 
 appetite or spirits, and with the certainty and effect which 
 usually follow six drachms of Barbadoes aloes. 
 
 Mr. Thomas A. Dollar, of New Bond Street, tried aloin on 
 London horses, which are generally more susceptible to the 
 action of physic than country patients. Five carriage horses, 
 1 S-J to 16 hands high, prepared by mashes during two days, 
 received two drachm doses of aloin, made up with ginger and 
 treacle, and were purged with less dulness, nausea, and griping 
 than attend the administration of full doses of aloes. In 
 several cases the purging came on within twelve hours ; full 
 and fluid evacuations occurred ; but there was less prostration 
 and iuterference with appetite than usually attends the action 
 of physic, and the horses were ready to return to work a day 
 sooner. Mr. Dollar further reports that three heavy cart horses 
 received each two and a half drachms aloin, made up with 
 ginger and treacle, and in eighteen hours were as fuUy phy- 
 sicked as if they had got six drachms of good Barbadoes aloes. 
 As in the better bred animals, dulness, nausea, loss of appetite, 
 tenesmus, and diuresis were looked for in vain. Mr. Dollar 
 concludes that, comparing aloin with the crude drug, a little less 
 than half the quantity acts in horses with more certainty, and 
 equal effect. 
 
 On a strong shorthorn cow two drachms dissolved in hot 
 water, and given with an ounce of ginger, exerted only a mildly 
 laxative effect ; , but three drachms operated tolerably freely in 
 twenty hours. Two drachms, with half a pound Epsom salt, 
 acted as rapidly and effectually as 1^ lb Epsom salt. Eng- 
 lish terriers, 20 lbs. in weight, are httle affected by doses of 
 2 grains given in bolus ; even drachm doses had scarcely any 
 effect on pointers and setters ; but when two or three grains 
 of calomel or half a dram of jalap are added, fuU effects occur 
 in six or eight hours. 
 
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148 ALUM 
 
 Old and knowing horses familiar with the smell of aloes, 
 and got to swallow it with difficulty, show much less antipathy 
 to the inodorous aloia. Definite and uniform in composition, 
 more concentrated in form, and now offered by the discoverers, 
 Messrs. T. and H. Smith, at a reduced rate, which renders it 
 scarcely more expensive than the best qualities of the crude 
 drug, aloih is likely to come into general use as a cathartic for 
 horses. 
 
 ALUMIlsriUM AND ITS MEDICINAL COMPOUNDS. 
 
 Potash Alum. Axumen. , Aluminium and Potassium Sul- 
 phate. K Al 2SO^ + 12H2 0. 
 Soda Alum. Na Al 2S0^ + I2H2 0. 
 Ammonia Alum. NH^ Al 2S0^ + I2H2 0. 
 
 The alums are a series of double salts in which aluminium 
 sulphate is conjoined with potassium sodium or ammonium sul- 
 phate. They are found in limited quantity on the surface of 
 soUs and rocks, especially in volcanic districts ; and are pre- 
 pared in large amount from aluminous clay, shale, or schist, 
 which mainly consists of aluminium silicate and iron sulphide. 
 Near Paisley^ where alum is extensively manufactured, the 
 schist lies between the coal and limestone strata. When 
 slowly roasted it absorbs oxygen, the sulphur is converted into 
 sulphuric acid, which subsequently unites with the liberated' 
 iron and aluminium. Water is added ; if potash alum is to be 
 made the solution is treated with potassium chloride, obtained 
 as refuse from the soapboilers, saltpetre refineries, and glass 
 houses ; double decomposition results ; iron chloride remains in 
 solution, and potassium sulphate unites with aluminium sul- 
 phate to form potash alum which crystallises, and is further 
 purified by repeated solution and crystallisation. In the north 
 of England the clay schist is calcined, placed ia iron chambers, 
 and sulphuric acid poured over it ; a temperature of 140° is 
 kept up by steam, and ammonia vapour blown into the cham- 
 bers, as well as by fire underneath. The solution is drawn off 
 into coolers, agitated to prevent the formation of large crystals, 
 and the alum flour washed and re-dissolved by steam. To pre- 
 pare soda alum, sodium chloride, instead of potassium chloride, 
 is added to the dissolved iron and aluminium sulphate extracted 
 
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AN ASTRINGENT AND DESICCANT. 149 
 
 from the roasted clay. To produce the corresponding ammonia 
 alum, -which, on account of its cheapness, has generally super- 
 seded the other alums in dyeing, calico-printing, and paper- 
 making, as well as in medicine, ammonia sulphate, the refuse 
 of the gas-works, is added to the roasted lixiviated shale. 
 
 Properties. — The alums occur in transparent, colourless, 
 octahedral crystals, or in crystalline masses, have a sweet, acid- 
 ulous, astringent taste, act Hke acids on colouring matter, and 
 when heated, fuse, and part with their water of crystallisation. 
 They are soluble in less than their own weight of water at 
 212,° and in eighteen times their weight at 60°. Like other 
 aluminium salts, they are distinguished by negative action with 
 hydrogen sulphide ; and white precipitates of aluminium hy- 
 drate with ammonium sulphide, and with caustic ammonia, 
 insoluble in excess, but soluble in caustic soda. Moistened 
 with cobalt solution, and heated in the blowpipe, alum salts 
 develop a blue colour. 
 
 Impurities. — Alums are apt to be contaminated by iron, 
 discoverable by the yellow colour it imparts, and by the blue 
 precipitate it gives with solution of yellow potassium prussiate. 
 But the presence of iron, though rendering alum unfit for dye- 
 ing, does not interfere with its medicinal properties. 
 
 Actions and. Uses. — Alum is shghtly irritant and astrin- 
 gent, and is chiefly used externally as an astringent styptic 
 and desiccant. One or two ounces given to dogs cause vomit- 
 ing. But when the oesophagus was tied, so as to prevent 
 vomiting, Orfila found that two ounces occasioned death in five 
 houis, with great exhaustion and diminished sensibility; in- 
 flammation was discovered throughout nearly the whole extent 
 of the intestines. Devergie (quoted by Pereira) found that 
 four, drachms of burnt alum killed a dog when the gullet was 
 tied, whereas in ordinary circumstances two ounces were re- 
 quired to produce that effect. An ounce introduced into the 
 areolar tissue of a dog's thigh caused excessive suppuration, and 
 dee^th in fifteen hours. Moiroud says that large doses given 
 for some time continuously exhaust the digestive organs, 
 diminish cutaneous transpiration, and produce grave disorders. 
 Bourgelat found it cause phthisis pulmonahs in horses. Several 
 ounces are occasionally given to cows to arrest the lacteal 
 secretion, and although continued for spveral weeks, do not 
 
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150 " ALUM. 
 
 produce any obvious bad effects. Alum is speedily decom- 
 posed ia its passage through the intestines, and is excreted in 
 the faeces, which are rendered firmer and odourless. Overdoses 
 are decomposed and rendered inert by small and repeated doses 
 of sodium carbonate, followed by demulcents. 
 
 Alum closely resembles zinc oxide and acetate, but is 
 scarcely so active. It coagulates the albumin of the mucus 
 and of the tissues themselves ; liberally used, it invests them 
 with a protective covering; iu powder or strong solution it 
 has an affinity for moisture. This primary chemical action is 
 succeeded by, kept up, and extended by a vital astringent 
 action. The soft animal tissues are constringed, the calibre of 
 their blood-vessels lessened, and secretion arrested. When 
 swallowed, alum becomes absorbed, and these topical astringent 
 effects are developed more or less generally throughout the 
 body ; excessive secretions are dried up, and thirst produced. 
 In diarrhoea and dysentery it is sometimes advantageously 
 combined with opium and vegetable astringents, and alternated 
 with glycerin of tannin. At one time it was given in poly- 
 uria in horses ; but iodine and iron are much more effectual 
 It is still occasionally prescribed ia passive hsemorrhages, and 
 in slow poisoning by lead. Externally, it is used as a mild 
 stimulant and astringent in chronic conjunctivitis, and in many 
 simple injuries of the skin and mucous membranes. In pow- 
 der and strong solution applied several times daily, it abates 
 the irritation and hastens the healing of the blisters and ulcers 
 of mouth and foot complaint. An injection is useful in ozoena, 
 and a gargle in sore throat. With a spray producer, a solu- 
 tion is applied several times daily ia irritable and relaxed sore 
 throat, especially of horses. In powder or strong solution it is 
 used to arrest bleeding, and the flow of synovia from open 
 joints ; for this latter purpose it is miK-ed with two or three 
 parts of wheat flour, and dusted over the opening untU synovia 
 ceases to flow. It should not, however, be used too freely, for 
 although it coagulates albumin, the soothing protectiug coagu- 
 lum is re-dissolved by excess of the alum. 
 
 Doses, etc. — Horses and cattle, 3ij, to 3iv. ; sheep and pigs, 
 grs. XX. to 3ij. ; dogs, grs. x. to grs. xx. ; given either as a 
 bolus or in solution. Externally there are used powdered alum 
 or alum flour, a simple watery solution, and an ointment made 
 
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PIPECLAY AND FULLER's EARTH. 151 
 
 with one part of alum to three or four of lard. The burnt or 
 dried alum of the Pharmacopoeia is little used. Alums are ia- 
 compatiMe with alkalies and their carbonates, with lime salts, 
 phosphates, salts of lead and mercury, and tannin-containing 
 bodies. Pipeclay and fuller's earth, both aluminium siHcates, 
 are useful desiccants and nuld astringents, much used for dust- 
 ing over wrung shoulders, harness gaUs, and simple wounds. 
 
 Aluminium Chloride. Chloride of Aluminium. CHLOEiiUM. 
 (AICI3). 
 
 When a mixture ot alumina and charcoal is heated in a 
 current of chlorine gas, the white volatile aluminium chloride 
 is produced. When aluminium sulphate and calcium chloride 
 are dissolved together, double decomposition ensues, and there 
 remaias in solution hydrated aluminium chloride — a colourless 
 oily fluid, with a sweet astringent taste, lately brought into 
 notice by Professor John Gamgee. 
 
 Actions and Uses. — Like many metallic chlorides, chlof alum 
 is corrosive, astringent, tonic, and antiseptic. It has been recom- 
 mended in influenza, typhoid fever, and farcy in horses, in dysen- 
 tery in cattle, and in weakness and nervous disorders in dogs 
 resulting from distemper. Drachm doses suffice for horses or 
 cattle, grains v. to grains x. for dogs. It may be used either in 
 bolus with meal or dissolved in water or gruel. Externally it 
 may be applied for the many astringent purposes for which 
 alum or zinc sulphate are serviceable. As an antiseptic it has 
 been more used on the Continent than in this country. Dr. 
 Angus Smith, in his experiments undertaken for the Cattle 
 Plague Commissioners, found that for the preservation of 
 night-soil chloralum proved inferior to common salt, carbolic and 
 cresylic acids, and zinc and iron chlorides. As a deodoriser it 
 was more effectual than alum, but less effectual than tar oils, 
 sodium sulphite, or bleaching-powder. Not being volatile, it 
 cannot, like carbolic or sulphurous acids, readily diffuse itself 
 through the air, and attack and destroy floating particles of con- 
 tagiunii Poisonous to the lower forms of animal Ufe, a diluted 
 solution is a serviceable dressing for mange and scab, and for 
 killing fleas and ticks. 
 
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152 LIQUOR AMMONIA 
 
 AMMOlSriUM AND ITS MEDICINAL COMPOUNDS. 
 
 Ammonium Htdeate. Ammonia. Caustic Ammonia. Harts- 
 horn. Spirit of Hartshorn. Aqua or Liquor Ammoniae. 
 Gaseous Anunonia (Hg N) dissolved in water. 
 
 Traces of ammonia exist in the air, in dew, and rain, in 
 some mineral springs, and in the juices of most plants, furnish- 
 ing their nitrogen. It is freely evolved from the putrefaction 
 and destructive distillation of organic matters, and from the 
 bodies of living animals. When water and air are in contract 
 with growing plants nascent hydrogen is believed to be pro- 
 duced, and unites directly with gaseous nitrogen, supplying the 
 ammonia so essential for plant food. {Die. de Mat. Med. 
 Merat and De Lens, i. p. 255.) But the coal beds are the 
 great commercial source of ammonia and its compounds. The 
 waste liquor of the gas-works yields ammonia chloride or 
 sal-ammoniac, from which the other salts are got. When three 
 parts coarsely powdered sal-ammoniac are triturated with four 
 of dry slaked lime, the mixture transferred to large retorts, 
 and gradually increasing heat applied, ammonia gas is evolved, 
 and conducted into receivers containing water, in which it is so 
 freely dissolved, that one volume at 60° absorbs upwards of 
 700 volumes of gaseous ammonia. 
 
 Properties. — The strong solution of ammonia (liquor 
 ammoniae fortior) is a colourless, pungent, caustic fluid, consist- 
 ing of 32-5 per cent of gaseous ammonia (Hg N) dissolved in 
 water. Its specific gravity is 0'891 ; 52'3 grains by weight 
 require for neutralisation 1000 grain measures of the volumetric 
 solution of oxalic acid. One fluid drachm contains 15"83 
 grains of gaseous ammonia. {British PTmrrriaccypceia) Purity is 
 ensured when the sample, diluted with four times its volume 
 of distUled water, does not give precipitates with solution of 
 lime, ammonium sulphide or copper ammonio-sulphate, and 
 when treated with an excess of nitric acid, is not rendered 
 turbid by silver nitrate, or by barium chloride. {British 
 Fharmacopma). Unless kept in closely stoppered bottles, it soon 
 increases in density from escape of gaseous ammonia and 
 absorption of carbonic acid. By a sort of catalytic action it 
 prevents and arrests oxidation, and destroys the lower forms 
 
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AN IRRITANT AND STIMULANT. 153 
 
 of organised life, thus acting as an antiseptic. It has strong 
 alkaline reactions ; forms crystallisable salts ; unites with fats 
 and oils, forming soaps and liniments. Heated in a small plain 
 retort, it evolves anhydrous ammonia (Hg W), a colourless, 
 irritant, irrespirable gas, with the pungent odour and taste of 
 the solution. 
 
 The volatile gaseous ammonia exposed to a temperature of 
 -40° condenses into a clear liquid, which at -103° becomes a 
 white crystalline solid. , This ready volatility and liquefaction 
 is taken advantage of ia Carry's freezing apparatus, in which a 
 concentrated solution of ammonia is heated in a strong boiler, 
 passes along a pipe into a hoUow receiver, where it liquefies by 
 its own pressure. Whenever the boiler is removed from the 
 fire, and cooled in water, the liquid ammonia volatilises, rushes 
 back to the boiler, abstracting so much heat that water placed 
 in the cavity of the receiver is congealed. The volatile gaseous 
 ammonia passing back to the boiler, the process is repeated 
 indefinitely. This system of ice-making has recently been 
 successfully used in the preservation of fresh meat brought 
 from America. 
 
 The strong ammonia, or aqua ammonise fortior, is too con- 
 centrated for most medicinal and pharmaceutical purposes, and 
 a weaker solution is made by adding two measures of water to 
 one of the stronger ammonia. This diluted solution has the 
 density '959, and contains 10 per cent by weight of gaseous 
 ammonia. 
 
 Actions and Uses. — ^Ammonia,~in its gaseous state, is irri- 
 tant ; if respired, it violently inflames the throat and bronchi ; 
 in concentrated solution it is a,n irritant caustic poison; in 
 medicinal doses it is stimulant, antispasmodic, antacid, antiseptic, 
 diaphoretic, and diuretic ; applied externally it is irritant and 
 vesicant. 
 
 Hertwig found that half an ounce of the strong solution 
 had no bad effects on horses, but that one ounce proved fatal 
 in sixteen hours, and three ounces in fifty minutes ; the latter 
 quantity causing violent cramps and difficulty of breathing. 
 Half a drachm introduced into the stomach, and secured by 
 tying the oesophagus, destroyed a dog in twenty-four hours, 
 causing much uneasiness, agitation, and stupor, and leaving 
 after death slight redness of the villous coat of the stomach 
 
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154 LIQUOE AMMONIA 
 
 (Orfila). When injected into the veins, ammonia causes spasms, 
 convulsions, and death, which usually occurs within a few 
 minutes, and depends, according to Mr. Blake, on sudden 
 arrest of the action of the heart. The most effectual antidotes 
 are vinegar and other diluted acids, with diluents and demul- 
 cents. In tolerably concentrated form, whether swallowed 
 or inhaled, it probably operates by reflex action, and acting on 
 the sympathetic ganglia, stimulates especially the heart and 
 general capillary circulation. As a stomach and general 
 antacid, it is not so permanent and effectual as potash or 
 soda. Eemarkably diffusible, and rapidly absorbed, full medi- 
 cinal doses probably enter the blood in a free state, or only 
 very partially neutralised by the acid gastric juice. They 
 specially stimulate the heart ; controlling and arresting irregular 
 or inordinate ' nervous force, they act as antispasmodics ; pre- 
 serving putrescible materials out of the body, they probably 
 exert a similar antiseptic effect in various blood disorders ; pre- 
 venting oxidation, they may further retard wasteful tissue- 
 degeneration ; stimulating the several channels by which they 
 are excreted from the body, they increase the secretions of the 
 lungs, skin, and kidneys, and in so doing aid in the removal of 
 waste or poisonous matters from the body. The effects of 
 ammonia, although readily and tolerably uniformly produced 
 in all classes of animals, are transient. Ammonia .compounds 
 differ from alcohol and ether in acting more particularly on the 
 ganglionic system and the spinal cord, and exerting no direct 
 effect on the brain proper. Applied externally, with brisk 
 infriction, strong ammonia promptly produces redness, vesica- 
 tion, and even sloughing, but has not such a destructive action 
 on the tissues as the fixed alkalies. 
 
 Medicinal Uses. — ^Ammonia is beneficial in influenza, 
 scarlatina, purpura, chronic bronchitis, and pneumonia : wher- 
 ever, indeed, there is failure of the heart's action, cold extre- 
 mities, or sudden depression of the vital powers. It relieves 
 congestion of the limgs brought on by over-exertion or ex- 
 posure. For aU such purposes it may be both inhaled and 
 swallowed. When given by the mouth it is usually conjoined 
 with alcoholic stimulants. In chronic bronchitis, particularly 
 in horses, ammonia inhalations, besides acting as general stimu- 
 lants, lessen over-abundant secretion, but great care must be 
 
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STIMULANT, ANTISPASMODIC, AND ANTACID. 155 
 
 taken that tlie pungent gas is not used too freely or too con- 
 centrated. In indigestion, hoven, and tympanitis, its twofold 
 action as a stimulant and antacid render it especially useful. 
 Controlling irregular or inordinate nervous force, it coijnteracts 
 the spasms of colic, and epilepsy, and in the latter disease may 
 be given by the mouth as well as cautiously iuhaled. It is a 
 valuable antidote in poisoning by prussic acid, opium, tobacco, 
 and other sedatives. A few drops are sometimes added to 
 emetics to increase their activity and lessen their depressing 
 effects. It is used both internally and externally in the treat- 
 ment of snake bites, but its success is uncertain. Diluted 
 solutions, by neutralising the formic acid, abate the irritation 
 .induced by stings of wasps, and bites of gnats, spiders, and 
 other insects. . Mixed with oil or other bland fluid, it is applied 
 as a counter-irritant in sore throat and bronchitis, rheumatism, , 
 and chronic joint disease of cattle. As an external stimulant 
 it acts very rapidly, has no tendency to irritate the urinary 
 organs, and is used either alone or in conjunction with cantha- 
 rides, mustard, or turpentine. It is an effective antiseptic; 
 meat bottled with a little ammonia gas may be preserved un- 
 changed for a month, slightly darkened in colour, but exhibit- 
 ing little pungency or unpleasant flavour. 
 
 Doses, etc. — Of the strong ammonia, as a diffusible stimulant 
 and antispasmodic, horses take f3ij. to f3vi. ; cattle, f3ij. to f3x.; 
 sheep and pigs, f3j.; and dogs TTLv. to ttlxu. 
 
 The medicinal solution being half the strength is given in 
 double these doses. Prompt but transient in their action, 
 ammonia preparations require to be given repeatedly, at intervals 
 of two or three hours ; on account of their pungency, they must 
 be largely diluted with water, or, better stOl, with cold gruel or 
 mucilage. A useful stimulant draught, either for horses or 
 cattle, may be made with half an ounce each of medicinal 
 ammonia, sweet spirit of nitre, and tincture of gentian, given in 
 a quart of aile or of cold gruel. For cohc and indigestion in 
 horses, Mr. Greaves of Manchester recommends a draught com- 
 posed of half an ounce of medicinal ammonia, with four or five 
 drachms of aloes given in water. Gaseous ammonia, or the strong 
 solution, dissolved in rectified spirit, is recognised as spirit of 
 ammonia, and proves a prompt and powerful stimidant and 
 antispasmodic. For external application, ammonia is used alone, 
 
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156 ' AMMONIUM CARBONATE 
 
 but more frequently along with turpentine or oils. A convenient 
 stimulating lumnent is made with one part each of ammonia, 
 oil of turpentine, and water, mixed with four parts of linseed 
 oil. A drachm of strong ammonia solution mixed with half a 
 pint of soap liniment is a useful stimulant for sore throat. 
 
 Ammonium Carbonate. Carbonate of Ammonia. Ammonise 
 Sesquicarbonas. Hartshorn Salt. Smelling Salts. 
 
 Professor Eose of Berlin has described twelve ammonium 
 carbonates. The commercial and Pharmacopcsia carbonate is 
 best prepared by heating about one part of either ammonium chlo- 
 ride or of sulphate with two parts of chalk. Mutual decomposi- 
 tion occurs, free ammonia and water escape, the insoluble calcium 
 salt remains, and the resulting sesquicarbonate consists of two 
 equivalents of ammonium oxide and three equivalents of car- 
 bonic acid 2 (H^ N) 0, SCOj. It occurs in white, translucent, 
 fibrous, crystalline, concavo-convex cakes, the shape of the 
 receivers in which it is condensed. It has a pungent alkaline 
 taste, and a strong ammoniacal odour ; is soluble in four parts 
 of cold water and rather less of tepid water ; dissolves sparingly 
 in alcohol constituting sal volatile ; decomposes in boiUng 
 water with evolution of ammonia and carbonic acid ; sublimes 
 when heated ; and when exposed to the air becomes opaque, 
 friable, and covered with a white powder of bicarbonate. It is 
 little liable to adulteration. 
 
 Actions and Uses. — The carbonate closely resembles 
 ammonia hydrate, but is less irritant. It is sufficiently active, 
 however, to produce in small animals the same peculiar irritant 
 poisoning. Orfila records that two and a half drachms given 
 to a dog caused gastric inflammation, tetanic convulsions, and 
 death. For all classes of patients it is a most convenient 
 ammoniacal compound, and is employed often advantageously 
 conjoiaed with alcohol, in influenza, scarlatina, and erysipelas ; 
 in the second stages of inflammatory complaints, and in conva- 
 lescence from debilitating diseases. To maintain the flagging 
 vital powers. Professor Williams recommends it in bolus in the 
 puerperal apoplexy of cows. It frequently averts epileptic fits 
 in weakly dogs. 
 
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A STIMULANT AND ANTISPASMODIC. 157 
 
 looses, etc. — Horses take 3ij. to 3iv. ; cattle, 3iij. to 3vj. ; 
 sheep and pigs, grs. xv. to grs. Ix. ; dogs, grs. iij. to grs. viij. It 
 is given either in a bolus with linseed meal, or, better stiU, dis- 
 solved in gruel, which, to prevent the ammonia being volatilised, 
 must be used cold. Where prompt stimulant and restora- 
 tive effects are required, ammonium carbonate is frequently con- 
 joined with alcohol, ether, or sweet spirit of nitre ; whilst in 
 chronic ailments it is advantageously united with gentian, ginger, 
 oak-bark, or other tonics. The aromatic and fetid spirits of 
 ammonia of the Pharmacopoeia are not needed in veterinary 
 practice. The best smelling salts are made by adding to the 
 sesquicarbonate half its weight of strong ammonia solution, 
 adding some aromatic oU, as that of bergamot or lavender. 
 
 Ammonium Chloeide. Sal-ammoniac. Chloride of Ammonium. 
 Muriate or Hydrochlorate of Ammonia. (H^ N CL) 
 
 This salt, from which most of the other ammonium com- 
 pounds are procured, is chiefly prepared from the ammoniacal 
 liquor of the gas-works, by treating it with diluted hydrochloric 
 acid, or in some manufactories with common salt or impure 
 calcium chloride. The solution, when slowly evaporated, yields 
 brown crystals of chloride, which are dried, exposed for eight or 
 nine days to a gentle heat in iron pots covered with leaden 
 domes, in the interior of which the salt is sublimed in large 
 hemispherical cakes. Thus prepared, the chloride is colourless 
 and translucent, and of a tough and fibrous structure. It is 
 devoid of odour, and has a saline acid taste, and a slightly acid 
 reaction on colouring matter ; is soluble ia about .one part of 
 boiling, and three of temperate, water. During solution it ab- 
 stracts much heat, and is consequently an ingredient of many 
 freezing mixtures. When heated, it sublimes unchanged. 
 Mixed with lime or potash it evolves ammonia. 
 
 Actions and Uses. — Large doses are irritant, and, like other 
 ammoniacal salts, produce peculiar remote symptoms, believed 
 to depend on some special action on the sjTnpathetic or spinal 
 cord. Two ounces given to a horse caused muco-enteritis 
 (Moiroud) ; two drachms destroyed a small dog in an hour 
 (Orfila). The symptoms described as occurring in dogs are 
 " muscular weakness, slow breathing, violent action of the heart. 
 
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158 LIQTJOE AMMONIA ACBTATIS 
 
 and tetanic spasms" (Christison on Poisons). Like other 
 ammoniacal compounds it is stimiolant, diaphoretic, and diuretic. 
 It stimulates the action of the heart and the secreting organs, 
 exerts probably some solreht effect on albuminoids, diminishes 
 solid matters in the. urine, and proves of service in the second 
 stages of inflammation. Being less actively stimulant, it may 
 be used in cases where the liquor ammonise and carbonates are 
 unsuitable. For such purposes it deserves to be more extensively 
 used, and may be giv^n in the same, or slightly larger, doses 
 than the carbonate. Dissolved in water or spirits, it is a 
 favourite application for inflammatory swellings, bruises, and 
 spraius. A good cooling mixture which will lower the ther- 
 mometer from 50° to 10° Fahr. (Pereira) is made with four 
 ounces each of sal-ammoniac and nitre, dissolved in eight ounces 
 of water. For ordinary purposes six or eight times this amount 
 of water may be used, and care must be taken in applying such 
 freezing mixtures that they do not dangerously reduce the 
 vitality of the part. 
 
 LiQUOE Ammonle Acbtatis. An aqueous solution of ammonium 
 acetate (H N^, C2 Hg O2). Solution of acetate of ammonia. 
 Mindererus spirit. 
 
 A concentrated solution of the deliquescent acrid ammonium 
 acetate is prepared by gradually mixing three and a half fluid 
 ounces of strong solution of ammonia and ten ounces of acetic acid. 
 For medicinal purposes this, strong solution is diluted with five 
 volumes of water ; or it may be made directly by the formula 
 of the British Pharmacopoeia : — Eeduce 3^ ounces of ammonium 
 carbonate to powder, and add it, or a sufficiency, to 1 fluid ounces 
 acetic acid, until a neutral solution is formed; then add 2^ pints 
 of water. The solution is clear and colourless, has a specific gra- 
 vity of 1 "02 2, is nearly odourless, but has a mawkish, unpleasant 
 taste. It is distinguished by the ammoniacal odour developed 
 by admixture of caustic potash, and the acetous odouj produced 
 when treated with sulphuric acid. Diluted or boiled, the 
 medicinal solution should be neutral to test-paper, and give no 
 precipitate with barium chloride, silver nitrate, or hydrogen 
 sulphide. 
 
 Actions and Uses. — Mindererus spirit resembles the other 
 
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A TEBRIFUaE AND BIAPHORETIC. 159 
 
 ammonia salts. Although not such an active stimulant as the 
 medicinal solution of ammonia or the carbonate, it is more cer- 
 tain as a diaphoretic and diuretic, and proves a valuable febri- 
 fuge. For horses or cattle fgij. to f§iv. ; and for dogs fgij. to 
 f3iv, are prescribed in water, spirits, ale, or cold gruel. In 
 febrile or inflammatory attacks, a couple of ounces are often given 
 to horses, in combination pf two or three ounces of Epsom salt 
 and an ounce of potassium chlorate. An ounce each of Min- 
 dererus spirit, potassium chlorate, and gentian, repeated every 
 three hours, abate fever, improve the appetite, and clean the 
 tongue in influenza and other equine typhoid cases. The 
 addition to this febrifuge mixture of half a drachm of extract of 
 belladonna renders it more soothing for cough and sore throats ; 
 the addition of an ounce of sweet spirit of nitre or ether makes 
 it more stimulating. Like the chloride, the solution of the 
 acetate is sometimes used externally as a discutient. 
 
 AMYL NITEITE. 
 
 Amyl Nitris. Nitrite of Amyl (0^ Hu NOJ. 
 
 Amyhc alcohol, potato spirit, or fusel oil (Cg Hjj 0), is cau- 
 tiously heated with sulphuric acid, copper wire, and nitric acid. 
 Amyl nitrite distils over, and when purified by washing with 
 soda and rectification, is a yellow ethereal volatile liquid, with a 
 piue-apple flavour, specific gravity '877, boiling point 205°; in- 
 soluble in water, but miscible in all proportions with alcohol. 
 
 Actions and Uses. — It paralyses the motor tract of the 
 cord and the sympathetic system. It produces similar effects 
 whether inhaled, subcutaneously injected, or swallowed. Eapidly 
 entering the blood, it combuies with its oxygen -carrier, the 
 hsemoglobulin ; absorption and giving off of oxygen are impaired ; 
 the arterial becomes the same colour as the venous blood 
 (Dr. Arthur Gamgee). When dogs or rabbits iahale it, the 
 breathing becomes hurried and panting, the heart's action 
 stronger, probably owing to the sense of impendiag suffocation 
 rousing, by reflex action, the lungs and heart to iucreased effort; 
 but this stage is very transient. Consciousness and sensation 
 continue unaffected, but reflex activity and voluntary power 
 are depressed. From paralysis of the sympathetic and vaso- 
 
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160 ANISEED. 
 
 motor ganglia, and perhaps also owing to direct action on the 
 muscular coat of the arterioles, there occur dilatation of the 
 capillaries and diminution of arterial pressure. These effects 
 and the special impairment of oxidation, explain the notable' 
 diminution of temperature which in dogs amounts to three or 
 four degrees, and in rabbits has reached thirteen degrees (Dr. 
 H. C. Wood, Treatise on Therapeutics). Death results from 
 paralysis of the muscles of respiration. 
 
 It is prescribed in human patients in asthma, angina pectoris, 
 and epilepsy, relieves most descriptions of spasm, has been 
 effectual in tetanus, in experiments with rabbits antagonises 
 strychnine poisoning. It is stated to act better when 
 swallowed or given by subcutaneous injection than when in- 
 haled. Dogs take n\_v. to ttlx. administered in spirit and 
 water. 
 
 ANISE. 
 Feuctus Anisi. Aniseed. Dried fruit of PimpineUa Anisum. 
 Oleum Anisi. Oil of Anise. 
 
 Nat. Ord. — UmbellifersB. Sex. Syst. — Pentandria Digynia. 
 
 The natural family UmbeUiferEe yields many aromatic, car- 
 minative seeds, such as anise, caraway, coriander, and fennel. 
 
 Anise is grown in various islands of the Archipelago, and 
 in Egypt ; but the English market is chiefly supplied from 
 Spain, Germany, and southern Eussia. The anise is a little 
 grayish-brown fruit, about the size of a small oat seed, is 
 covered by minute hairs, encircled with ten light-coloured 
 ridges, containing numerous minute oU-duets, and possessed of 
 an aromatic odour and a sweet pungent taste. Lilie other seeds 
 of this natural family, it may be separated into two symmetrical 
 halves. It may be distinguished from the fruit of the hemlock, 
 for which it has sometimes been mistaken, by its aromatic 
 odour and its smooth encircling ridges. Anise contains gum, 
 a little sugar and resin, with various salts, three per cent of a 
 fixed oU, and about two per cent of a transparent, nearly 
 colourless, volatile oil, which is the active ingredient of the 
 seed, has a strong anise flavoiir, and consists of a stearopten, 
 anethol or anise camphor (Ok, Hjj 0), which solidifies about 
 
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AK AROMATIC STOMACHIC. 161 
 
 50° into radiating white crystals, and a small amount of a 
 fluid hydrocarbon isomeric with oil of turpentine. 
 
 Actions and Uses. — ^Anise is an aromatic stimulant, stomachic 
 and carminative. It is used to relieve indigestion and flatulence, 
 to communicate an agreeable flavqur to many medicines, and to 
 diminish the nauseating and griping effects of purgatives. It 
 was at one time given to females while nursing, in the beKef 
 that it increased the quantity and improved the quality of their 
 milk ; and some veterinarians have thought that it exerts a 
 similar action in cows. 
 
 Doses, etc. — Horses, about §i.; cattle, §i. to §ij.; sheep and 
 swiae, 3ij. to 3iij.; dogs,'grains xx. to grains Iv.; given powdered, 
 repeated several times a day, often conjoined with ginger or 
 other, aromatics, and conveniently administered in ale or in 
 spirit and water. Oil of anise is too expensive for ordiaary 
 purposes as a carminative, but is used as a flavouring ingredient, 
 especially for ball masses, and is useful for destroying lice, 
 especially in pet dogs and other small animals. 
 
 Carraway, cardamoms, coriander, fennel, and fenugreec, re- 
 semble anise in their actions and uses, and may be given in 
 similar doses. Small quantities of these seeds are much used 
 in England amongst feeders of pigs, sheep, and cattle, and 
 amongst waggoners and others, for improving the coat and 
 condition of their horses. Fenugreec especially is highly 
 prized for such purposes, enters into the composition of many 
 " nourishing drinks," and, with ground peas, locust bean, and 
 linseed cake, constitutes the bulk of several much -vaunted 
 .patent " foods." 
 
 ANTIMONY AND ITS MEDICINAL COMPOUNDS. 
 
 Antimony Oxides; Antimonii Oxidum. Oxides of Antimony. 
 
 The liative oxide, found in smaU quantity in Saxony and 
 Hungary, is known as white antimony or flowers of antimony. 
 The medicinal sesqui- or ter-oxide (Sbg O3), often used in painting 
 instead of white lead, is got on the large scale by roasting the 
 sulphide ; but for experiment is more readily prepared by de- 
 composing the chloride with water, and carefully washing the 
 precipitate with water and a solution of an alkaline carbonate, 
 
 M 
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162 ANTIMONY OXIDES AND SULPHIDES. 
 
 to free it from adhering traces of chlorine and hydrochloric acid. 
 The oxide thus purified is a grayish-white, .tasteless, heavy, 
 crystalline powder, iasoluble in water, but soluble in hydro- 
 chloric, tartaric, and acetic acids. It is permanent in air ; fuses at 
 a red heat ; above 212° oxygen is absorbed, and higher oxides 
 are formed. Antimony pentoxide, or antimonic acid (Sbg 0^) 
 is, however, more conveniently obtained by dissolving the 
 metal iu strong nitric acid.. The British Pharmacopoeia imitation 
 of the patent James' Powder is made by mixing thoroughly one 
 ounce of antimony sesquioxide and two ounces of calcium 
 phosphate. 
 
 Actions and Uses. — ^Antimony sesquioxide is chiefly im- 
 portant on account of its employment in the preparation of 
 tartar emetic, which it closely resembles iu its actions and uses. 
 
 Antimony Sulphides. Sulphurets of Antimony. 
 Antimonium Sulphuratum. 
 
 The sulphide (Sbg Sg), the most valuable and abundant ore 
 of antimony, is popularly Imown as gray or black antimony. 
 When purified by fusion, it occurs in dark-gray, metallic, heavy, 
 brittle cakes, or as a heavy, gray-black, crystalline powder, 
 devoid of odour and taste, insoluble ia water, and known as 
 crude antimony. The orange-red sulphurated antimony of the 
 Pharmacopoeia is got by boiling black antimony with caustic soda, 
 neutrahsing the solution with sulphuric acid, and washing the 
 precipitated sulphide, which is mixed with a small but variable 
 amount of oxide, and is represented by the formula, 5 Sbj Sg 
 Sbg Og -I- H2 0. Of the many sulphides at various times used 
 in medicine, the most important are — glass of antimony, a red 
 transparent body, consisting of eight parts of sesquioxide and 
 one of sesquisulphide ; liver of antimony, a double sulphide 
 of antimony and potassium ; Kermes mineral, a red-brown 
 powder containing a variable proportion of sesquioxide and 
 sesquisulphide ; crocus of antimony, a compound of one of 
 sesquioxide and two of sesquisulphide. 
 
 Actions and Uses. — Being uncertain, irregular, and often 
 violent remedies, the antimony sulphides are not now used in 
 human medicine, and should be discarded from veterinary 
 practice. The irregularity of their action probably depends 
 
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ANTIMONY CHLORIDE AND TARTRATE. 163 
 
 in great part on their variable composition and their insolubility 
 in water. They are considered to be alterative and anthel- 
 mintic, and when given' to horses are usually prescribed in 
 doses of one to three drachms, along with sulphur or nitre. 
 They cause emesis in dogs. 
 
 Antimony Terchloeide Solution. Chloride, Terchloride, or 
 Muriate of Antimony. Liq[uor Antimonii Chloridi. Oil 
 or Butter of Antimony, Sb CI3. 
 
 When the native sulphide is boUed with about five times 
 its weight of hydrochloric acid, hydrogen sulphide is evolved, and 
 the chloride remains in solution — a transparent yellow-red 
 liquid, with a specific gravity of 1'47. The colour darkens by 
 exposure, depending upon oxidation of the iron perchloride, 
 which is apt to occur as an impurity. Containing excess of 
 hydrochloric acid, it has an acid reaction^ and fumes on 
 exposure to air. Addition of water separates a white precipitate 
 of oxychloride (Sb CI3, Sbj Og), which, if washed, yields the 
 sesquioxide. The true butter of antimony — a soft, gray, 
 crystalliae, fusible solid — is got by evaporating and then distil- 
 ling the commercial solution. 
 
 Actions and Uses. — Although less used than formerly, the 
 chloride solution is still employed as a caustic for fistulse, 
 ihrushes, canker, and luxuriant granulations ; and is, besides, 
 an especial favourite with many practitioners in foul in the feet 
 of cattle, and foot-rot, the analogous complaint in sheep. 
 Except in cautious hands, it is, however, too energetic for 
 general use ; and as it cannot be diluted with water without 
 undergoing decomposition, it should be mixed with an equal 
 quantity of compound tincture of myrrh. 
 
 Antimony Tartkate. Potassium and Antimony Tartrate. 
 Antimonium Tartaratum. Tartarised Antimony. Tartar 
 Emetic. K Sb 0, C^ H^ 0^ -|- H^ 0. 
 
 Eor the preparation of tartar emetic the native sulphide is 
 converted into chloride by heating with hydrochloric acid ; the 
 chloride is decomposed by water, and the restdting oxide 
 purified, by washing with water and an alkahne carbonate. 
 
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164 TARTAR EMETIC 
 
 With this moist oxide is mixed an equal quantity of cream of 
 tartar and water sufficient to form a paste. To insure complete 
 combination, the mixture is set aside for twenty-four hours ; it 
 is then boiled with water for fifteen minutes, and iUtered ; the 
 clear iiltrate deposits, as it cools, crystals of tartar emetic. In 
 explanation of the last stage of this process, it may be stated 
 that cream of tartar, the acid potassium tartrate, contains the 
 bibasic tartaric acid united with one atom of potassium and one 
 of hydrogen, which, in the above reaction, is displaced by the 
 radical oxide (Sb 0, Eoscoe), leaving the tartrate of antimony 
 and potassium, as expressed by the following formula : — 
 
 K Sb 0, C^H^ Og + HaO. 
 
 Properties. — Tartar emetic is sold as a white powder, and 
 in colourless transparent crystals, short square prisms, of which 
 the ends are triangular facets. Slowly evaporated, rhombic 
 octahedra with striated lateral planes are produced. The 
 crystals become opaque when exposed to the air, and crepitate 
 when heated. Tartar emetic is devoid of odour, and has a 
 sweetish, styptic, metallic taste. It is insoluble in strong 
 alcohol ; sparingly soluble in wine and proof spirit ; in about 
 fifteen parts of water at 60°, and two at 212°. The watery 
 solution reddens Htmus ; spoils if long kept ; is decomposed by 
 strong acids, allcalies, alkaline earths and their carbonates, and 
 consequently by most spring waters, as also by decoctions of 
 cinchona, galls, and other tannin-containing substances. Iron 
 oxide, the most common impurity, communicates to the salt a 
 yellow or brown colour; cream of tartar diminishes its solubility. 
 Purchased in crystals instead of powder, impurities are more 
 readily discoverable. 
 
 Tests. — Tartar emetic is easily identified by its acidulated 
 solution, giving with hydrogen sulphide an orange-red precipi- 
 tate of amorphous antimony sulphide, blackened by heat, and, 
 unlike the arsenicum sulphide, soluble in strong hydrochloric 
 acid. From the solution of the chloride, water precipitates 
 the oxychloride, yielding the oxide by washing. When tartar 
 emetic or other antimony salt occurs in coloured organic 
 solutions, they may be boiled with hydrochloric acid and 
 copper clippings, as in Eeinche's process for separating arsenic. 
 Antimony deposits on the copper slips, which are washed. 
 
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IRRITANT, EMETIC, AND CARDIAC SEDATIVE. 166 
 
 placed in a test tube, and heat applied, when the white oxide 
 slowly volatilises, condenses low down in the tuhe, and, nnhke 
 arsenic oxide, is amorphous, insoluble in water, and unaffected 
 by silver ammonio-nitrate. Another ready method of separat- 
 ing antimony, corresponding to Marsh's arsenic process, is to 
 add to the solution zinc and sulphuric acid, which cause the 
 evolution of antimoniuretted hydrogen (Sb Hg), which may be 
 ignited as it passes from a gas jet. A piece of cold glass or 
 porcelain held in the flame speedily becomes coated with a 
 black mirror of metallic antimony, which may be easily identi- 
 fied by its colour, by ij;s insolubility in a solution of bleaching 
 powder, in which the analogous arsemcum spot is freely soluble, 
 and also by dissolving it in acidulated water, and treating the 
 solution with hydrogen sulphide. 
 
 Actions and Uses. — Tartar emetic is a topical irritant. 
 Applied to the skin it causes redness, pain, the eruption of 
 papules, which shortly become vesicles, and then pustules. 
 In dogs and other carnivora it is an irritant poison, and in 
 medicinal doses an emetic, expectorant, cardiac sedative, and 
 diaphoretic. It is still oceasionaUy prescribed as an alterative 
 and sedative for horses and cattle. In common with other 
 antimonials, with arsenic and phosphorus, full doses repeated 
 for upwards of a week disintegrate the albuminoids, and cause 
 fatty degeneration. (Centralblatt fur die, Med. Wiss., No. 18, 
 1876.) 
 
 General Actions. — It operates very differently on the dif- 
 ferent domestic animals. Dogs, cats, and pigs, are affected 
 much in the same way as men. Vomiting is produced whe- 
 ther the emetic is placed in the areolar textures, injected into 
 the veins, or given by the mouth. When swallowed it irri- 
 tates the stomach and develops those reflex movements (de- 
 scribed under Emetics, p. 42) which, in periods varying from 
 five to thirty minutes, expel the contents of the stomach. But 
 a portion of a medicinal dose is also absorbed, and by a species 
 of affinity is attracted, as when injected directly into the veins, 
 to the vomiting centre of the medulla, which it irritates. 
 Ordinary doses, doubtless, act in both these ways. Like other 
 emetics, it also stimulates the respiratory centre, which lies ia 
 close proximity to the vomiting centre, and hence causes in- 
 creased bronchial secretion — the explanation of the efficacy of 
 
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166 TARTAR EMETIC. 
 
 small doses given to human and canine patients in the dry 
 stages of catarrh and bronchitis. FuU medicinal and poisonous 
 doses, as in emesis, acting on the nervous centres, lessen the 
 frequency and force of the heart's contractions ; arterial pressure 
 is diminished, temperature lowered. The cut-out heart of a 
 frog loses irritability with unusual rapidity when placed in a 
 solution of tartar emetic, showing its direct effect as a cardiac 
 sedative. (Ackermann and Wood.) Dogs left to themselves 
 speedily get rid by vomiting of doses varying from six grains 
 to half an ounce ; but if the gullet be tied so as to prevent 
 vomiting, such doses cause nausea, accelerated and difficult 
 respiration, fluid dejections, intestiaal irritation, and death in a 
 few hours. Dr. Alfred Taylor, in his volume on Poisons, re- 
 cords that three to six grains injected into the jugular vein of 
 dogs cause death in eight or ten hours, with redness and irrita- 
 tion of the alimentary canal, especially of its lower parts. 
 Hertwig mentions that it is not so active in pigs as is gener- 
 ally believed ; that ten to twenty grains cause nausea and 
 vomiting, but act neither very rapidly nor very certainly ; that 
 one drachm ia solution, giv^n to a boar nine months old, caused 
 vomiting, dulness, and uneasiness, which continued for three 
 days ; but that two drachms given to a similar animal killed 
 it within twenty-four hours. 
 
 The continued use of antimonials appears to cause fatty 
 degeneration of internal organs, and the geese in the Duchy of 
 Brunswick, fed for their fatty Hvers, receive daily a portion of 
 antimony oxide (Dr. H. C. Wood.) In poisoning by tartar 
 emetic the post-mortem appearances consist of inflammation of 
 the stomach and intestines, involving usually the rectum, with 
 congestion and inflammation of the lungs. The poison has 
 been detected in the blood and most of the soft tissues, espe-, 
 ciaUy in the liver and kidneys, from the latter of which it is 
 chiefly excreted. When overdoses have been given, efforts are 
 immediately made to get rid of the drug by promoting vomit- 
 ing, by giving warm demulcent drinks ; tannin or oak bark 
 solutions are administered to render any unabsorbed portion 
 insoluble. Messrs. T. and H. Smith advise a mixture of ferric 
 chloride and calcined magnesia ; whilst to abate irritation of 
 the stomach and vomiting centre, morphine and chloral are 
 prescribed. 
 
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NEGATIVE EFFECTS ON HORSES AND CATTLE. 167 
 
 But tartar emetic, althougli notably irritant and emetic ia 
 man and carnivora, exhibits negative effects* when given in 
 medicinal doses to horses, cattle, sheep, or rabbits. - Horses and 
 cattle resist, entirely its emetic action, and are brought under 
 its irritant and cathartic effects only by the administration of 
 three or four ounces given in solution. Quantities of half an 
 ounce have no effect on horses, even when repeated three or four 
 times daily during several days. They do not induce nausea ; 
 they improve rather than iajure the appetite ; they neither 
 augment nor diminish the evacuations, and disturb neither cir- 
 culation nor respiration. These statements, although somewhat 
 at variance with the generally received opiaion, and with the 
 results of various experiments made at Alfort, and reported in 
 the Veterinarian for 1847, are fully borne out by a number of 
 experiments made at the Ediuburgh Veterinary College by the 
 late Mr. Barlow and myself. Some of these experiments are 
 subjoiaed : — 
 
 Case I. — On 9th September 1852, about 10 a.m., a brown mare, 
 unfit for work on account of lameness, with the pulse 38 and respirations 
 7, got three drachms of tartar emetic in a ball made up with treacle and 
 linseed meal. In the evening tlie pulse was unaffected, and the dose was 
 repeated. 
 
 lOth. — The pulse was 40, the respirations 7, appetite good, bowels 
 and kidneys regular. A dose of four drachms was given morning and 
 evening. 
 
 llth. — At 10 A.M. the pulse was 42, respirations 7, appetite and 
 bowels quite normal. Got an ounce in a ball as before. In the evening 
 the pulse was 40, no perceptible nausea, appetite good, bowels and kid- 
 neys regular. Dose of an ounce repeated. 
 
 12th. — In the morning the pulse was 37 J, somewhat weaker than 
 yesterday, but still firm. The appetite was very good, and there was no 
 change in the state of the kidneys or bowels. Got a dose of an ounce. 
 In the evening the pulse was 40, and the patient in other respects as in 
 the morning. Gave an ounce, being five ounces six drachms in four days. 
 
 13th. — ^At 10 A.M. the pulse was 35, the appetite good, and the 
 bowels and kidneys normal About 1 1 a.m. the ^nimal had dropped or 
 lain down, and while lying the pulse was somewhat irregular, varying 
 between 60 and 70. The respirations were quiet. At 12 the animal 
 was lifted, when the pulse fell in a few minutes to 55, and the respira- 
 tions to 6. The appetite still remained very good: Gave ten drachms 
 in the usual way. In the evening the pulse was 40, the same as in the 
 morning, the respirations 6, the appetite and evacuations natural : gave 
 fourteen drachms. 
 
 lith.—10 A.M. No change from last night. Got an ounce; but 
 when having it put over, the animal ran back, and went down. At 1 
 
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168 • TARTAR EMETIC 
 
 she was raised, still continued to eat, and at 1.30 got another dose of 
 an ounce. She remained down all day, and appeared nauseated. The 
 pulse was not quite regular, probably owing to the occasional struggling, 
 but reached about 60 when at its maximum. Eespirations about 12. 
 At 6.30 the animal was stiU eating and drinking, but only sparingly ; 
 was much nauseated, and lying pretty quiet, with the lips much retracted; 
 and the puke 75, and weai. 
 
 I5th. — 10 A.M. Found dead, having taken ten ounces and six 
 drachms of tartar emetic in sis days. Mr. Barlow made the following 
 notes of the post-mortem examination : — The muscular tissue in every 
 part of the body was unusually flaccid, although the rigor mortis was well 
 established. The right lung, which was lowermost as the animal lay, 
 was much congested in its deeper and central parts ; the several margins 
 were comparatively pale ; at the anterior part of the anterior lobe there 
 was much emphysema. The left lung was perfectly healthy, and not at 
 all emphysematous. The bronchial tubes and smaller bronchi in both 
 lungs contained frothy mucus. The pleura and pericardium were in 
 every way healthy. The heart was very large, in consequence of aU its 
 cavities being filled with firmly coagulated blood. At the junction of 
 the villous and cuticular coats, the stomach was much contracted, and 
 exhibited a slight blush, not amounting to redness. The cuticular coat 
 was marked with several indentations, such as are produced by bots ; 
 but in all other respects the stomach was perfectly healthy. The intes- 
 tines were also perfectly healthy, both within and without. The liver 
 was in a state of cirrhosis, such as is often seen in old and worn-out 
 horses. The organs of urination and generation were quite normal. The 
 brain was healthy, but the sub-arachnoid spaces contained a considerable 
 quantity of fluid. 
 
 Case II. — A mare, about 16 hands high, and in good health and 
 condition, got three drachms of tartar emetic daily, in the form of a 
 bolus, for five days, and then four drachms daily for thirteen days, 
 making in all ten ounces and three drachms in eighteen days ; but with- 
 out exhibiting any physiological effect. The animal was destroyed by 
 cutting the carotid artery, but the post-mortem examination discovered 
 nothing at all abnormal. It may be mentioned that, on the twelfth day 
 of experiment, twenty ounces of urine were removed, and found to con- 
 taia a perceptible, but not very large, quantity of antimony. 
 
 Case III. — A black mare, of sound, healthy constitution, took ten 
 ounces and a half of tartar emetic (in doses of four drachms, repeated 
 twice and thrice a day) during ten consecutive days ; yet she was in no 
 way affected by it : her pulse and respiration were scarcely at all altered ; 
 her appetite throughout was voracious ; her evacuations natural in ap- 
 pearance and quantity-: and her condition considerably improved. She 
 was poisoned by a fluid drachm of Fleming's aconite tincture. On dis- 
 section, not a single morbid appearance referrible to the tartar emetic 
 was observed. The stomach and intestines were carefiilly examined, and 
 found " beautifully healthy." 
 
 Case IV. — A healthy, well-bred horse got ten ounces of tartar emetic 
 in solution, and after showing a good deal of nausea, uneasiness, and pain, 
 
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( 
 
 HAS NO SEDATIVE EFFECT ON CATTLE. 169 
 
 died in about six hours. The only notable appearances on post-mortem 
 examination were softness and vascularity of the intestines, analogous to 
 what is seen in patients that have died while affected by diarrhoea. 
 Neither in this nor in any of the other cases were the lungs congested 
 or inflamed, as is said to have occurred in Majendie's experiments. 
 
 These cases, with others of a sinular kind, demonstrate that 
 single doses of tartar emetic, sufficient, if retained in the stomach, 
 to destroy from thirty to forty men, or as many dogs, may be 
 given to horses with impimity; that doses of one to four 
 drachms may be administered to them in the solid form for 
 days, or even weeks, without producing any very obvious phy- 
 siological effects ; and that several drachms, even when given 
 in solution, in which the medicine is certainly more active, fail 
 to depress the action of the heart, or diminish the frec[uency of 
 the respirations. 
 
 Cattle, like horses, take very large doses of tartar emetic 
 without suffering from any of its physiological actions. Hert- 
 wig and Viborg gave quantities varying from two to ten 
 drachms, and Gilbert gave ten drachms in solution — all with- 
 out effect. (Hertwig's Arzndimttellehre) I have repeatedly 
 administered an ounce twice a day to cattle affected by pleuro- 
 pneumonia, and, except in a few cases where purgation occurred, 
 have watched in vain for any evidence of its action. Mr. Bal- 
 four, V.S., Kirkcaldy, informs me that he has given half a 
 pound in solution without any very obvious effects. Sheep 
 are equally insusceptible to the action of tartar emetic. Viborg 
 gave one drachm, and Gilbert three drachms in solution, and 
 four in the solid state, without effect. (Hertwig.) But Gilbert 
 found that four drachms destroyed a one-year-old sheep. The 
 insusceptibility of horses, ruminants, and rabbits to the action 
 of tartar emetic may probably be explained as follows : — their 
 anatomical structure shows that they were not intended to 
 vomit (p. 42) ; the vomiting centre thus being unnecessary is 
 unKkely to be developed ; hence the non-effect of medicines 
 which, in man and camivora, act specially upon it. 
 
 Medicinal Uses. — Tartar emetic, is stOl' occasionally pre- 
 scribed as a sedative and antiphlogistic for horses and cattle, in 
 .febrile complaints, pneumonia, pleurisy, bronchitis, and most 
 local inflammations, except those of the alimentary canal, and 
 is stated to be effectual, especially when the more acute symp- 
 toms are partially subdued by bleeding, or other fitting treat- 
 
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170 TARTAR EMETIC. 
 
 ment. But most intelligent and observant veterinary practi- 
 tioners, both in England and Scotland, have now entirely- 
 abandoned its use amongst horses and cattle, and rightly con- 
 sider it perfectly useless. It appears highly improbable that 
 it can exert any therapeutic effect either in horses or cattle, 
 since ia these animals, as already mentioned, it is devoid of 
 marked physiological action. The curative effects with which 
 it is credited probably mainly result from the effectual 
 medicinal and hygienic remedies with which it is commonly 
 conjoined. Although not possessing any special vermicide 
 action, it is sometimes given with Epsom salt, or other purga- 
 tives, as a vermifuge for horses ; and the mixture is often 
 tolerably effectual, from the smart purgation which tartar 
 emetic induces when given along with a cathartic. In febrile 
 and inflammatory complaints, when combined with other 
 remedies, tartar emetic sometimes hastens their effects ; for it 
 favours vascular relaxation, and thus facilitates their absorption. 
 
 Among dogs, cats, and pigs, when the stomach is to be 
 emptied of undigested food, irritants, or poisons, mustard or 
 zinc sulphate, being more prompt, is preferred. But tartarised 
 antimony is useful as a nauseating emetic at the outset of 
 febrile and inflammatory complaints, relieving engorgement of 
 the stomach, liver, throat, and chest, and causing copious 
 secretion from the respiratory and gastric mucous surfaces. It 
 mitigates the early acute catarrhal symptoms of distemper, 
 checks bilious attacks in pampered dogs, cuts short epilepsy in 
 plethoric patients. Under its influence, carbonic acid and urea 
 are eliminated in increased amount, but whether from increased 
 production, or merely from increased excretion, has not been 
 determined. (Ringer.) 
 
 As an external irritant, it is seldom used. Unless em- 
 ployed with much caution, it is apt to induce painful, deep- 
 seated inflammation, sloughing, and blemishing; and is con- 
 sequently unsuitable either for horses or dogs, Eor cattle, 
 however, it is sometimes applied in chest diseases and chronic 
 rheumatism. Unlike cantharides, it has no tendency to act on 
 the kidneys ; but occasionally it is absorbed, and produces in 
 dogs, cats, and pigs, the same effects which follow its administra- 
 tion by the mouth. 
 
 Doses, etc. — As an alterative and sedative for horses or 
 
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EMETIC AND ALTERATIVE DOSES. 171 
 
 cattle, 3i- to 3iv. are administered tliree or four times daily, 
 either in bolus or solution. As an emetic for dogs or cats, gr. 
 i. to grs. iv., and for pigs, grs. iv. to grs. x. are given in bolus or 
 roUed in a piece of meat, but are most effectual when dissolved 
 ia tepid water. The familiar antimonial wiae is made by dis- 
 solving forty grains tartar emetic in a pint of sherry. Quan- 
 tities of one graia or less, insufficient to produce vomiting, are 
 used in these carnivora as alteratives and antiphlogistics in in- 
 flammatory and febrile complaints. For similar purposes in 
 horses and cattle, tartar emetic was wont to be conjoined with 
 nitre, calomel, Epsom salt, or aloes — the last mixture being 
 with some practitioners a favourite purgative in acute febrile 
 domplaints. One to two grains, with about the same quantity 
 of calomel, or twenty grains of jalap, are sometimes given to 
 strong dogs at the outset of inflammatory complaints. Such a 
 mixture causes vomiting, and subsequently purging, accom- 
 panied by depression. Tartar emetic is used as an external 
 irritant in the form either of saturated watery solution or 
 ointment, which is made with one part of tartar emetic and 
 four of lard, and is sometimes added to ordinary blisters to in- 
 crease their activity. A few grains of tartar emetic are 
 occasionally scattered over Burgundy pitch and other warming 
 plasters. 
 
 AEECA-NUT. 
 
 Arecae Semina. Seeds of Areca Catechu. Betel-nut. 
 Nat. Ord. — PalmacesB. Sex. Syst. — Moncecia Hexandria. 
 
 The catechu or betel-nut palm is a straight, slender tree, 
 forty or fifty feet high, growing on the Coromandel and 
 Malabar coasts, and throughout the warmer parts of Asia. 
 Within a fibrous fruit Hes the hard, ovoid, red-brown seed, of 
 the si2;e and appearance of a nutmeg. When ground, the 
 powder is brown, astringent, and soluble in hot water and 
 spkit. It consists chiefly of tannic, with a little gallic acid, 
 a fixed oil, and a red, insoluble matter. A portion of areca- 
 nut rolled up with a little lime in the aromatic pungent leaf 
 of the Piper betel, constitutes the celebrated betel or paun so 
 extensively chewed in Eastern countries. 
 
 Actions and Uses. — ^Areca-nut is an effective vermifuge. 
 
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172 ARNICA 
 
 especially for dogs, and proves destructive alike to tape and 
 round worms. The bowels should previously be cleared out 
 by any simple laxative, and their further emptiness ensured by 
 several hours' fasting. The parasite, thus starved, gTeedUy 
 swallows the poison prepared for it. Half a nut, ot about 
 sixty grains of the powder, suffices for a pointer. It is con- 
 venient to note Mr. Mayhew's observation, that the dose of 
 the powder is about two grains for every pound of the animal's 
 weight. The nut is always given powdered, and the powder is 
 either made into a bolus, or more commonly given in milk or 
 soup. In a few hours worms are generally discharged. In the 
 Veterinarian for May 1862, Mr. Hanley states that he gave a 
 bitch, which had fasted for twenty-four hours, two drachms of 
 powdered areca-nut in milk. In fifteen minutes she passed a 
 mass of tape- worms, varying in size from one inch to three feet, 
 and numbering forty-three, each being stated to have a perfect 
 head ! Mr. Hanley also records the case of a greyhound bitch, 
 which passed, after the use of the nut, a tape-worm thirteen 
 yards and two feet long. Such rapid riddance of the worms 
 is not, however, always attainable ; and where the symptoms in- 
 dicating their presence remain after one or two doses of the nut 
 have been given, another may still be tried after the interval 
 of a week ; whilst, if the patient be vigorous and the bowels 
 not unduly relaxed, it is advisable, a day or two subsecLuent 
 to the use of the areca-nut, to give a moderate dose of castor oU 
 and turpentine. By thus following up with another medicine 
 the action of the areca-nut, worms that previously appeared 
 immovable will sometimes he speedily and entirely evacuated. 
 
 Doses, etc. — For dogs, grs. xv. to 3ij.; for horses, 3iv. to 3vi., 
 administered in mucilage or milk, to which worms are particu- 
 larly partial. 
 
 ARNICA. 
 
 Arnicse Eadix. Dried rhizome and rootlets of Arnica montana. 
 Collected in the mountainous parts of middle and southern 
 Europe {Brit. Phar.) Leopards' Bane. Mountain Tobacco. 
 
 Nat. Ord. — Oompositae. Sex. Syst. — Syngenesia, Polygamia sequalis. 
 
 Arnica montana is a perennial plant, growing in many of 
 the cooler parts of Europe, Asia, and America, with a hairy 
 
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AN IRRITANT AND STIMULANT. 173 
 
 stem about one foot high, composite yellow flowers, obovate 
 leaves, and a cylmdrical contorted brown root, one to three 
 inches long, two or three lines thick, and marked with the 
 scars of fallen leaves. All parts of the plant have a peculiar 
 aromatic odour, an acrid, peppery, nauseous taste, and contain 
 extractive matter, volatile oil, and an active bitter yellow 
 amorphous principle, arnicin. The flowers, leaves, and root are 
 occasionally used powdered, especially for making poultices ; 
 an infusion is sometimes employed ; but the most common 
 preparation is the tincture, usually made with an ounce of the 
 coarsely powdered root to a pint of proof spirit. 
 
 Actions and Uses. — ^i&nica is irritant and stimulant. Vi- 
 ' borg gave a horse 6 drachms of the infusion of the flowers, and 
 noticed quickening of the pulse and diruesis. In infinitesimal 
 doses it was a favourite homoeopathic remedy before it was tried 
 ' in veterinary practice. In human medicine it has been recom- 
 mended in debility and torpor of the bowels ; but is stated to 
 be inferior to elecampane or serpentary (Eoyle's Mat. Med.) 
 Amongst the lower animals, it has been given as an alterative 
 and stimulant in rheumatism, the secondary stages of pleurisy, 
 weakness of the loins, and muscular strains ; but Mr. Dollar, 
 of New Bond Street, London, has, without benefit, tried it 
 repeatedly in horses suffering both from acute and chronic 
 rheumatism. In the several forms of rheumatic kennel lame- 
 ness in dogs, and in stiffness produced from over-exertion, it 
 has been employed both externally and iaternaUy. 
 
 Externally, arnica is used as a popular healing remedy in 
 strains, bruises, and wounds, and especially in broken knees and 
 sore shoulders. For such purposes an ounce of the tincture is 
 dissolved in twelve to twenty ounces of cold water, and a more 
 effectual lotion is made with a drachm each of arnica tincture 
 and lead acetate diluted with ten or twelve ounces of water. 
 Mr. Dollar uses the following prescription : — 
 
 Tincture of arnica 1 drachm. 
 
 Sulphate of zinc 2 djaohms. 
 
 Water 10 ounces. 
 
 For painful or irritable wounds the tincture may be used 
 with an equal quantity of chloroform, belladonna tincture, or 
 laudanum, diluted with water according to circumstances. 
 
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174 ARSEKIC. 
 
 Along with liberal feeding and tonics, a drop of arnica tincture 
 placed daily within the eyelids is one of the remedies for those 
 troublesome ulcerations of the cornea which affect weakly dogs 
 recovering from distemper. Arnica has, however, been over- 
 estimated, and the healing properties ascribed to it in great 
 part depend on the spirit astringents or even cold water, with 
 which it is generally iised. 
 
 Doses, etc. — Horses take fSiv.to f§i. of the tinpture; cattle, 
 double that quantity ; dogs, TT\_v. to TTLviij., mixed with water, 
 ale, or gruel. 
 
 AESENIC. 
 
 Arsenicum Album. Arsenious Anh5Tide. Arsenious Acid. White 
 Arsenic. Oxide or Sesquioxide of Arsenic. Asg Og. 
 
 Arsenic is present in many ores of iron, tin, cobalt, and sul- 
 phur. Its most common source is the arsenic pyrites (Fe Sg 
 Asa), chiefly obtained from the mines of Silesia and Cornwall, 
 where it is roasted in ovens ; oxidation occurs ; iron oxide and 
 sulphate remain; sulphurous and arsenious acids are conducted 
 into condensing chambers ; the crude arsenious acid, purified 
 by sublimation, yields the arsenious oxide or acid, the white or 
 common arsenic of the shops, much used, not only in medicine, 
 but in the manufacture of glass, colouring matters, and shot. 
 
 Properties. — From being sublimed into conical cast-iron 
 moulds, it is sometimes met with in transparent vitreous con- 
 cavo-convex masses, which gradually become opaque. The 
 more common form is that of a heavy white powder, obtained 
 when the arsenious vapours are condensed in a current of air. 
 This powder, consisting of minute glassy fragments and octa- 
 hedral crystals, has a snow-white lustrous appearance, a specific 
 gravity of 3 '7 3, a slightly sweetish taste, is rough and gritty 
 when between the teeth, and if kept in the mouth for a short 
 time causes irritation. It has no odour. When long kept it 
 loses its transparency, and becomes opaque. Sprinkled on a 
 red-hot shovel, the oxide is decomposed ; the metallic arsenic in 
 vapour gives off a characteristic odour of garlic. Arsenic is 
 very sparingly soluble, either in water or alcohol. A pint of 
 cold water at 6 0° does not take up more than 2 grains ; a pint 
 of boihng water added to arsenic, and allowed to cool, takes up 
 
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CHEMICAL TESTS. liS 
 
 22 grains; but when boiled in water for two or three hours, 
 the ordinary crystalline arsenic is believed to be converted into 
 the vitreous form, and in each pint 219 grains arc dissolved. 
 (Bloxam.) Solubility is diminished by organic matters, but 
 increased by acids, alkalies, and alkaline arsenites. Dissolved 
 with alkalies, definite, mostly soluble, poisonous arsenites are 
 produced (M Asg O3). When the familiar sesqui- or tri-oxide 
 (Asj O3) is acted upon by diluted nitric acid, arsenic pentoxide, 
 or arsenic acid, is produced (Asj O5), which forms a series of 
 arseniates, those of the alkaline metals being soluble, those of 
 the other metals insoluble, but none being such active poisons 
 as the corresponding arsenites. In its properties and alliances 
 with other bodies the metal arsenicum (As) resembles on the 
 one hand phosphorus and nitrogen, and on the other such tri- 
 atomic metals as antimony and bismuth. (Eoscoe,) 
 
 Special Tests. — ^Arsenic is readily discovered — (1) by sublimation pro- 
 ducing the characteristic crystals of sesquioxide ; (^) by reduction develop- 
 ing a distinctive mirror of metallic arsenic, which may be again oxidised ; 
 and (3) by chemical reactions in solution. 
 
 1. A few grains of arsenic, placed in a common test tube, and heated 
 in a spirit lamp flame to about 380°, sublime unchanged, and condense 
 again in the cool part of the tube in shining crystals, which, when exa- 
 mined with a pocket lens, are found to be regular octahedrons, or portions 
 of such octahedrons, exhibiting facets which are equilateral triangles. The 
 corresponding antimony oxide, with which arsenic may be confounded, is 
 less volatile, and condenses slowly in needles low down in the tube. 
 
 2. A mixture of arsenic and dry charcoal, or stiU better, some black 
 flux, which is a mixture of carbon and potassium carbonate, obtained by 
 heating cream of tartar in close vessels, is introduced into a test tube, the 
 size of a crow quill, or into one of those tubes specially made for testing 
 arsenic, and having a narrow neck and small bulb. The mixture being 
 heated to redness, oxygen is abstracted from the arsenic oxide, and metallic 
 arsenicum volatilises as a colourless gas with a strong odour of garlic, and 
 condenses in the narrow part of the tube, forming a brilliant steel-gray in- 
 crustation. This is dark-coloured and smooth externally, and lighter and 
 more crystalline, rough, and shining internally. When the narrow part 
 
 •of the tube is cut out, put into a common test tube, and heated, the 
 arsenicum regains the oxygen it previously lost, and a crust of white 
 arsenic in the characteristic octahedral crystals forms in the cool part of 
 the tube. 
 
 3. When this white crust of sesquioxide is boiled with a little water 
 acidulated with hydrochloric acid, or when arsenic is otherwise in a state 
 of solution, there are three other tests by which it may be readily identi- 
 fied : — (a) Hydrogen sulphide, in an acidulated solution, gives a yellow 
 precipitate of arsenic sulphide (Asj S3) or orpiment. Unlike the only 
 
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176 ARSENIC 
 
 other yellow metallic sulphide, that of cadmium, the arsenic sulphide is 
 soluble in alkaline solutions ; unlike the orange-coloured antimony sulphide, 
 it is insoluble in hydrochloric acid. (J) Silver ammonio-nitrate (prepared 
 by adding ammonia to silver nitrate dissolved in about forty parts of 
 water, until the precipitate which first falls is almost wholly re-dissolved) 
 gives a primrose-yellow precipitate of the silver arsenite (Ag^ As. Oj). 
 (c) Oupric ammonio-sulphate (prepared in a similar manner to the silver 
 ammonio-nitrate) gives an apple-green precipitate of copper arsenite (Ou 
 H As O3), largely used as a pigment, and commonly known as Scheele's 
 green. Both the silver and copper arsenites are soluble in ammonia and 
 nitric acid. Although these liquid tests, when taken individually, are 
 not quite free from fallacy, still all of them together afford adequate evi- 
 dence of the presence of arsenic ; and this evidence is of course still further 
 strengthened by obtaining the distinctive crystals of white arsenic, and 
 afterwards reducing them to the metallic state. 
 
 When arsenic, in any form of combination,, is present in the contents 
 of the stomach, the tissues of the body, or in any coloured organic 
 mixture, the tests mentioned are quite inapplicable imtil the arsenic be 
 isolated. To effect this, the following processes are in common use : — 
 
 1st, The mixture is boiled, with the addition of water if necessary. It 
 is then filtered, acidulated with hydrochloric or acetic acid, subjected to a 
 stream of hydrogen sulphide, and again boiled. A yellow precipitate of 
 arsenic sulphide or orpiment gradually appears, and its nature may be 
 readily demonstrated by washing, drying, and heating it in a tube as 
 above described, with a mixture of charcoal and potassium carbonate, 
 when metallic arsenicum volatilises, oxidises, and condenses in the char- 
 acteristic crystals of white arsenic, which may further be reduced to the 
 metallic state, or subjected to the liquid tests already mentioned. 
 
 2d, The mixture is acidulated with pure hydrochloric acid, and boiled 
 for some time with a few clean copper clippings, on which there collects a 
 dark crust, which was at one time regarded as metallic arsenic, but is now 
 ascertained to be a mixture of an alloy of copper and arsenic, containing 
 68 of the former to 32 of the latter. The clippings are then put into a 
 test tube, and cautiously heated, until a ring of white arsenic lines the 
 cool part of the tube. Indubitable evidence of the nature of this subli- 
 mate may be had by dissolving it in acidulated water, and applying the 
 tests for arsenic in solution. This is generally known as Eeinsch's pro- 
 cess, and it is so delicate that it will detect one 250,000th part of arsenic 
 in solution. (Christison.) 
 
 M, The mixture placed in a Wolfs bottle, a Dobereiner's lamp, or 
 other convenient apparatus, is treated with zinc and sulphuric acid (which 
 must themselves be free from any traces of arsenic, as ascertained by the ' 
 hydrogen they evolve being uncontaminated by arseniuretted hydrogen). 
 Hydrogen is set free from the decomposition of the water, and unites with 
 the arsenicum of any arsenical compound present. The arseniuretted 
 hydrogen or arsenious hydride (As H^ so formed may be decomposed by 
 heating with a spirit lamp the glass tube through which it is passing off, 
 when a crust of metallic arsenic is deposited, and may be subjected to 
 examination in the usual way. Or, if the end of the exit tube be nar- 
 rowed, and the gas ignited, it burns with a livid blue flame, whilst a 
 
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A eOKROSIVE IRRITANT POISON. 177 
 
 piece of glass or porcelain held over the flame soon becomes encrusted, 
 either with metallic arsenic or arsenious acid, according to the distance at 
 which it is kept from the flame. This elegant method of extracting 
 arsenic from complex fluids is called Marsh's process. The late Mr. 
 Morton, of the Eoyal Veterinary College, proposed a very delicate and 
 ingenious method of evolving arseniuretted hydrogen from fluids contain- 
 ing arsenic, without the use of zinc and sulphuric acid, by passing a gal- 
 vanic current through them. The gas thus evolved is subjected to the 
 same examination as in Marsh's process. 
 
 4iA, A strong solution of caustic soda or potash, and a few pieces of 
 clean zinc, are put into a test tube with the suspected fluid ; over the 
 mouth of the tube is placed a cap of filter paper moistened with silver 
 nitrate ; the contents are carefully heated nearly to boiling, avoiding 
 spurting ; arseniuretted hydrogen, produced as in Marsh's process, reduces 
 the silver salt to the metallic state, leaving on the filter paper a purple 
 black stain. This test, proposed by Fleitmann, is valuable, as the reac- 
 tion is not developed with antimony salts. 
 
 The quantitative estimation of arsenic is generally determined by 
 ascertaining the number of grain measures of the standard solution of 
 iodine which the arsenical solution decolorises. 
 
 Actions and Uses. — ^Axsenious acid is an irritant corrosive 
 poison ; is administered as an alterative and tonic ; and applied 
 externally as a stimulant, caustic, and destroyer of parasites. 
 
 General Actions. — It acts on all animals as a destructive 
 poison. It causes irritation, iaflammation, and sloughing of 
 any mucous or abraded skin surface with which it comes in 
 contact; is readily absorbed; produces, while it remains in the 
 system, loss of appetite, emaciation, various nervous disorders, 
 and depression of the circulation. Like other metallic bodies, 
 retained for a time in the body, arsenic is said to be found 
 chiefly with the red corpuscles (Einger). It is removed by the 
 stomach, intestines, perhaps also by the liver, and in large 
 amount by the kidneys, irritating these execretory channels as 
 it passes through them. It exerts its poisonous action with 
 nearly equal certainty by whatever channel it enters the body. 
 All its compounds are poisonous ; and, as usual with other 
 poisons, the most soluble are the most active. Arseniuretted 
 hydrogen, the most deadly of its compounds, has occasioned the 
 death of three chemists, who were so unfortunate as to inhale 
 small quantities of it. Orfila found that the sulphides, in doses 
 of forty to seventy grains, destroyed dogs in from two to six 
 days, and had much the same effect whether they were swal- 
 lowed or applied to a wound. Metallic arsenic, although itself 
 
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178 ARSENICAL POISONING 
 
 itmocuous, unites so readily with hydrogen, oxygen, and various 
 bases, that it speedily acquires poisonous activity. 
 
 White arsenic, like other mineral poisons, has been given 
 to horses in considerable doses with impunity. Berthe gave a 
 mare affected with inveterate mange two, and afterwards three, 
 drachms without rajury.* Beissenhirz gave a horse one, four, 
 three, two, and eight drachms, on successive days ; but death 
 occurred on the ninth day after the last dose.t Hertwig gave 
 it to eight different horses, in doses beginning with 20 grains, 
 but gradually increasing to a drachm. He continued the 
 administration for thirty or forty days, but observed no bad 
 consequences, either during the use of the poison or afterwards; 
 the pulse became a little stronger and harder, and condition 
 was sometimes improved. J Mr. William PercivaU, experi- 
 menting on a horse affected with glanders, began with one 
 drachm daily, made into a bolus with linseed meal and treacle ; 
 increased this dose by 20 grains per day, and continued the 
 medicine for seventeen days. On the seventeenth day- the 
 animal got, in one dose, 380 grains, and had then taken up- 
 wards of seven ounces, or nearly half a pound, of arsenic. Yet 
 no physiological effect was obvious, no loss of appetite, no 
 uneasiness or pain, and no alteration of the pulse or respiration. § 
 
 But although sucb large doses sometimes have little effect, 
 much smaller doses occasionally . act with greater violence. 
 Thus Gerlach saw twenty grains cause active diarrhoea ; and 
 Mr. PercivaU mentions that two glandered horses, getting five 
 grains of arsenic daily in the form of bolus, were attacked, one 
 on the eighth and the other on the ninth day, with shivering, 
 loss of appetite, nausea, purgrag, and other syihptoms of 
 abdominal irritation, imperceptibUity of the pulse, and prostra- 
 tion of strength. One died, the other recovered. || These very 
 different effects depend in part on varying susceptibility ; on 
 the amount of food present in the alimentary canal ; on the fact 
 that animals receiving arsenic regularly gradually acquire a toler- 
 ance of it, and take with impunity at one dose as much as would , 
 kill a patient unused to it ; whilst very large doses produce 
 
 * Seeueil de Midecine Vitirinaire, Cot. 1825. Quoted ty Moiroud, p. 466. • 
 
 + Pereira's Elements of Materia, Medico,, 
 
 t Praktische ArzneimiUellehre filr Thieraerzte, Berlin 1847, p. 656. 
 
 § Veterinarian for 1843, p. 347. 11 Ibid. pp. 349-351. 
 
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OF HOUSES AND CATTLE. 179 
 
 sucli changes on the coats of the alimentary canal as prevent 
 in great part the ahsorption of the poison. Corroborating these 
 views, it may be recollected that arsenic given ia solution, as 
 it should be when prescribed medicinally, is greatly more cer- 
 tain, regular, and active, than when used in the solid state. 
 Thirty grains given daily, dissolved in potassium carbonate, 
 destroyed a horse in four days. — {Veterinarian, 1843, p. 350.) 
 
 Mr. Baldwin, in the Veterinarian for January 1858, reports 
 the case of six horses poisoned by drinking from a pail ia which 
 some arsenical sheep-dippiug mixture had been made. Two 
 died ; and there were found, on examination, inflammation of 
 the mucous co^t of the stomach, and patches of inflammation 
 extending throughout the whole alimentary canal. The symp- 
 toms presented by the others were dulness, succeeded by colicky 
 pains, the pulse 72 and wiry, extremities cold, visible mucous 
 membranes highly injected, with active purging. One mare 
 was iU for three or four days. The treatment consisted of opiates 
 and lime water. Eleven cart horses were poisoned at Edgeware 
 in August 1874 from drinking water containing arsenic. — ( Veter- 
 inarian for Sept.) They had been drawing heavy loads of 
 building materials fully eight miles from London, were tired, and 
 their stomachs empty, which doubtless accounts for the ,rapid 
 serious results. Although arsenic is not known to have proved 
 fatal in the human subject under seven hours, one of these 
 horses dropped and died ten minutes after drinking, and several 
 were dead within an hour. The symptoms recorded were cohc,. 
 staggering gait, pallid membranes, cold ears, pulse 40 to 60, 
 breathing quickened, and latterly coma. Brandy and ammonia 
 were the remedies prescribed. 
 
 It requires somewhat larger quantities to destroy cattle 
 than horses, mainly because their stomachs are generally filled 
 with food, which interferes with the action of the poison. An 
 ounce of arsenic given with a handful of salt to a strong sheep 
 caused most of the symptoms above mentioned as occurring in 
 horses, and death after five days. — {Veterinarian, 1843, p. 345.) 
 Hertwig, quoting from a report of the French Academy, men- 
 tions that five to ten grains given to healthy sheep produced 
 *the usual symptoms of poisoning; that a second dose of ten to 
 twenty grains, given twenty-four hours after, caused death ; 
 and that, on examination, the poison was foimd in the blood, 
 
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180 AESENICAL POISONING. 
 
 Tirine, lungs, liver, and muscles. The carcases of sheep poisoned 
 by arsenic have been eaten by dogs with impunity. — (Veterin- 
 arian, 1843, p. 345.) 
 
 A chronic form of arsenical poisoning, with symptoms of 
 indigestion, thirst, gradual sinkiag, and chronic disease of the 
 joiats and bones, is sometimes met with amongst both cattle 
 and horses in the neighbourhood of the tin and copper smelting 
 furnaces of Cornwall and Wales. Mr. W. H. Michael, of Swan- 
 sea, one of the witnesses examiaed before the Select Committee 
 of the House of Lords on the injurious effects of noxious 
 vapours, stated : " I have known rabbits poisoned, and sheep to 
 have died, and especially two or three horses I know to have 
 died. I have seen a great amount of injury done to ponies. 
 The gentleman who occupied the farm of which I am speaking 
 kept several hundred ponies, which he bought very young 
 generally, and fattened them for sale ; he was obliged to give 
 up keepiag them, owing to the peculiarly starved and shaggy 
 appearance those animals acquired. The knee-joints began to 
 swell, they got lame and hide-bound, the hair fell off, the teeth 
 became black and fell out, and necrosis of the bone occurred, 
 and the result was that he gave up grazing on a large tract of 
 land" (Report, 1st August 1862). Arsenical green paper left 
 in the way of animals has sometimes been eaten in quantities 
 sufficient to cause death in four hours. Eabbits have died 
 from nibbling the bright green prize-cards. An aged donkey 
 is recorded to have died, poisoned by green paper, in three 
 hours. — (Veterinarian, June and July 1865, and July 1871.) 
 
 Arsenic is greatly more active in dogs and cats than in 
 horses or cattle. I find that a quarter of a grain to a grain, 
 given twice daily, and continued during periods varying from 
 eight to fourteen days, causes gradually diminished appetite and 
 vomiting. From the sixth to the tenth day, diarrhoea, lowered 
 temperature, rapid emaciation, and painful cough ensue, and 
 death occurs in twenty to thirty days. Three to ten grains, 
 mixed with water, and administered to dogs, caused in a few 
 minutes nausea, vomiting, short moaning, difficult breathing, a 
 wiry rapid pulse of 120 or upwards, and black evacuations 
 made with considerable pain. These symptoms were accom-' 
 panied by a look of extreme anguish ; blunted perception ; and 
 death with convulsions followed in from six to thirty hours. 
 
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POST-MORTEM APPEARANCES AND TREATMENT. 181 
 
 ArseMc produces similar effects both on pigs and poultry. Two 
 grains in the form of Fowler's solution injected into the jugular 
 vein of a dog, although it caused immediate vomiting, proved 
 fatal in eighteen hours, and left the stomach and intestiaes 
 reddened and injected. Full doses increase disintegration of 
 albuminoids in the body.. A. Kossel gave sodium arsenite to 
 dogs in doses of 1'^ to 3 grains for ten days, and found that 
 the amount of nitrogen excreted rose even ia inanition to 48 
 or 60 grains, and in the healthy dog getting arsenic reached 
 110 to 120 graias. — {Gentralhlatt fur die Med. Wiss. No. 18, 
 1876.) 
 
 The post-mortem appearances of poisoning by arsenic, 
 although very similar in aU animals, differ a good deal with 
 the severity and duration of the case. The carcase, when 
 opened, generally evolves large quantities of fcetid gas. In the 
 horse the cuticular part of the stomach is not usually much 
 altered ; but the villous portion is reddened, softened, thickened, 
 and disorganised by patches of uifiammation and extravasation 
 of blood, which extend into the duodenum, and are also observ- 
 able in the colon, csecum, and rectum. The lungs are usually 
 congested, and their mucous membrane, with that of the urino- 
 genital organs, is red and vascular. Dr. Harley states that in 
 animals poisoned by arsenic the heart ceases to beat sooner than 
 when death has resulted from mechanical causes. These 
 appearances present themselves not only when the poison has 
 been swallowed, but also when it has been absorbed from the 
 surface of the skin, or introduced ia any other way into the 
 system. The bodies of animals poisoned by arsenic do not 
 undergo the usual form of putrefaction, but become dry and 
 mummified, whilst the areolar tissues, brain, lungs, liver, and 
 other organs become greasy a,nd taUow-like, from a species of 
 fatty degeneration which is established even during several 
 hours' illness. 
 
 In treating arsenical poisoning, the first object is to get rid 
 of any unabsorbed poison, by the administration of emetics ; 
 or, where these are ineffectual, as in horses or cattle, by the use 
 of the stomach-pump. Iron sesquioxide is the best chemical 
 antidote, and is most active when prepared by precipitating an 
 iron sesquisalt with ammonia, washing the precipitate with 
 warm water, and administeriugit moist and freshly made. It 
 
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182 ARSENIC 
 
 should be given as soon as possible, in repeated doses, at in- 
 tervals of ten minutes, until a quantity at least twelve times 
 greater than that of the poison has been swallowed. Some 
 authorities recommend instead the precipitation of two to three 
 ounces of iron perchloride solution with one ounce of the 
 crystals of sodium carbonate ; these quantities, freshly prepared, 
 suffice to neutralise ten graias of arsenic, converting it into the 
 insoluble iron arseniate (Fcg 2As OJ. Magnesia in its hy- 
 drated or gelatinous form, prepared by precipitating a solution 
 of Epsom salt with caizstic potash, also diminishes greatly the ■ 
 solubility of arsenic. Certain insoluble powders, as charcoal 
 and clay, act mechanically, enveloping the particles of the 
 poison, and protecting the stomach ; but to be of use, such 
 antidotes must be given before, along with, or immediately 
 after, the poison. Oils, lard, glycerin, mucilage, and milk, 
 exercise a similar mechanical influence, and some of these 
 bodies also slightly diminish the solubility of arsenic. For 
 removing the remote effects of poisonous doses, opium and 
 demulcents are freely given where inflammation is acute or 
 diarrhoea troublesome ; oleaginous laxatives and clysters, where 
 there is constipation and griping ; and in chronic cases, plenty 
 of easily digested nutritive food to sustain the powers of life, 
 with occasional diuretics, highly .recommended by Orfila, and 
 indicated by the fact that the kidneys are the chief channels 
 by which arsenic is excreted from the system. Excretion also, 
 however, occurs through the liver and alimentary mucous 
 membrane. 
 
 Medicinal Uses. — ^Arsenic has no restorative action like iron, 
 exerts no immediate neurotic effect like aconite or strychnine, 
 but, like mercury and iodine, counteracts certaiu blood disorders. 
 It is administered as an alterative, tonic, and antiperiodic, and 
 a stimulant of the skin and mucous surfaces. It is chiefly 
 serviceable in chronic rheumatism and neuralgia, in epilepsy 
 and chorea, especially in dogs, as well as in eczema, psoriasis, 
 impetigo, scab, and mange, in many of these skin complaints 
 being fittingly used internally and externally. In mal- 
 lenders and such scaly skin complaints Professor Williams 
 recommends it in conjimction with mercury and iodine. (^^ 
 Principles and Practice of Veterinary Surgery, by Professor 
 Williams, Gajrfield College, Ediaburgh). Amongst horses I 
 
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AN ALTERATIVE AND TONIC. 183 
 
 find it is sometimes serviceable in checking farcy, especially if 
 used witli 'iron ; it relieves clironic irritable cough, especially 
 when remaining after attacks of influenza and sore throat ; and 
 in such cases an ounce of Fowler's solution is united with an 
 ounce of potassium chlorate and a drachm of belladonna ex- 
 tract, and made into a draught with water or gruel. It im- 
 parts tone to the relaxed nasal membrane in many cases of 
 ozena. In dogs small repeated doses abate asthmatic symptoms, 
 chronic cough, ulcerations in the mouth, and irritability of the 
 stomach. It is stated to have some influence in warding off 
 splenic apoplexy and qongestive fever in cattle. In properly 
 regulated doses it is safely persisted with until some of its 
 earlier physiological effects are developed — until the eyelids 
 are swollen and reddened, the stomach irritable, or cough set 
 up. Indeed, some practitioners aver that curative results sel- 
 dom occur until physiological action is established. Arsenic is 
 unsuitable when the patient js feverish, the bowels constipated, 
 the urine scanty or high-coloured, as well as in the inflamma- 
 tory stage of eruptions. 
 
 In some countries it is eaten by the peasantry, in the 
 belief that it improves the complexion, prevents breathlessness 
 in running or ascendiag hOls, and increases general vigour. 
 In various parts of England,, as well as throughout some por- ■ 
 tions of southern Europe, it is regularly given to horses in 
 small doses, and is said to maiatain condition and impart 
 strength and endurance. So long as it is used cautiously and 
 regularly, the animals appear to be in excellent health, and 
 have fine sleek coats ; but when, after being used for several 
 months or for years, it is withdrawn, they fall off in appear- 
 ance, and for many months are more difficult to keep in con- 
 dition. A small portion of arsenic in a thin bag is sometimes 
 attached to the bit, to produce the frothy muzzles which seem 
 to be admired in high-stepping carriage horses. These prac- 
 tices are, however, attended with so much risk of poisoning, 
 and are, moreover, so likely to injure the . horse's constitution, 
 that they should not be tolerated. 
 
 Arsenic, generally used as a paste made with starch or 
 lard, is applied to eradicate warts, and to produce the slough- 
 ing and removal of malignant tumours ; in solution it is em- 
 ployed for stimulating unhealthy ulcers, removing the scurfiness 
 
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184 ARSENICAL DIPPING MIXTURES 
 
 of psoriasis, poisoning the acari of scab and mange, and destroy- 
 ing other vermin infesting the skin. For such purposes it 
 must, however, be used cautiously, for animals have been 
 destroyed by its injudicious application both to wounds and to 
 the skin; while many have been permanently blemished by 
 the excessive sloughing produced when it is applied to raw 
 surfaces in any considerable quantity. Arsenic is a powerful 
 antiseptic; in preserving blood and other such putrescible sub- 
 stances, it is second only to zinc chloride, and stands on a par 
 with corrosive sublimate and blue vitriol. 
 
 Arsenic enters into the composition of many sheep-dipping 
 mixtures. For the destruction of ticks and other vermin 
 infesting the wool, it is more effectual than the solutions of 
 tobacco, spirit of tar, and the simple alkaline dips sometimes 
 employed; it is safer and as effectual as the mercurial baths 
 or ointments ; and is used more extensively than the various 
 non-poisonous dipping-mixtures which have lately been in 
 favour both in England and the Colonies. On inquiry in 
 various parts of the country, I find that the usual allowance 
 for a hundred sheep is two poimds of arsenic dissolved in a 
 hundred gallons of water ; but that three, four, and even five 
 pounds dissolved in the same quantity of water are used with- 
 out evil effects. A safe and convenient sheep-dipping mixture 
 is made with three pounds each of arsenic, soda ash, or impure 
 sodium carbonate, soft soap, and sulphur. In many parts of Eng- 
 land, pearl ash or impure potassium carbonate is substituted for 
 the soda ash. Some farmers double or quadruple the quantity of 
 the soap, which, with the alkaline carbonate, aids in dissolving 
 the arsenic, whilst the sulphur whitens and softens the fleece, 
 and also for a considerable time prevents attacks of flies. For 
 this end, a pint or two of naphtha, or a httle impure carbolic 
 acid, is also sometimes added. The ingredients are best dis- 
 solved in ten to twenty gallons of boiling water, and cold 
 water is added to make up a hundred gallons, which, with 
 careful dripping, will dip about a hundred sheep. The head 
 must of course be kept out of the bath, in which the sheep is 
 held during forty to sixty seconds, is Lifted on to a sparred 
 drainer placed over a second tub, or over a trough communi- 
 cating with the dipping tub, and the wool well squeezed with 
 the hands, and with a scraper such as is used for cleaning horses. 
 
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POISON SHEEP. 185 
 
 Arsenical dipping-mixtures sometimes produce serious, and 
 even fatal consequences. A Lincolashire correspondent in- 
 formed me several years ago, that after dipping 150 half-bred 
 Leicester hogs, eleven of them died in twenty hours, and 
 several after some days. But a greatly more serious case 
 occurred at Burton, in Northumherland, during the summer 
 of 1858, and created so much interest amongst chemists and 
 veterinarians, as well as amongst agriculturists, that I subjoia 
 a short account of it, Mr. Black of Burton purchased from 
 Mr. J. Elliot, chemist, Berwick-on-Tweed, 1 5 packets of dippiag- 
 mixture. Each packet, contained 20 ounces each of arsenic and 
 soda ash, and 2 ounces of sulphur, and was directed to be dis- 
 solved with 4 pounds of soft soap in three or four gallons of 
 boiling water. With 45 gallons of cold water subsequently 
 added, this made quantity sufficient for fifty sheep. On 14th 
 August Mr. Black had 869 sheep dipped in the usual manner; 
 the apparatus and arrangements were good, and the dripping 
 and other work performed with great care. In two days, how- 
 ever, the sheep began to die ; they were seized much in the 
 same order in which they had been dipped, and within a month 
 850 had perished. The symptoms frequently came on very 
 suddenly ; and Mr. Bird, the veterinary surgeon in attendance, 
 records that several, died in twenty minutes after he had ob- 
 served them eating or ruminating, and apparently well. The 
 usual symptoms were dulness and nausea, frothing at mouth, 
 bloodshot eyes, pain in the bowels, the passage of black and 
 bloody urine, laboured breathing, blackening of the skin, with 
 falling off of the wool in patches, especially about the back and 
 loins. On post-mortem examination, the bowels were found. to 
 be inflamed, and were covered with black blood, the lungs 
 blackened and iaflamed, the liver black, soft, and friable, the 
 spleen congested, the bladder empty. Arsenic was found, on 
 analysis, in the stomachs and bowels. 
 
 The case came to trial at Newcastle in February 1859, and 
 the jury found a verdict for Mr. Black, with damages amount- 
 ing to £1400. Mr. Black's case rested mainly on the fact 
 that his sheep had been carefully dipped in the usual manner, 
 and according to the printed instructions sent out with each 
 packet of the dipping-mixture. It was sought to be proved 
 that the mixture might ia some way have been improperly 
 
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186 ARSENICAL DIPPING MIXTURES 
 
 made up, and was of such poisonous strength that it had be- 
 come absorbed through the skin. The poisoning of a donkey 
 which had carried the skins of the dead sheep, some sores and 
 gangrenous patches on the hands and arms of some of the men 
 employed iq the dipping, were also adduced as evidence of the 
 undue strength of the mixture. 
 
 On the other hand, in defence of Mr. EUiot, it was showii 
 that thousands of sheep had with impunity been dipped in 
 mixtures of the same strength as that sold to Mr. Black ; that, 
 indeed, on the same day as the Burton sheep were dipped, 
 another gentleman in the neighbourhood used, without any bad 
 effect whatever, eight packages of the same miKture made in 
 the same way and at the same time. Professor John Gamgee 
 and Dr. Stevenson Macadam made various experiments on the 
 subject, using, in two instances, arsenic in the proportion of 
 28 and 68 ounces for 50 sheep, instead of the 20 ounces 
 present in Mr. Elliot's dip. Mr. Browning, a professional 
 sheep-dipper in Oxfordshire, who annually passes through his 
 hands several thousands of sheep without losiug one, has for 
 years employed 2^ lbs. of arsenic for 50 sheep, which is exactly 
 double the strength of EUiot's mixture. I made in 1859, and 
 have repeated and verified them since, several experiments with 
 dips three and four times the strength of Elliot's ; some of the 
 sheep I kept immersed for several minutes, and had these con- 
 centrated solutions well rubbed into the skin. I abstained in 
 several instances from pressing or drying the wool, dipped the 
 same sheep twice within two hours, and several times within a 
 week, and yet failed in destrojdng or injuring in the smallest 
 degree any one of the sheep subjected to these severe trials. 
 
 It seems therefore fair to infer that arsenical sheep-dipping 
 mixtures are little liable to be absorbed through the healthy 
 skin. The risk of using such dips depends, not on their being 
 absorbed by the skin, but on a quantity of the poisonous fluid 
 beiag retained by the fleece, from which it drips on the grass 
 or other food over which the animal strays. This, I believe, 
 explains the serious mortality at Burton. The sheep were 
 rapidly dipped at the rate of 8 per hour ; and, according to 
 the usual calculation, each sheep carries away in its fleece, even 
 after it has been reasonably drained, about a gallon of the fluid, 
 which, of EUiot's strength, would contain 176 grains of arsenic, 
 
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POISON THE PASTURAGES. 187 
 
 ■ — a quantity quite sufficient, if swallowed, to destroy eight or 
 ten sheep. The sheep are turned out hungry, and at once begin 
 to eat ; and the drippings falling the whUe, contaminate the 
 grass, which in the Burton case appears to have been still 
 further impregnated, owing to a shower falling during the night, 
 and thus washing a larger quantity of the poisonous solution 
 out of the fleeces on to the pastures. Here it was found in 
 three sods taken up ten days after, and examined by Professor 
 Douglas Maclagan, who failed, however, to find any arsenic in 
 sods brought from an adjoining pasture, where no dipped sheep 
 had grazed. We can thus understand how the donkey, the two 
 oxen, and the horses which died suddenly about the same time, 
 shared the fate of the sheep ; whilst the drippings left in the 
 yards before the flocks were turned out, would account for the 
 mortality stated to have also taken place amongst the poultry. 
 
 It is an error to suppose that sheep, pigs, or other animals, 
 refuse to eat food over which an arsenical dipping-mixture with 
 its nauseous soft soap and alkali have fallen. I have seen 
 sheep eat grass watered, for the purpose of experiment, with 
 such solutions, and afterwards die from their poisoned meal. 
 I have known horses, pigs, and poultry, die from getting access 
 to yards where recently dipped sheep have been confined. 
 Some years ago I knew of two colts which were poisoned by 
 eating a few vetches carelessly left in a yard where some sheep 
 had been placed to drip. 
 
 The following important practical conclusions are deducible 
 from this and other such cases. Yards into which newly 
 dipped sheep are to be turned should be previously cleared of 
 all green food, hay, and even fresh litter ; if perfectly empty, 
 they are still safer. . When the dipping is finished, they should 
 be cleaned, washed, and swept, and any of the unused dipping- 
 solution at once poured down the drains. Dipped sheep should 
 remain, if possible, in an open, exposed place, as on a dry road, 
 or in a large open yard. Overcrowding should be avoided, 
 and every facility given for rapid drying, which is greatly ex- 
 pedited by selecting for the operation fine clear drying weather. 
 On no account should sheep be returned to their grazings until 
 they are dry, and all risk of dripping over. 
 
 Doses, etc. — ^Horses and cattle take grs. v. to grs. x : sheep, 
 gr. j. to grs. ij. ; and dogs, gr. ^ to gr. ^. To obtain its cura- 
 
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188 ARTEMESIA OR WORMWOOD 
 
 tive effects, it is usually necessary to give it for a week or longer. 
 When it causes such physiological action as acceleration or hard- 
 ness of the pulse, tenderness of the conjunctiva, indigestion, or 
 diarrhoea, its administration must be carefully watched, and the • 
 doses somewhat diminished or remitted for a few days. With aH 
 animals, and in all doses, it is most active when administered in 
 solution. Hence it is best given in acidulated water, or in the form 
 of the liqioor arsenicalis or Fowler's solution, which is thus made : 
 — " Heat eighty graias each of arsenious acid, in powder, and car- 
 bonate of potash, iu ten fluid ounces of water in a flask, until 
 they are dissolved. When cold, add five fluid drachms of com- 
 pound tincture of lavender; and as much water as is needed to 
 make the solution measure one pint. — (Brit. Fhar.) Every 
 ounce of Fowler's solution contains four grains of arsenic, partly 
 free and partly combiaed. An oiatment made with six grains 
 to an ounce of lard is sometimes convenient for external use. 
 It cannot be too often repeated, that all arsenical preparations, 
 whether for internal or external purposes, must be used with 
 great circumspection. Under the Act which now regulates the 
 sale of arsenic, every purchase must be registered in a book kept 
 for the purpose ; the purchaser must be of full age, and either 
 known to the seller, or to a witness who is also known to the 
 seller ; whilst, to lessen the risks of a white powder being mis- 
 taken for flour, or other harmless substance, it is enacted that, 
 unless in quantities of 1 lbs., one ounce of soot, or half an ounce 
 of indigo, shall be mixed with every pound of arsenic. 
 
 AETEMESIA 
 
 Artemesia absinthium. Wormwood. 
 Artemesia maritima. The Santonica or Wormseed plant. 
 
 J!fat. Ord. — Compositse Corymbiferse. Sex. Syst. — Pentandria Syngenesia. 
 
 The artemesia are low shrubby plants, found throughout 
 Europe, characterised by their aroma and bitterness, and com- 
 prising the familiar southernwood and tansy, the mildly anodyne 
 lettuce, and the harmless dandelion. 
 
 The dried Artemesia absinthium contains a volatile cam- 
 phoraceous oil, two bitter resias, a bitter extract, and a neutral 
 principle absinthin. It is an aromatic bitter tonic, a popular 
 
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YIELDS THE VERMICIDE SANTONIN. 189 
 
 remedy for worms, present in the liqueur absiathe, and occasion- 
 ally mixed with spent or inferior hops. 
 
 The unexpanded flower-heads of santonica, an undetermined 
 artemesia, imported from Eussia, contain a volatile oil, resin, 
 and one to two per cent" of a crystalline neutral principle 
 santonin (0^ H^g O3), used as a vermicide, without effect on 
 tsenise, but destructive to round and thread worms, less effective 
 in horses than in dogs, to which it is given in doses of three or 
 four grains. 
 
 ASAFCETIDA. 
 
 A gum-resia obtained in Affghanistan and the Punjaub, by 
 incision from the living root of Narthex asafcetida. 
 British Pharmacopoeia. 
 
 Nat. Ord. — Umbelliferse. Sex. Syst. — Pentandria Digynia. 
 
 The Narthex asafcetida has a long black perennial root, 
 several inches in diameter, large pseony-like annual leaves, which 
 are cooked and eaten, and a tall, fleshy, flowering ^tem, often ten 
 feet high, throwing off from near its base a series of branches 
 which terminate in a cluster of flowers. The plant, all parts of 
 which emit a penetratiag foetid odour, grows luxuriantly in 
 Persia and the hiU districts of Upper India, and several fine 
 specimens have flowered in the Edinburgh Botanic Gardens. 
 When the plants are four years old, the leaves and stems are 
 removed, and six weeks later, towards the end of May, a shce 
 is cut from the upper part of the root. The foetid milky juice 
 exudes from the freshly-cut surface, and two days later concretes 
 and is scraped off. The root is then protected from the sun by 
 a covering of leaves; within the next two days the operation is 
 twice repeated, and after an interval of eight or ten daySj the 
 slicing is resumed, and several times repeated, when the plant 
 is exhausted, after yielding from a half to two pounds of juice, 
 worth 2 s. to 4s. per pound. Another plant, the Scorodosma 
 foetidum (Bange), is also believed to yield a portion of the 
 asafcetida of commerce. The yeUow-brown tears first collected 
 are mixed with soft earth and made iato irregular lumps, which 
 have externally a red-brown colour, and within a white waxy 
 surface, which, however, becomes purple or red-brown from ex- 
 posure. Asafcetida has a disagreeable, penetrating odour of 
 
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190 AXUNGE OR hog's LAED 
 
 garlic, and an intensely bitter, acrid taste. It is pulverised 
 with difficulty, forms an emulsion with water, is dissolved in 
 rectified spirit, and also in potash and ammonia. Besides water 
 and earthy matters, it contaius 50 to 60 per cent of resin; 25 
 to 3 of gum ; about 1 of earthy matters ; 3 to 5 of a strong- 
 smelling sulphurised volatile oil; which, with the resin, con- 
 stitutes the active part of the plant, and traces of a peculiar 
 acid, the ferulaic. 
 
 : Actions and Uses. — ^AsafcBtida is a mild diffusible stimu- 
 lant, carminative, and vermifuge. It is speedily absorbed; is 
 generally diffused, its disagreeable odour indicatiug its presence 
 in the various textures ; it is eliminated from the mucous sur- 
 faces, the skin and Iddneys, gently stimulating the excreting 
 organs. It is occasionally given to horses and cattle in colic 
 and chronic cough, and to dogs in chorea. Like other sub- 
 stances containing odorous volatile oils, it is a vermifuge, but 
 not very active. The two gum-resius, ammoniac and galbanum, 
 are closely analogous to asafoetida, but scarcely so active, and 
 are chiefly used for making charges and plasters. 
 
 Doses, etc. — Horses take 3ij. to 3iv. ; cattle, Jij. ; sheep, 3i. ; 
 and dogs, grs. x. to grs. xx. As its stimulant effects are tran- 
 sient, it requires to be given repeatedly, and is conveniently 
 administered in a watery or alcoholic solution of ammonia. It 
 may be conjoined with camphor and ammonium carbonate, 
 and is sometimes added to alcoholic and ' ethereal prepara- 
 tions intended for veteriaary patients, to prevent their misap- 
 propriation. 
 
 AXUNGE. 
 
 Adeps. Adeps preparatus. Hog's lard. The purified 
 fat of the pig. 
 
 On account of its greater firmness and density, the fat about 
 the pig's internal organs and loias is preferred for making lard. 
 To get rid of soluble and membranous matter, the fat, cut 
 into small pieces, is washed with cold water, drained, melted 
 over a slow fire, strained through flannel or coarse cheese-cloth ; 
 is kept stirred, in a steam-heated pan at about 212° until it is 
 clear and free from water ; strained agaiu through flannel ; and 
 preserved iu casks, pots, or bladders. When pure, it is white 
 
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NUTRITIVE AND EMOLLIENT. 191 
 
 or yello-wisli-wliite, granular, without odour, but with a sweetish 
 taste. It melts at about 100°, fomung a clear transparent 
 fluid, which is a good solvent for wax and resins, and when 
 boiled with alkalies forms soap. Like other fats and oils, lard 
 is iasoluble in water, slightly soluble in alcohol, but perfectly 
 soluble in ether. Exposed to the air, it becomes rancid, and 
 in this state is unfit for emollient purposes. It contains about 
 62 per cent of olein and 38 of pahnitin and stearin. Distilled 
 water in which properly purified lard has been boiled, when 
 cooled and filtered, gives no precipitate with silver nitrate, 
 indicating the absence of common salt ; and no blue coloration 
 with iodine solution, prdving freedom from starch, of which about 
 20 per cent is found in some inferior specimens ; 10 per cent 
 of water is sometimes incorporated with lard, and alum and 
 lime added to secure whiteness and add to weight. Benzoated 
 lard, used on account of its agreeable odour and diminished 
 liability to rancidity, is made by melting the purified lard over 
 a water bath, and stirring in 10 grains of benzoin to the ounce 
 of melted lard. . Suet — the fat around the kidneys of the sheep 
 or ox — is sometimes used instead of lard, and differs from it 
 chiefly in being firmer, harder, and more difficult to melt. 
 Horses' fat is more easily melted, and iirmer than that of swine. 
 G-oose grease, much used as a popular remedy for sprains and 
 bruises,' is more fluid, from its greater percentage of olein. ' 
 
 Actions and Uses. — Fats, and nuld fixed oils, which are 
 merely fluid fats, when given without other food, are inadequate 
 to support life ; thus dogs, receiving only butter and olive oil, 
 with distilled water to drink, died in about thirty-six days. In 
 a well-regulated system of diet, fats serve, however, various 
 important purposes ; along with albuminoids they form cells ■; 
 they build up the nervous structures, so largely composed of 
 fatty matters ; are consumed in the body for the support of 
 animal heat, or are stored away for investing and protecting 
 important organs. Fats are emulsified by the alkaline digestive 
 secretions, more thoroughly dissolved by the bile, and absorbed 
 mainly through the lacteals. Although small doses are easy of 
 digestion, large quantities disorder the digestive functions, and 
 cause diarrhoea. Hog's lard is occasionally used as an internal 
 demulcent, as an antidote for poisoning with alkalies, and as a 
 laxative, clyster. It is also applied externally as a simple 
 
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192 BARLEY, MALT, YEAST, 
 
 dressing for ulcers and blistered surfaces, softening and protect- 
 ing them from the action of the air, and of acrid discharges. It 
 is sometimes effectual in removing mange and scah, and appears 
 to act simply by preventing access of air to the minute acari on 
 which these diseases depend. It is much used for making 
 oiatments and liniments. 
 
 BAELEY. 
 
 Hordeum. Pearl Barley. Malt. Yeast. 
 Nat. Ord. — Graminacese. Sex. Syst. — Triandria Digynia. 
 
 Barley is used for feeding most of the domesticated 
 animals ; and when stripped of its outer husk, is recognised by 
 the Pharmacopoeia as pearl barley. Ground to meal, it is used 
 for making poultices and infusions. Good barley meal contains 
 68 per cent of starch, 14 glutin and albumiu, 2 fatty matter, 
 2 saline matters, and 14 water. When moistened and exposed 
 to a temperature of about 100°, barley begias to germinate; 
 and if the process of germination be arrested by drying, the 
 altered barley is converted into malt, — a sweet mucilaginous 
 substance, which is more easily digested, but weight for weight 
 is rather less nutritive than barley, forms a palatable and useful 
 article of diet for sick or convalescent horses, and is used for 
 making poultices and demulcent laxative drinks. Barley 
 water, iafusions of malt, and soft mashes, prove especially 
 serviceable in febrile cases both in horses and cattle, where 
 tissue-change is excessive, and where rich hard dry food, not 
 beiag assimilable, has to be got rid of, adding greatly to the 
 overwork already thrown upon the liver, spleen, and other such 
 glands. 
 
 When a solution of malt is fermented, as ia the preparation 
 of beer, ales, or porter, there rises to the surface of the liquor a 
 yeUowish-brown frothy scum, known as yeast or larm, the Cere- 
 visiee fermentum of the British Pharmacopoeia, readily putrefying 
 when moist, but when carefully dried remaining for a long time 
 unchanged, and owing its reproductive properties, and its 
 characteristic power of converting cane into grape sugar, and 
 thence into alcohol, to the presence of ovoid confervoid cells of 
 Torula cerevisise. Yeast is stiU occasionally used as a purga- 
 
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BELLADONNA. 193 
 
 tive, especially for cattle, and is given in quantities of about a 
 pint. Antiseptic and deodorising poultices are sometimes made 
 ■with boiling water, and two parts of bran or linseed meal to 
 one part of yeast. 
 
 BELLADONNA. 
 
 Deadly Nightshade. Belladonnas folia. Fresh leaves of 
 Atropa Belladonna, with the branches to which they are 
 attached, also the leaves separated from the branches, care- 
 fully dried, gathered from wild and cultivated British plants 
 when the fruit has begun to form. — Brit. Phar. 
 
 BeUadonnse radix. The dried root of Atropa Belladonna, cul- 
 tivated in Britain or imported from Germany. 
 
 Nai. Ord. — Atropacese. Sex. Syst. — Pentandria Monogynia. 
 
 Belladonna grows wUd in most parts of Great Britain, 
 especially about old walls, edges of plantations, and ruinous 
 shady places ; but so great is the demand for its preparations, 
 that it is now largely cultivated at Hitchiu and elsewhere, and 
 the cultivated are found as active as the wUd specimens. It 
 has a fleshy branching perennial root ; a round, branched, reddish, 
 downy, annual stem, three to five feet high ; smooth, ovate, 
 acuminated leaves, four or five inches long, supported on short 
 leaf stalks, lateral, often in pairs of unequal size, of a sombre- 
 green colour, and a faint bitter taste ; pendulous dark-purple, 
 beU-shaped flowers, appearing in June and July; a round 
 violet, berried, mawkish-tasted fruit, the size of a small cherry, 
 ripe ia September, and containing numerous kidney-shaped 
 seeds. The plant has greatest activity towards the end of June 
 and throughout July, when flowering is over, but before the fruit 
 and seeds are developed., It is cut down and speedily dried;, 
 and so liable is it to deterioration from heating and moulding, 
 that it is advised iounediately to make the medicinal prepara- 
 tions. When the young branches as weU as the leaves are 
 used, the preparations are found to keep better, and to be more 
 uniform and active. In addition to the leaves and branches- 
 the Pharmacopoeia recognises the dried root, which is about 
 eighteen inches long, an inch thick, and is cultivated in Britain 
 or brought from Germany, the small and younger roots being: 
 
 
 
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194 BELLADONNA 
 
 most active. Besides ordinary plant constituents, belladonna 
 contains the neutral crystalline principle asparagine, and rather 
 less than one half per cent of a colourless crystalline poisonous 
 alkaloid called atropine, of which further notice will be found 
 at the close of this article. 
 
 Actions and Uses. — Belladonna or atropine applied to the 
 web of the frog's foot stimulates the vasomotor nerves and 
 adjacent ganglia, contracts the blood-vessels, and produces an 
 increased flow of blood. But this stimulation, when excessive or 
 prolonged, is succeeded by paralysis, dilatation, and diminished 
 circulation. This twofold local effect is repeated remotely. 
 Full doses are excitants of the sympathetic nervous system ; 
 they immediately and notably stimulate the cardiac ganglia, 
 and increase both the number and force of the heart-beats. 
 They stimulate the vasomotor centres generally, contract 
 arterioles, increase blood pressure, improve nutrition, and 
 heighten temperature. These effects, like those in the "frog's 
 foot, when violent or long continued, are succeeded by the 
 usual effects of over-stimulation; the heart's action is weakened, 
 the vessels are dilated, blood pressure is abnormally reduced, 
 and temperature lowered. Excessive doses fatally exhaust the 
 heart's action, and death results with symptoms of paralysis, 
 torpor, delirium, or coma. Belladonna is prescribed as a stimu- 
 lant of the heart and vascular system; it controls spasm, 
 especially of the hollow viscera ; it is excreted by the kidneys, 
 acting as a diuretic and topical anodyne. Acting directly on 
 nerve tissue and antagonising hjrpereemia, it is applied locally 
 for the relief of pain. Whether applied locally to the eye, or 
 absorbed by any other less direct channel, it dilates the pupU. 
 
 General Actions. — Belladonna stimulates the sympathetic 
 nerves and ganglia, and hence increases the activity of all the 
 organs presided over by this system. Medicinal doses, within 
 an hour, act directly upon the cardiac ganglia, increasing both 
 the force and number of the heart-beat ; but the pneumogastric 
 terminal filaments being paralysed, inhibitory control is lessened. 
 The respiratory centres being similarly stimulated, the number 
 and depth of the respirations are increased ; but circulation is 
 earlier and more prominently acted on than respiration. The 
 vasomotor centres are stimulated, as is well illustrated in the 
 web of the frog's foot, in which, when moistened with a solution 
 
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STIMULATES THE SYMPATHETIC SYSTEM. 195 
 
 of atropine, tlie ramifications of the arteries are seen to contract, 
 often to three-fourths of their former calibre, inducing such 
 increased movements of the red globules that about twice the 
 former quantity of blood passes along them (Meuriot and 
 Harley), Tone is thus imparted to dilated congested capillaries; 
 congestion and stasis are relieved ; nutritive changes are more 
 rapid ; temperature is elevated ; excessive sweatiag is controlled. 
 The secretion of the mucous membrane lining the nostrUs, 
 mouth, and fauces is checke.d, doubtless explaining the efficacy 
 of belladonna in combating colds and sore throat. A like 
 diminution of secretion,, occurs in the udder, and belladonna 
 applications in garget have the twofold advantage of checking 
 secretion of milk and relieving congestion. This power of 
 arresting secretion does not, however, extend to the vascular 
 system generally. Dr. John Harley considers that belladonna 
 is a chologogue. Excessive or long-continued action, as with 
 other stimulants, leads to exhaustion ; the heart's action is 
 weakened, respiration becomes slower and shallower, the capil- 
 laries are flaccid and dilated. These paralysing effects extend 
 to the cerebro-spinal axis ; vertigo and delirium ensue. The 
 excitability of the motor nerves and end-organs is impaired, 
 accouliting for the motor paralysis which follows the administra- 
 tion of large doses. The functions of the sensory nerves are not so 
 much impaired as those of the motor. The involuntary muscles 
 under control of the sympathetic system are notably acted on, 
 and their spasms combated ; but the voluntary are little affected 
 by medicinal doses of belladenna. It is very readily absorbed 
 and diffused; its precise action on the blood is unknown. Dr. 
 John Harley believes that it peroxidises nerve tissue ; the 
 atropine is rapidly excreted unchanged,- and wholly by the urine. 
 Belladonna resembles the other Atropacese, hyoscyamus and 
 stramonium. Some of its actions, such as its combating pain 
 and spaspi, ally it to opium, but it acts specially on the sym- 
 pathetic, and less on the cerebro-spinal axis, notably stimulates 
 circulation, has less soothing and soporific influence, and dilates 
 instead of contracting the pupil. In its secondary effects it 
 paralyses motor functions like hemlock. In stimulating circu- 
 lation and combating congestion it approaches alcohol, ether, 
 and ammonia. Its physiological antagonists are Calabar bean, 
 prussic acid, and jaborandi. 
 
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196 BELLADONNA 
 
 Moiroud records that a horse consumed upwards of six 
 pounds of the leaves without any had effects. A donkey ate 
 a pound of the berries with equal impunity. Mtinch says 
 that goats and sheep devour it with apparent satisfaction, and 
 without any obvious harm. But Hertwig, experimenting on 
 upwards of twenty horses, observed tolerably decided effects. 
 He gave four to six ounces of the dry pulverised herb, with 
 meal and water, in four separate doses, and within a period 
 varying from four to eight hours. In four or five hours, 
 and still more on the succeeding day, he observed dulness, 
 languor, dilatation of the pupils, an uneasy look, and a feverish 
 mouth. The appetite was gone, and digestion impaired, gas 
 being abundantly evolved in the stomach and intestines. The 
 pulse numbered about 90, was small, hard, and scarcely per- 
 ceptible. The breathing was short, quick, and accompanied 
 by flapping of the nostrils. The sensibility was slightly 
 diminished, but there was no appearance of drowsiness. Some 
 of the cases exhibited much abdominal pain ; others, imperfect 
 power of moving the hinder extremities ; others terminated 
 fatally in thirty to fifty hours after the exhibition of the first 
 dose ; but in most the symptoms gradually retrograded, and 
 after thirty-six or forty-eight hours the animals were perfectly 
 well. Two to three ounces of the dried root acted on horses 
 in a similar manner; and six ounces usually proved fatal. 
 These observations closely agree with the more recent investiga- 
 tions of Dr. John Harley, who states that cardiac and cerebral 
 excitement is the prominent result of full doses in the horse.* 
 Hertwig considers that belladonna is rather more active in 
 cattle than horses ; and records that doses of the root varying 
 from two to four ounces caused in cows violent Symptoms last- 
 ing forty-eight hours, and that larger doses were dangerous. 
 In dogs, thirty to fifty grains of the dried herb or root caused, 
 in fifteen to thirty minutes, whining and continuous moaning. 
 In thirty minutes the iris had contracted so much as to be 
 quite out of view, and the eye had also become insensible to 
 bright light. Hearing and sensibility remained imimpaired. 
 Vomiting sometimes occurred, the nose got dry and hot, and 
 the gait tottering from inability to move the hinder extremities, 
 
 * The Old Vegetable Neurotics. By John Harley, M. D. London : Macmillan 
 and Co., 1869 ; and St. Thomas' Hospital Reports for 1875. 
 
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A CARDIAC AND CAPILLARY STIMULANT. 197 
 
 After some time the animals became rather drowsy. In on,e 
 to three hours the symptoms began to abate, but contraction 
 and diminished irritability of the iris still remained, even after 
 twenty-four hours (Hertwig). Dr. Harley states that dogs 
 bear proportionally larger doses than horses, exhibit less marked 
 cerebral effects, but more pronounced and prolonged hes-rt 
 symptoms. Half an ounce of the ordinary watery extract is 
 fatal to dogs in about thirty hours, when given by the mouth ; 
 half that quantity in twenty-four hours when introduced into 
 a wound ; and even smaller doses are more speedily, fatal when 
 injected into the jugular (Christison). Pigeons, particularly 
 sensitive to the action of sedatives and anaesthetics, are curiously 
 iasusceptible to the effects of belladonna, two grains of atropine 
 being required to kiU. them, even when it is used hypodermi- 
 caUy (Eiager). Pigeons, as well as other birds, are also ia- 
 susceptible to the mydriatic action. 
 
 Poisoning by belladonna appears to depend upon exhaustion 
 chiefly of the heart — the result of previous over-stimulation. 
 This tendency to fatal exhaustion of the circulation can be 
 demonstrated in. frogs subjected to subcutaneous injection ; 
 the arteries of the web are seen to become flaccid, dilated, and 
 weakened. After death the blood remains fluid ; the ventricles 
 are empty )and firmly contracted, the right auricle fuU. of dark 
 blood-; the lungs, liver, and kidneys, with the brain and its 
 membranes, are free from congestion ; no inflammatory appear- 
 ances are anywhere detected. Excessive doses whilst stUl 
 remaining unabsorbed are to be removed by emetics or the 
 stomach-pump. No good chemical antidote is yet known, 
 but lime-water partially neutralises the atropine. Calabar 
 bean is antagonistic in many other particulars, as well as in 
 its action on the iris. Artificial breathing, and ammonia 
 cautiously swallowed and inhaled, help to sustain the flagging 
 breathing and circulation ; opium in small amount quiets 
 nervousness and restlessness ; diuretics expedite the expulsion 
 of the poison. 
 
 Medicinal Uses. — In influenza, scarlatina, and purpura 
 amongst horses, in sore throat, bronchitis, and pneumonia in 
 all classes of patients, belladonna imparts vigour and firm- 
 ness to the weakened heart, braces up lax capillaries, combats 
 congestion, and soothes excitability of the sympathetic nervous 
 
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198 BELLADONNA 
 
 system. It directly antagonises the excessive discharges and 
 irritability of catarrh and sore throat in horses. In such cases, 
 ■whUst fever continues, it is used with aconite ; in later stages 
 with alcohol, ether, ammonia, or camphor. N"o other medicine, 
 gives such immediate relief, especially if used subcutaneously, 
 in laryngitis in horses, in the roaring noisy respiration which 
 accompanies some cases of epizootic sore throat, and in spas- 
 modic cough. Along with ether or ammonium carbonate, 
 belladonna extract greatly relieves the distressed breathing and 
 cough which so often occur in distemper in dogs. In enteritis, 
 neuralgia, and rheumatism, it aUays nervous excitability, as- 
 suages pain, and in these and other diseases is most rapid and 
 certain in its effects when applied as near as possible to the 
 seat of disease, or when the alkaloid is introduced hypodermi- 
 cally, whilst it is often advantageously conjoined with opium, 
 to intensify and prolong its effects. Amongst the lower animals 
 excessive sweating chiefly occurs in horses overworked when in 
 poor condition, but this, as well as profuse perspiration, depend- 
 ing upon general weakness, is abated by repeated doses of 
 belladonna. In conjunction with purgatives, perfect q[uiet, 
 and repeated doses of chloral, belladonna is said to abate the 
 continued exhaustiag spasm of tetanus. In hydrophobia, 
 epilepsy, and chorea, it is given without much success. 
 During its elimination by the kidneys it develops its charac- 
 teristic stimulant effect upon the sympathetic nervous system 
 of the kidney and bladder, abating congestion and irritation, 
 increasing the secretion of urine and the proportion of urea 
 phosphates and sulphates, and hence is of value in nephritis, 
 cystitis, and irritable conditions of the urinary organs. It is 
 occasionally applied to relax spasm of the os uteri. In torpidity 
 of the bowels depending upon want of tone, it is combiaed with 
 purgatives ; where there are irregular and spasmodic peristaltic 
 movements, it is conjoined with opium, alcohol, or laxatives. 
 In these ami other cases it owes its value to its antagonising 
 hypereemia, and to its contracting those involuntary fibres of 
 the hollow viscera which are under the influence of the sym- 
 pathetic system. 
 
 Used externally, belladonna relieves irritable and painful 
 wounds, the raw surfaces following frost-bite, the cracks of 
 laud fever, over-sensitiveness of the skin and subjacent muscles. 
 
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DILATES THE PUPIL. 199 
 
 In combination with aconite or opium, it abates and sometimes 
 removes neuralgic and rheumatic pains. In all stages of garget 
 it not only abates pain, but diminishes the troublesome secre- 
 tion of milk. Applied to the skia, it checks undue perspira- 
 tion (Einger). In the form of an injection it allays irritation 
 of the bladder and rectum, and counteracts spasmodic contrac- 
 tion of the uterus. 
 
 In common with hyoscyamus and stramonium, belladonna 
 and atropine dilate the pupil of all animals, birds, it is said, 
 excepted, and do so by whatever channel they are introduced 
 into the body. The effect is accompanied by diminished intra- 
 ocular pressure, and increased sufferance of light, and other 
 stimuli ; is apparent usually within half an hour after the use 
 of the medicine, often in shorter time ; is developed most 
 rapidly, and with least impairment of vision, by applying the 
 preparation round the eyelids, or dropping the solution of 
 atropine into the conjunctival sac, and continues often for a 
 day, especially if full doses have been used. These effects 
 depend upon the mydriatic stimulating the sympathetic nerve 
 and adjacent ganglia ;. the accommodatrug power of the third 
 nerve is thus gradually overpowered. Diametrically opposite 
 results are produced by Calabar bean, which contracts the pupil 
 by paralysis of the sympathetic. Inflammation of almost any 
 part of the eye is relieved by belladonna and atropiue, which 
 regulate circulation and allay irritability and pain. In ulcera- 
 tion of the cornea, occurring in delicate puppies, irritation is 
 abated, and the protruding iris withdrawn. In specific ophthal- 
 mia in horses, and iritis in all animals, adhesions between the 
 iris and lens are prevented or broken up, and are sometimes got 
 rid of even when of long standing. Mydriatics are also used 
 for facilitating the discovery and examination of cataracts, and 
 the performance of operations on the eye. Tor all such pur- 
 poses the most convenient form of application is a few drops of 
 a four-grain solution of atropine dropped into the conjunctival 
 sac. 
 
 Doses, etc. — Of the dried powdered leaves horses and cattle 
 take about Jij. ; dogs. grs. v. to x. The plant is, however, 
 seldom used iu this crude state, but is made into extract succus 
 or tincture. From exposure to elevated temperature, belladonna 
 preparations vary in strength, and are sometimes perfectly use- 
 
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200 BELLADONNA — ^ATROPINE 
 
 less. An active well-keeping extract may, however, he made by 
 the British Pharmacopoeia process, which orders bruising the fresh 
 leaves and young branches, gradually heating the juice, getting 
 rid of albumin which interferes with keeping, and evaporating 
 on a water bath to the required consistence. 100 lbs. of 
 trimmed leaves and young branches yield nearly 7 lbs. of good 
 extract. The dose for horses is 3j. to 3ij. ; for cattle, 3jj. to 
 3ijj. ; for sheep, grs. xx. to grs. xxx.; ftir dogs, grs. ij. to grs. v. 
 The succus or juice is got by bruising the fresh leaves and 
 branches in a stone mortar, pressing out the juice, and adding 
 to it one-third of spirit. An ounce is the dose for the larger 
 animals, ttlx. to ni^xx. for the smaller. The tincture given in 
 similar doses is conveniently made by digestion and subsequent 
 percolation of one ounce of belladonna with a pint of proof 
 spirit. For external application the juice or tincture, as weU 
 as ointments and plasters, are used; whilst Mr. Squire has 
 introduced a soothing liniment styled chloroform of belladonna, 
 made by mixing about one-seventh partof chlomform with the 
 
 tincture. ^^^"^^X^ i 
 
 Atkopine or Ateopia (Ci^ Hjg NOg) concentratesNffre whole 
 activity of belladonna, is uniform and certain in its composition, 
 and its. expense alone prevents its use to the exclusion of all 
 other belladonna preparations. It occurs in the plant inJ3om- 
 bination with malic acid. To prepare it, the plant ojsr4oot is 
 macerated in spirit ; the residue is further exhaustem in a dis- 
 placement apparatus ; from this tincture, containing tha atropine 
 bimalate, the alkaloid is precipitated by hme ; after Afiltration 
 diluted sulphuric acid is added to get the readily degomposable 
 atropine in the condition of the more stable si^flflhatei One 
 pound of root yields twenty grains of alkaloid. ' Pure atropine 
 is in colourless, silky, acicular crystals, devoid of bdour, with a 
 nauseous bitter taste, volatile, sparingly soluble ii/water, soluble 
 in one and a half part of cold alcohol, and mfflifesting alkaline 
 reactions. It is recognised by its solution yielding a yellow 
 precipitate with gold perchloride, and promptly dilating the 
 pupil of the eye. Daturine, the active alkaloid of Datura 
 stramonium, or thorn apple, is understood to be identical with 
 atropine. 
 
 Actions and Uses. — Atropine possesses in concentrated 
 form the poisonous and medicinal properties of belladonna. It 
 
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POISON BY CARDIAC EXHAUSTION. 201 
 
 has more than one hundred times the activity of the best 
 extract. Its action on horses and dogs was in 1867 carefully 
 investigated by Dr. John Harley and Messrs. F. and J. Mavor, 
 the eminent veterinarians of Park Street, London, and their 
 experiments and conclusions embodied in The Old Vegetable 
 Neurotics, by Dr. John Harley. A healthy six-year-old horse 
 and a weakly two-year-old thoroughbred were the subjects of 
 experiment. Atropine sulphate dissolved in water was injected 
 subcutaneously. One-twelfth of a grain caused iu about half 
 an hour an acceleration of the pulse from 32 to 42 beats.; ,after 
 another half-hour a further rise of ten beats had generally been 
 reached. The tongue and mouth were dry, and the temperature 
 increased. The pupils began dilating after thirty-five minutes, 
 and reached their maximum in an hour, when the iris was 
 scarcely visible. The symptoms gradually receded, and ia two 
 to three hours had disappeared. One-six;th of a grain subcu- 
 taneously injected caused restlessness and dryness of the mouth, 
 and in thirty-five minutes an increase of 34 beats in the pulse, 
 which was full, soft, and compressible, and only fell to its 
 original number after six hours ; the dilated pupils returned to 
 their normal state after three hours; upon the secretions no 
 effects were notable. One-fourth of a grain, in twelve minutes, 
 increased the pulsations from 38 to 56, producing also slight 
 irregularity ; the pupils gradually dilated, and in an hour 
 reached their fullest expansion. These effects on the pulse and 
 pupils, with dryness of the mouth and lips, continued unabated 
 during three hours. For eighteen hours the animal remained 
 dull and quiet. Half a grain in twelve minutes fuUy dilated 
 the pupils; the pulse rose to 68 ; the mouth, tongue, and lips 
 became dry ; the horse gaped occasionally, and stood perfectly 
 quiet ; after three hours showed considerable nervousness, and 
 was restless, when disturbed ; for six hours the pulse continued 
 weak and compressible; but the effects gradually declined. 
 Two grains, also introduced subcutaneously, after fifteen minutes 
 raised the pulse 35 beats, and rendered it weak; there was 
 .dryness of the mouth, yawning, restlessness, and nervousness. 
 The animal was partially bUnd, misjudged distances, and ap- 
 peared under the influence of illusions ; the membranes of the 
 eye were injected. Occasional hiccough, tremulousness, and 
 twitching of the intercostal muscles and panuscorium continued 
 
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202 BELLADONNA — ^ATROPINE 
 
 for fourteen hours, when the symptoms generally declined ; but 
 the pupils remained dilated for twenty-four hours. Urine was 
 frequently voided, and in rather increased amount ; the mucous 
 secretions of the towels and the bile were slightly augmented ; 
 the skin secretions imaffected; the respiratory functions not 
 disturbed. From these and other admirable experiments of Dr. 
 Harley's, it appears that the maximum stimulation of the heart 
 results from doses insufficient to produce nervousness; medicinal 
 doses quiet the cerebro-spinal nervous system, but over-doses 
 cause undue sensibiHty to external impressions, wakefulness, 
 and, in extreme cases, delirium. 
 
 Dogs bear relatively larger doses than horses ; their brains 
 are less, and their hearts more readily acted upon. Half a grain 
 in the horse doubled the pulsations, quarter of a grain in dogs 
 trebled them. Doses of one ninety-sixth to one-fourth of a 
 grain raised the pulse in a few minutes from 120 to 400, the 
 beats continuing strong and regular; the pupils were so fully 
 dilated that vision was imperfect, owing to the want of the 
 regulation power of the iris ; the mouth and nose were dry and 
 hot. The larger doses further caused slowness and unsteadiness 
 of movement, but no loss of sense or intelligence. 
 
 A Scotch terrier, 1 6 lbs. weight, received -^ grain atropine 
 sulphate injected under the skin of the back ; in four minutes the 
 pulse rose from 118 to 280 ; the respirations advanced from 19 
 to 30 ; the pupils were dilated to their full extent, the mucous 
 membranes dry, the animal excited and whining; the effects 
 continued four hours. Dogs 15 lbs. and 16 lbs. were killed in 
 three hours by -I gr. with symptoms of prostration, the pulse 
 rapid and feeble, respiration irregular and shallow, muscular 
 twitchings, the sphincters paralysed, death occurring in convul- 
 sions. Four to six grains subcutaneously injected caused in 
 rabbits dilatation of the pupil, uneasiness, enfeebled respiration, 
 acceleration of the cardiac impulse. Double these doses caused 
 besides paralysis, muscular quivering, drowsiness, and in fatal 
 cases diminution both of the frequency and force of the action 
 of the heart and respiratory movements. Atropine and Calabar 
 bean are antagonistic as regards their action on the eye, but 
 only partially so in their general effects. In a limited degree, 
 especially as to the cerebral symptoms, atropine and morphine 
 are also antagonistic. {Report on Antagonism of Medicines^ 
 
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VASOULO-CARDIAC STIMULANTS. 203 
 
 Professor Biaz of Bonn has recently shown that morphine quiets 
 the excitement produced in dogs by large doses of atropine ; 
 and that conversely atropine stimulates the cardiac and respira- 
 tory functions, and thus enable^ the patient to survive until the 
 narcotic is excreted or decomposed (Fraditioner, May 18 '7*7). . 
 
 A direct stimulant of the sympathetic nervous system, 
 atropine, like belladonna, is prescribed as a heart stimulant, an 
 excitant of capillary circulation, an antidote for nervous pain 
 and spasm, a certain mydriatic, and occasionally as a diuretic. 
 Its concentrated form specially adapts it for subcutaneous injec- 
 tion. In enteritis, nephritis, and other veterinary cases, this 
 mode of administration commends itself on account of its direct- 
 ness, rapidity, and power. One-twelfth of a grain of atropine 
 sulphate, used subcutaneously for horses, is stated by Dr. Harley 
 to have as much effect as four grains given by the mouth, and 
 these doses of the alkaloid correspond to one ounce of vacuum 
 extract of belladonna. 
 
 'Doses, etc. — ^Atropine sulphate is the most stable and con- 
 venient form in which to use the alkaloid. The dose in bolus 
 or solution for horses or cattle is gr. ss. to gr. j. ; for sheep, 
 about gr. ^ ; for dogs, gr. -g^ to -^. One-tenth of these quan- 
 tities suffices when the medicine is used subcutaneously. Con- 
 joined with morphine its effects in overcoming congestion and re- 
 lieving pain are increased and prolonged, and are often favourably 
 exerted in enteritis in horses. 
 
 BENZOIN. 
 
 Benzoinum. Gum Benjamin. A balsamic resin obtained by 
 making incisions into the bark of Stjrrax Benzoin, and 
 allowing the liquid which exudes to concrete by exposure 
 to the air. Imported from Siam and Sumatra. — £rit. 
 Fhar. 
 Nat. Ord. — Styracacese. Sex. Syst. — Decandria Monogynia. 
 
 The Styrax benzoin abounds in Siam, Sumatra, and Borneo. 
 When. six years old, it reaches the thickness of a man's body, 
 and for ten years it annually yields about 3 lbs. of resin. In- 
 cisions are made through the bark, when the thick white 
 resinous juice exudes, concreting in tears, which are subse- 
 
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204 BENZOIN. 
 
 quently made into larger masses, and imported in wooden cases. 
 Two sorts occur in the drug stores, the Siam and the Sumatra, 
 the first being most esteemed. Good benzoin is made up of 
 yellow white tears, embedded in. an amber-brown transparent 
 xesin ; it is brittle and easily pulverised, slightly heavier than 
 water, of a faint sweet taste, and an agreeable' balsamic odour, 
 much increased when the masses are rubbed or burned. Ben- 
 zoia is dissolved by alcohol, alkalies, and acids, but imperfectly 
 by water. When of inferior quality, it is dark-brown or nearly 
 black, and devoid of amygdaloid structure. Besides traces of 
 volatile oil, moisture, and impurities, it contains about 80 per 
 cent of three resins distinguished by differences of solubility, 
 and from 14 to 18 of benzoic acid (HC^ Hg Oj), — an acrid, 
 feathery, crystalline acid, prepared by dry distillation of benzoin, 
 or by boiling it with lime and then decomposing the calcium 
 benzoate. Some samples also contain as much as 10 per- cent 
 of the allied cinnamic acid (HCg Hg Oj). 
 
 Actions and Uses. — Benzoin belongs to a class of mild 
 stimulants and expectorants once much used in veterinary prac- 
 tice, and including storax and balsams of Peru and Tolu. It 
 was formerly in high repute as a remedy for coughs, most 
 pectoral complaints, and consumption; it is excreted mainly by 
 the kidneys, part of the benzoic acid being converted into 
 hippuric acid ; but is now seldom used internally. Its stimu- 
 lant and antiseptic properties have long rendered it a popu- 
 lar vulnerary. Like carbolic, salicylic, and boracic acids, it 
 removes foetor and stimulates foul sluggish wounds ; with blood 
 and albuminous fluids it fornis an odorous coagulum which 
 long resists putrefaction ; as a healing agent it is used in the 
 form of the Friar's Balsam, or of its pharmaceutical imitation, 
 the compound tincture of benzoin, which is thus prepared : — 
 " Take of benzoin, in coarse powder, two ounces ; prepared 
 storax, one and a half ounce ; balsam of Tolu, half an ounce ; 
 Socotrine aloes, 160 grains; rectified spirit, one pint. Macer- 
 ate for seven days with occasional agitation, then filter, and add 
 more rectified spirit to make one pint of the tincture. — Srit. 
 Phar. Ten grains of benzoin mixed with the ounce of lard 
 constitutes the weU-keeping benzoated lard used for making, 
 ointments. 
 
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BORACIC ACID. 205 
 
 BOEACIC ACID. 
 Acidum Boracicum — Boracic anhydride. 
 
 Boracic acid is obtaiaed from sodium biborate , by the 
 action of sulphuric acid. In volcanic parts of Italy and in 
 the Lipari Islands, through natural fissures or holes bored in 
 the earth, there issue vapours and jets of steam, which are 
 passed through water, and the solution ■ subsequently evapor- 
 ated, yielding transparent scale-like crystals of boracic acid. 
 They have a feeble acid taste, dissolve in. twenty-six parts 
 of cold water, ia three parts of boiling water, ia still less 
 alcohol, and communicate a green colour to its flame. 
 Aiding the fusion of other bodies, it is much used as a blow- 
 pipe test ; mixed with seven parts of potassium acid tartrate, 
 it constitutes the soluble cream of tartar of the shops. 
 When heated, the three atoms of water of crystallisation 
 are driven off, and anhydrous vitreous boracic acid remains. 
 (B2O3). 
 
 Actions and Uses. — Boracic acid is a non-volatile, unirri- 
 tating, cheap antiseptic, similar iu its uses, but less irritating 
 than salicylic acid, and differing from carbolic acid in being 
 neither irritating nor volatile. The antiseptic effects of 
 boracic dressings, hence, do not extend beyond the spot to 
 which they are actually applied, but as the antiseptic does 
 not evaporate, they have the advantage of not requiring 
 frequent changing. Boracic acid arrests fermentation and 
 putrefaction. For surgical purposes it is used as a lotion, 
 made with about one part of acid to twenty of water; as 
 an ointment, prepared by melting one part of powdered acid 
 with one part of wax and two parts of parafiin and of almond 
 oil; and as boracic lint, made by soaking lint, cotton wool, 
 or oakum in a saturated boiling watery solution, from which 
 the acid crystallises, adhering to the fibrous material. Wounds, 
 whether incised, lacerated, or contused, ulcers, or burns, 
 are washed with the saturated watery solution, and where 
 practicable, covered with several folds of the boracic lint, 
 retained in position by bandages or plasters. Access of 
 irritating germs, ever floating in the air, and the prolific 
 
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206 BUCKTHORN 
 
 cause of suppuration and putrefaction in wounds, is thus 
 prevented ; healing by first intention is favoured ; wasteful dis- 
 charges and bad smells are checked. In extensive wounds, 
 where the tissues are seriously damaged and discharges are 
 abundant, the dressing may require to be renewed daily, and 
 the parts irrigated with carbolic or boracic lotion ; or occa- 
 sionally washed with zinc chloride solution, but after a few 
 days, and in less serious cases from the beginning, the boracic 
 dressings will not require changing for several days, and if 
 they get dry, may be moistened occasionally with the watery 
 solution. To the boracic lotion it often answers well to add 
 a few grains of salicylic acid. Wounds treated in the first 
 stages by the more active carbolic acid, when beginning to 
 cicatrise, usually heal more rapidly if the more irritating car- 
 bolic is superseded by the milder boracic dressings. In ring- 
 worm affecting calves, and, alternated with zinc ointment, in 
 the cracked and eczematous greasy heels of horses, boracic lotion 
 and ointment prove useful. Being bland and unirritating, the 
 .solution, diluted as required, and used either tepid or cold, ig 
 a good antiseptic wash for raw, ulcerating, sloughing, noisome 
 surfaces. 
 
 BUCKTHOElSr. 
 
 Ehamnus Succus. The recently- expressed juice of the ripe 
 berries of Ehamnus catharticus. — Brit. Flwur. 
 
 Nat. Ord. — Rhamnacese. Sex. Syst. — Pentandria Monogynia. 
 
 Buckthorn is a shrubby, thorn-like tree, which reaches eight 
 or ten feet in height, and grows in the woods in various parts 
 of this country. The berries, the only officinal part, are black, 
 globular, about the size of black currants, and contain an acrid, 
 bitter, nauseous juice, at first green, but soon becoming red 
 from production of acetic acid. Besides sugar, colouriag mat- 
 ters, acetic and malic acids, it contains two crystalline gluco- 
 sides, rhanmine and rhamnegine ; but the active purgative prin- 
 ciple does not yet appear to be discovered. The succus or 
 fresh juice soon spoils with keeping, and the chief officinal 
 form is the syrup, which is thus prepared : " Evaporate four 
 pints of the fresh juice of buckthorn-berries to two pints and a 
 half, add three quarters of an ounce each- of sliced ginger and 
 
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A MILD LAXATIVE. 207 
 
 pimemto, digest at a gentle lieat for four hours, and strain. 
 When cold, add six fluid ounces of rectified spirit ; let the 
 mixture stand for two days ; then decant off the clear liquor, 
 and in this dissolve five pounds or a sufficiency of refined 
 sugar with a gentle heat, so as to make the spec. grav. 1'32." — 
 Brit. Phav. 
 
 Actions and Uses. — Buckthorn syrup is cathartic, hut so 
 mild as to be useless either for horses or cattle. Even in dogs 
 or cats it is only mildly laxative, and its use is chiefly confined 
 to young or delicate animals, and to cases of distemper. The 
 dose for dogs is fgi. to fgij., for cats fjiv. to f§i. Tolerably 
 prompt and certain effects are obtained by combining with an 
 ounce of the syrup two or three drachms of senna confection, 
 ten or fifteen grains of jalap, or an ounce of castor oil. Any 
 of these formulae prove a convenient laxative for medium-sized 
 dogs. Half the quantities suffice for cats. 
 
 CALABAE BEAN. 
 
 Physostigmatis Faba. Seed of Physostigma venenosum. Ordeal 
 bean of Old Calabar. 
 
 Nat. Ord. — Leguminosae. Sex. Syst. — Diadelphia Deeandria. 
 
 The ordeal plant of Western Africa is suf&uiticose and 
 twining, with a stem often fifty feet long, a hooded stigma, and a 
 legume in which lie two or three hard, brittle, shining brown seeds, 
 about the size of the ordinary bean. The kernel consists of 
 starch and legumin, a small amoimt of a fatty oil, and in the 
 granular protoplasmic particles is an amorphous, tasteless, 
 active alkaloid, physostigmine or eserine (Cg,, K^i Ng 0^) soluble 
 in alcohol, chloroform, acids, and partially in water. 
 
 Actions and Uses. — Calabar bean is a depressor of the 
 spinal cord. It paralyses the voluntary and subsequently the 
 involuntary muscles, and kills by respiratory arrest, and in 
 large doses by paralysis of the cardiac sympathetic (Professor 
 Eraser). In all animals, and howsoever applied, it contracts 
 the pupU. It does not affect the brain or special senses, and 
 has little or no action on motor or sensory nerves. It closely 
 resembles hemlock, differing from it, however, in contracting 
 the pupU, in producing some amount of gastro-intestinal irrita- 
 
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208 CALCIUM OXIDE — QUICKLIME. 
 
 tion, and lowering more quickly and decidedly the action of 
 the heart (Dr. John Harley). It is the physiological opposite 
 of strychnine, and also of chloral hydrate and atropine, which, 
 when hypodermically injected at the same time, or shortly after 
 a fatal dose of Calabar bean, successfully antagonises it. It has 
 been given to human patients in tetanus, chorea, and epilepsy, 
 and as an antidote in strychnine poisoning, but without any 
 very encouraging effects. Professor Fraser believes, howevef, 
 that the alkaloid, when injected subcutaneously, is one of the 
 most effectual means of controlling the spasms and lowering 
 the temperature in tetanus. In traumatic cases nerve-stretch- 
 ing should also be tried in horses. Dilatation of the pupil 
 from affections of the third nerve is removed by a few drops 
 of a solution of half a grain of alkaloid to the ounce of water. 
 
 Doses. — Horses and cattle take grs. v. to grs. viij. of the 
 powdered bean ; dogs, gr. i. to grs. ij. Of the alkaloid the dose 
 for the larger quadrupeds is about gr. ^ ; for dogs, gr. -^ ; 
 but half these doses suffice for subcutaneous injection. 
 
 CALCIUM Am) ITS MEDICINAL COMPOUNDS. 
 
 Calcium Oxide. Lime. Quicklime. Calx. CaO. 
 
 When limestone, chalkj or marble, or any form of calcium 
 carbonate (CaO COj or Ca CO3), is mixed with coal and tho- 
 roughly burned, its carbonic acid (COg) is driven off, and the 
 metallic oxide (CaO) or quicklime is left. It occurs in grajdsh- 
 white irregular masses, has an alkaline, caustic taste, and a 
 great affinity for water. It combines with about 24 per cent 
 of water, giving off much heat, and forming the hydrate or 
 slaked hme (CaO, HgO). A pint of water at 32° dissolves 
 13'25 grains of lime ; a pint at 60° 11*6 grains ; a pint at 212° 
 6 '7 grains. The presence of sugar increases fully twelve times 
 the solubility of lime in water. Lime-water is prepared by 
 slaking a small quantity of freshly burned lime, agitating it 
 briskly with a large quantity of water, allowing the undissolved 
 matter to subside, and pouring off the clear solution. It is 
 colourless, has an alkaline taste and reaction, and unites with 
 oUs to form soaps. As it readily absorbs carbonic acid it should 
 be kept in closely stoppered bottles. Calcium oxide and its com- 
 
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IRRITANT, DESICCANT, AND ANTACID. 209 
 
 pounds are readily detectable in solution, by their yielding no 
 precipitate with hydrogen sulphide or ammonium hydro-sul- 
 phide, a white precipitate with an alkaline carbonate, an im- 
 mediate and abundant white precipitate with oxalic acid, 
 insoluble in acetic, but soluble in hydrochloric and nitric acids, 
 but no precipitate with ammonia which precipitates the allied 
 compounds of aluminium and magnesium. Lime salts further 
 give a green tinge to flame. 
 
 Actions and Uses. — Lime is irritant, corrosive, de&ic'cant, 
 and antacid. It is a natural constituent of the animal textures, 
 in which it probably occurs mainly in combination with phos- 
 phoric and carbonic acids. Being present in most articles of 
 food, extra supplies are seldom required. When swallowed 
 there is probably deposited on the gastric mucous membrane a 
 film of carbonate, which is dissolved by the hydrochloric acid, 
 slowly absorbed as chloride, reconverted in the blood into car- 
 bonate, held in solution by the free carbonic acid, and ulti- 
 mately excreted by the kidneys. Its effects are chiefly local. 
 Lime, especially when unslaked, and in contact with the mucous 
 and abraded skin surfaces, attracts water, forms a coating of 
 carbonate, and in larger amount irritates and corrodes. Orfila 
 mentions that 1^ drachm administered to a little dog caused 
 vomiting and considerable irritation, which lasted for about a 
 day J and that three drachms caused vomiting, pain, languor, 
 and death in five days. Lime resembles the alkalies in its 
 antacid properties, but differs from them, and is allied to zinc 
 and aluminium salts in diminishing rather than increasing secre- 
 tion; but its desiccant action is mechanical, and unaccompanied 
 by true astringency. 
 
 Slaked lime and lime-water are used as antacids in indi- 
 gestion, hoven, and diarrhoea, especially among cattle. One- 
 fourth or one-sixth of lime-water given with their milk often 
 prevents indigestion, flatulence, and diarrhoea amongst young 
 calves, probably by counteracting undue acidity, and the coagu- 
 lation of the milk in large tough lumps. When acidity con- 
 curs with constipation, sodium bicarbonate is substituted for 
 the lime in the proportion of . a drachm to the pint of milk. 
 Even where there is no indigestion, lime-water is often service- 
 able in ill-thriving calves and lambs. It is occasionally given 
 as an antidote in poisoning by the mineral acids. By itself, 
 
 P 
 
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210 CALCIUM CARBONATE 
 
 but better still -when conjoined mth turpentine, it destroys 
 bronchial filaria, often so troublesome in calves and lambs, 
 and, as a clyster, brings away ascarides lodged in the lower 
 bowels. Mixed with oil or glycerin, it checks the discharge 
 and abates the itching of eczema, but for such cases zinc prepa- 
 rations are usually more effectual. Scalds and. bums are often 
 treated by Carron oil, which consists of lime-water, mixed with 
 an equal quantity of linseed oil. A more recent mode of cure 
 consists in immediately protecting the parts from air and 
 moisture by layers of cotton wadding, applied with gentle and 
 equable pressure. In powder and solution, lime-wash is used 
 for cleansing and deodorising foul stables, cow-houses, and 
 piggeri'es. /^ l^ ^ ^rM^ 
 
 Doses, etc. — Of quicklime, horses or cattle take 3i- to 3ij. ; 
 sheep, grs. xx. to grs. xxx. ; dogs, grs. v. to grs. xx. Of lime- 
 water the larger patients take fgiv. to f§v. ; and the smaller, 
 f3ij. to fji., given alone, or with glycerin, oil, or milk. Two 
 ounces each of lime-water and gentian infusion, repeated twice 
 or thrice daily, check diarrhoea amongst feeble calves ; half the 
 dose answers for sheep. For calves and dogs, saccharated lime 
 may be used as an antacid and stomachic. It is made by rub- 
 bing an ounce of slaked lime with two oimces of sugar, trans- 
 fering the mixture to a bottle containing a pint of water, shak- 
 ing, and separating the clear solution with a, syphon. It is 
 given diluted according to convenience. 
 
 Calcium Caebonate. Calcis Carbonas. Carbonate of Lime. 
 Chalk. CaCOg. 
 
 Calcium carbonate occurs in the several forms of calcareous 
 spar, limestone, marble, and chalk. The last, the only variety 
 of much medical importance, abounds in the south of England 
 in beds mixed with silica, alumiaa, and iron oxide. These im- 
 purities are removed by trituration with a little water, agitation 
 with a larger quantity of water, allowing the coarser fragments 
 and foreign matters to subside, and pouring off the clear liquid, 
 which slowly deposits a fine impalpable powder, which, when 
 dried in blocks, constitutes whitiag ; when in smaller conical 
 roUs is prepared chalk, the creta preparata of the Pharmacopoeia. 
 It is a dull white, earthy, crystalline powder, is tasteless, ad- 
 heres to the tongue, owing to its porosity and its af&nity for 
 
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ANTACID AND DESICCANT. 211 
 
 water, and effervesces witti acids. It is a constituent of the 
 bones of animals, of shells, and of coral. It is the common 
 source of hardness in drinking waters, which, when pure, hold 
 about two grains dissolved in the gallon ; but carbonic acid in- 
 creases the solvent power of the water. Sixteen grains are some- 
 times taken up, but when such hard waters are heated, the 
 carbonic acid gas is driven off, and calcium carbonate deposited 
 in the kettles and boilers. 
 
 Actions and Uses. — Chalk is the cheapest and most con- 
 venient of antacids, and is much used for all the domesticated 
 animals in the treatment of indigestion, chronic diarrhcBa, and 
 dysentery. It resembles lime, but is less local iu its effects ; 
 its action extends throughout the whole of the digestive canal, 
 neutralising acidity, absorbing irritants, and, during its absorp- 
 tion, leaving a film of lime salt which protects the intestinal 
 surfaces. Excessive and faulty secretion is thus diminished! 
 It is a good antidote for oxalic, .carbolic, and the mineral acids. 
 In a dry and finely divided state, it is used as a desiccant for 
 external wounds and skin irritation, absorbing irritatiug dis- 
 charges, and protecting from the air and the host of ferments 
 suspended in it. 
 
 Doses, etc. — For horses, |i. to gij. ; for cattle, gij. to giv. ; 
 for sheep, 3ij. to 3iv. ; for pigs, 3i. to 3ij. ; for dogs, grs. viij. 
 to grs. xij. It is conveniently given in a bolus, or suspended 
 in milk, gruel, or mucilage. When administered in large or 
 frequently repeated doses, the bowels should be kept open, in 
 order to prevent its accumulation in the intestines. It is fre- 
 quently conjoiued with catechu and other vegetable astringents 
 to arrest excessive discharges ; with ginger and other carmina- 
 tives, to control indigestion and diarrhcea ; with opium or bella- 
 donna, to diminish irritability or paiu. The following for- 
 mulse prove serviceable as antacids and mild astringents : — For 
 the horse, an ounce each of chalk, gentian, and ginger, made 
 lip/ in the usual way with linseed meal and treacle ; or chaUc 
 §i., opium 3i., creasote TT|_xx., made up as before; or again, 
 chalk, catechu, and ginger, of each an ounce, opium 3i. For 
 either horses or cattle these prescriptions may be given dissolved 
 in ale ; for sheep, similar combinations may be used in about 
 one-fourth of the doses mentioned ; for dogs, a convenient piU 
 is made with chalk and ginger, of each grs. x., with opium. 
 
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212 CALCIUM CHLORATA, 
 
 grs. ij., and aromatic confection, q.s. A draught of similar action 
 is made with chalk, grs. x., laudanum and ether, of each n\_xv., 
 given in a little nulk or soup, 
 
 Calctom Phosphate. Calcis Phosphas. Phosphate of Lime. 
 
 Cag 2P0^. 
 
 Calcium phosphate is prepared by roasting bone earth until 
 its animal and carbonaceous matter is removed, dissolving it 
 in diluted hydrochloric acid, precipitating the phosphates 
 by ammonia solution and washing. Thus purified, it is a 
 light, tasteless, white, amorphous powder, insoluble in water, 
 but soluble without effervescence in hydrochloric and nitric 
 acids. 
 
 Actions and Uses. — Calcium phosphate is present in bones 
 and' other textures ; occurs abundantly in the intercellular 
 fluid, and wherever cell growth is most active ; and is hence 
 an essential constituent of food and a restorative. Its absence 
 in the dietary is shown by M. Chossat to induce softening of 
 the bones and general wasting ; it is deficient in the bones of 
 pregnant animals. Milne Edwards found that when supplied 
 to dogs whose bones had been intentionally fractured, more 
 rapid union occurred. It is useful for young, rapidly-growing, 
 rickety subjects, and, conjoined with iron, is of service in those 
 cases of aneemia and chronic diarrhoea so common in badly- 
 nourished young cattle and sheep. Bran and bruised oats 
 owe in part their notable dietetic value for young stock to the 
 large amount of calcium phosphate which they contain. 
 
 Bases, etc. — Horses and cattle take 3i. to 3ij. ; sheep and 
 dogs, grs. V. to grs. x. Small doses are preferable to large, 
 which sometimes derange the bowels, and may be conveniently 
 given, mixed with food, and in combination with an iron salt. 
 
 Calcium Chloeata. Calx Chlorata. Chlorinated Lime. 
 Chloride of Lime. Bleaching Powder. A mixture of 
 Calcium Hypochlorite and Calcium Chloride, Ca 2 CI 
 -|- Ca Clj -|- 2H2O, with hme hydrate and water. 
 
 Large quantities of this valuable bleaching agent are made 
 in Glasgow, where it was first prepared by Messts. Tennant 
 and Mackintosh in 1798. The process adopted is as follows : — 
 
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STIMULANT, ANTISEPTIC, AND DEODORANT. 213 
 
 Chloriae gas, produced by the action of sulphuric acid on com- 
 mon salt and manganese black oxide, is transmitted into close 
 chambers, where slaked lime, moistened with water, is spread 
 on tiers of wooden trays. The changes occurring are not well 
 understood ; but the lime, after being texposed to the chlorine 
 gas for about four days, is found to have absorbed nearly half 
 its weight of it, and has become the familiar bleaching powder. 
 It consists of about 28 per cent of calcium hypochlorite, 2 5' 5 
 of chloride, 23 of lime hydrate, and 24-5 of water (Fresenius). 
 
 Properties. — It is a soft, gray-white powder, with a feeble 
 odour of chlorine, or rajher of hypochjorous acid, and an acrid, 
 bitter taste. When exposed to the aii^J^ deliquesces, absorbs 
 oxygen, and evolves hypochlorous acid, which in its turn breaks 
 up into the unstable chloric acid and chlorine gas. When 
 heated or mixed with an acid, chloriae is rapidly given off. 
 It is partially soluble in water, a portion of the hme remaining 
 undissolved. The watery solution is colourless, or of a faint 
 yellow tint, and has at first an alkaline, and subsequently a 
 bleaching action on vegetable colouring matters. Careless pre- 
 paration or bad keeping injures its quality. The intensity of 
 its odour and the. degree of its solubility are simple approxi- 
 mative tests of its strength and purity, and a good specimen 
 should yield at least thirty-five per cent of chlorine. 
 
 Actions and Uses. — Bleaching powder is irritant, stimulant, 
 alterative, and astringent ; it is seldom given internally, but is 
 used externally as a desiccant, a weak antiseptic, an excellent 
 deodoriser, and also as a disinfectant, and owes its several 
 effects partly to the free lime it contains, but mainly to the 
 chlorine and hypochlorous acid it so readily evolves. 
 
 Hertwig has given it to horses and cattle in doses of one 
 ounce to two pounds ; to sheep and goats in one to eight 
 drachms ; and to dogs in h^lf a drachm to four drachms. The 
 smaller quantities produced scarcely any effect ; the larger, 
 besides local irritation, caused acceleration of the pulse, diffi- 
 cult breathing, increased warmth in the mouth, weeping eyes, 
 an abundant secretion of urine, having a curious odour of 
 chlorine or prussic acid, and a white sediment, frequent copious 
 alvine discharges, and in dogs, vomiting. In horses the effects 
 usually began in about twenty or thirty minutes, and lasted 
 from two to five hours. Considerable doses, when given 
 
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214 CALCIUM CHLOKATA 
 
 repeatedly, did not impair tlie appetite, but caused thirst and 
 gradual emaciation. These and other symptoms depend upon 
 the medicine yielding chlorine, which, like, iodine and bromine, 
 hastens tissue changes, and diminishes the amount of fibrin ia 
 the blood (Headland). 
 
 Mr. Youatt recommended bleaching powder for hoven'in 
 cattle, and tympanitis in horses, in doses varying from two 
 to four drachms, and ascribed its supposed good effects to its 
 decomposing the gases evolved iu the alimentary canal. But 
 from repeated and careful trials made at the Edinburgh Veteri- 
 nary College, it appears to be of little, if any, service in the 
 majority of cases of hoven or tympanitis, whether in cattle or 
 horses. It is an antidote in poisoning by hydrogen sulphide 
 and ammonium hydrosulphide ; and with a respirator filled 
 with bleaching powder, Mr. Eoberts explored in safety the 
 sewers of the Bastile, which had not been opened for thirty- 
 seven years, and were full of hydrogen sulphide and other noxious 
 gases. 
 
 Externally it is used as a stimulant and deodoriser for un- 
 healthy noisome wounds, fisttilae, thrush, and canker ; is one of 
 the approved remedies for mange and grease; in diluted solu- 
 tion has been recommended for checking conjunctival ophthalmia, 
 and other circumscribed and superficial inflammations, but is 
 not so effectual as a lead or zinc lotion. It is a feeble anti- 
 septic, inferior to zinc chloride or other metallic salts, or to 
 carbolic or the tar acids. But although it does not arrest 
 putrefaction, or prevent fungous growth, it readily attacks and 
 breaks up the products of putrefaction, and hence proves an 
 effectual deodoriser and a tolerable disinfectant. Chlorinated 
 lime, either in powder or solution, is spread about cow-houses 
 and premises where contagious or epizootic diseases prevail; when 
 free and rapid evolution of the active chlorine and hypochlorous 
 gases is desired, plates containing the powder are set about, and 
 sulphuric acid poured over them ; a more gradual evolution is 
 effected by the carbonic acid of the air when cloths kept satu- 
 rated with a strong solution are suspended about the infected 
 dwellings. Solutions varying from one to ten per cent are 
 employed for disinfecting hides, flesh, or excreta of diseased 
 animals. Notwithstanding its being so cheap and effectual 
 a deodoriser, it has the disadvantage of a sickly smell, which 
 
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A CHEAP DEODORISER. 215 
 
 is disliked both by horses and cattle ; is gradually converted 
 into calcium chloride, which, having a great affinity for water,, 
 leaves the floors, waUs, and other objects to which the deodor- 
 iser has been applied, in an unsatisfactorily moist state ; whilst 
 its decomposing ammonia, urea, and such other unstable com- 
 pounds, greatly diminishes the agricultural value of any man- 
 ure to which it is added. Scattered about the stables or cow- 
 houses, it keeps away flies ; whUst neither rats nor mice fre- 
 quent places where it is sprinkled, especially when mixed with 
 sulphur. 
 
 Doses, etc. — Horses take 3i. to 3ij. ; cattle, 3ij. to 3iv. ;, 
 sheep, about 3i- ; dogs, grs. ii. to grs. v., given either in bolus, 
 or with cold gruel, mucilage, or nulk. 
 
 CAMPHOR 
 
 Camphora. A concrete volatile oil obtained from the wood of 
 Camphora officinarum. Imported in the crude state from 
 China and Japan, and purified by sublimation in this, 
 country (Cjo Hjg 0). — Brit. PJiar. 
 
 Nat. Ord. — Lauracese. Sex. Sys, — Enneandria Monogynia. 
 
 The Camphor Laurel is a tall, handsome evergreen, culti- 
 vated in Japan and China, and in many European conserva- 
 tories. Its wood and leaves evolve a camphoraceous odour 
 when bruised. Judging from experiments made by Sir Eobert 
 Christison, it probably yields about 1-5 00th of its weight of 
 camphor, which is sometimes extracted by exposing the wood 
 to dry distillation. In Formosa, whence comes most of the cam- 
 phor imported to this country, the branches are steeped in water 
 and boiled ; the fluid is strained, and allowed to stand until it 
 concretes ; the crude camphor, with alternate layers of dry earth, 
 is placed on copper vessels, over which domes are inverted, into 
 which, on the application of heat, tha camphor sublimes. On 
 reaching this country, further purification is effected by mixing 
 with a little charcoal, sand,lime, and iron filings, and re-subliming. 
 
 PT^erties. — Camphor occurs in concavo-convex masses, 
 about 10 inches in diameter and 3 inches thick, which derive 
 their form from the vessels in which they have been sub- 
 limed. It is white, translucent, and crystalline, with a bitter, 
 
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216 CAMPHOR 
 
 pungent, cooling taste, and a strong, peculiar, aromatic odour. 
 It floats on -water, and its density varies with the temperature, 
 from about '985 to '996. Exposed to the air, it slowly eva- 
 porates ; heated, it takes fire, and burns with a sooty ilame. 
 It is tough and difficult to powder, unless with the addition of 
 a little spirit, volatile .oil, or sugar. It dissolves readily in ethers, 
 acids, and oils, ia about its own weight of alcohol, in eight 
 times its weight of milk, and in 1300 times its weight of 
 water. It is the oxide of a hydrocarbon terebene (Cjo Hje), 
 present in chamomile, cardamoms, cloves, valerian, and other 
 such oH-yieldiag plants. 
 
 Sumatra or Borneo Camphor (Cjo Hjg 0) is found ia minute 
 crystals in cavities in the wood of the Dryobalanops aroma- 
 tica, and is distinguished from laurel camphor by its softness, 
 friability, and opacity, its higher density, and its somewhat 
 alliaceous odour. From Borneo, Formosa, and other parts of 
 China, fluid camphor oils are got from several different trees, 
 nearly resembling Borneo camphor in composition, and con- 
 taining a hydrocarbon, isomeric with oil of turpentine (Cjo Hjg). 
 Artificial camphor is got by the action of hydrochloric acid on 
 oil of turpentine. 
 
 Actions and Uses. — Excessive doses are irritant and nar- 
 cotic ; medicinal doses are stimulant, anodyne, diaphoretic, and 
 slightly diuretic ; externally it is stimulant, irritant, and feebly 
 antiseptic. 
 
 Its poisonous action varies with the dose, and tempera- 
 ment of the patient. Swallowed in coarse powder, it acts 
 chiefly topically, causing irritation, and even inflammation of 
 the alimentary canal. When finely powdered, or in solution, 
 it is absorbed, undergoes decomposition, is probably oxidised 
 into the odourless camphoric acid, stimulates, and in large 
 doses deranges, and subsequently depresses, the functions of the 
 spinal cord, diminishes reflex action, and induces giddiness, 
 dehriiun, convulsions, and stupor. It is stated to be excreted 
 chiefly by the skin and bronchial membrane, and in less amount 
 by the kidneys (Bartholow). Moiroud states that doses of two 
 ounces produced in horses convulsive movements and accelera- 
 tion of the pidse, unaccompanied, however, by fatal results. 
 Hertwig mentions that, when doses varying from two to four 
 ounces are given to horses and cattle, two to four drachms to 
 
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STIMULANT AKD ANODYNE. 217 
 
 eheep, or one to three- drachms to dogs, respiration and pulsation 
 are accelerated, the breath acquires a camphoraceous odour, 
 sensibility appears to be heightened, and convulsions supervene. 
 Dogs also exhibit imperfect power of controllitig the movements 
 of their limbs ; and when the doses amount to three or four 
 drachms, insensibility and death ensue. The vapour of cam- 
 phor destroys fleas, bugs, moths, and spiders, exciting, enfeebling, 
 and stupefying them. Either ia vapour or solution it prevents 
 the development of the lower vegetable organisms (Dr. Harley, 
 Practitioner, October 1872). 
 
 Mediciaal doses are believed to conjoin stimulant and ano- 
 dyne effects, and to be useful in allaying the nervous irritability 
 of chronic cough, diarrhoea, especially in young animals, and. 
 spasmodic diseases. The credit it enjoys in great part results 
 from its being generally given in conjunction with such active 
 medicines as opium, belladonna, ammonia, or other stimulants. 
 A drachm each of camphor and belladonna extract, dissolved in 
 one or two ounces of sweet spirit of nitre, and given in a pint 
 of water or of cold gruel, may be repeated several times a day, 
 in bronchial irritation of horses and cattle. Five grains each 
 of camphor and belladonna extract, with \ xx. arnica tincture, 
 in a few o\mces of water, is prescribed, to quiet the cough and 
 bronchial irritation accompanying distemper in dogs. In 
 diarrhoea it is prescribed with chalk and opium, or with gentian 
 aromatics and a few drops of hydrochloric acid; or two drachms 
 camphor are combined with a drachm of iron chloride tincture 
 and an ounce of ether. In influenza and other exhausting dis- 
 orders, either in horses or cattle, a stimulating and soothing 
 ■draught is made with two drachms each of camphor and am- 
 monia carbonate and an ounce of ether, given ia ale or cold 
 ^uel. Diuresis occurs only after large and repeated doses of 
 camphor. On dogs getting even half a drachm twice daily, I 
 have not been able to perceive any aphrodisiac effects. It is 
 popularly but erroneously believed to repel the secretion of 
 milk in women and animals that carry fragments of it about 
 with them ; and, on equally insufiicient grounds, has been re- 
 garded as an anthelmintic and disinfectant. Some veterinarians 
 pombine it with cantharides, under the impression that it 
 lessens the irritant action which that substance has on the 
 iidneys. Externally it is applied to allay the irritation of 
 
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 .&' 
 
218 CANTHARIDES FLIES 
 
 skin diseases, womids, and articular rheumatism, as well as 
 chilblains in human patients. 
 
 Doses, etc. — For horses, 3j- to 3ij. ; for cattle, 3ij- to 3iv. ; 
 for sheep and pigs, grs. xx. to grs. xl. ; and for dogs, grs. v. to 
 grs. X. Eequired for anodyne, and not for irritant effects, it is 
 best made into an emulsion with eggs, or dissolved in milk or 
 oil. For external use, it is dissolved in six or eight parts of 
 alcohol, in diluted acetic acid, linseed oil, or oil of turpentine. 
 
 CANTHAEIDES. 
 
 Cantharis Yesicatoria. Lytta Vesicatoria. Blistering or 
 Spanish Fly. 
 
 Glass. — Insecta. Order. — Coleoptera. 
 
 Cantharides flies are found in most parts of Southern 
 Europe, Germany, and Eussia, and occasionally along the south 
 coast of England. They settle on such trees and shrubs as the 
 olive, lilac, privet, ash, elder, honeysuckle, and rose. During 
 May and June, after night-fall or before dawn, the collectors, 
 with their faces protected by masks and their hands by gloves, 
 shake or beat the insects from the trees on which they feed, 
 and kill them by exposure to the fumes of oil of turpentine, or 
 by emersion in boiling vinegar, and CLuickly dry them either in 
 the sun or by artificial heat. Most of the flies used in this 
 country were forraerly brought from Spain (and hence their 
 vernacular name of Spanish ihes), but they are now chiefly 
 imported from Hungary, St. Petersburg, and Messina, usually 
 packed in barrels or cases containing from 100 to 200 lbs. 
 
 Properties. — The insect is of a copper-green colour, measures 
 six to ten lines in length, and one to two lines in breadth, and 
 weighs about a grain and a half. A little furrow running along 
 the head, neck, and body, divides it into two symmetrical 
 halves ; investing a pair of fine gauze-like membranous wings 
 is a pair of shining elytfce, or wing coverings, of a golden green 
 colour, and so indestructible that they have been recognised in 
 the human stomach nine months after interment. The body, 
 especially along its under surface, is covered with grayish-white 
 hairs ; the head is large ; the antenna or horns are black and 
 thread-like. The insect, which lives eight to ten days, deposits 
 
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IREITAJiTT POISONS. 219' 
 
 its larvte in the earth, leaving them to be hatched by the heat 
 of the sun. It has a resinous acrid taste, and a disagreeable^, 
 penetrating, foetid odour, especially strong while the animal is 
 alive. When powdered, cantharides is freely soluble in boUing 
 water, alcohol, ether, acetic acid, and iixed and volatile oils. 
 The active principle being volatile, no cantharidine preparation 
 should be heated beyond 200°. Its vesicant action,. and the 
 brilliant green appearance of the wing covers, are its distinguish- 
 ing tests. 
 
 Cantharides contains -fatty and other animal matters, and 
 the acrid volatile crystaUine Cantliaridin (Cj Hg Oj), which is 
 confined to the soft parts of the body, is present particularly 
 in the female sexual organs, constitutes about four or five parts 
 to the thousand. It also occurs ia the Mylabris Cichorii,. 
 common in India, and in most other Vesicant insects. It is 
 slowly deposited, when an alcoholic solution of cantharides is 
 concentrated ; when pure, it is a solid volatile oil, insoluble 
 in water, but soluble in alcohol, acetic acid, ether, chloroform, 
 and oils : -j^ of a grain suffices to blister. 
 
 Impunities. — As the powdered cantharides sold in the shops 
 sometimes contains euphorbium and various cheap irritants, 
 the flies should be purchased entire. Attention to their 
 characters will discover admixture of other insects. Damp, 
 long keeping, and the attacks of mites, moths, and beetles, 
 often impair their activity. Such parasitic attacks are pre- 
 vented by keeping the fresh flies in closely stoppered bottles, 
 with a few drops of acetic acid, or a few grains of camphor or 
 ammonium carbonate. 
 
 Actions and Uses. — Poisonous doses inflame the intestinal 
 canal and urino-genital organs ; medicinal doses are irritant, 
 stimulant, and diuretic; external applications are rubefacient 
 and vesicant. 
 
 General actions. — Cantharides primarily 'irritates and in- 
 flames any part with which it comes in contact. Absorbed 
 and diffused, large quantities, after primary irritant effects,, 
 depress circulation,- arterial pressure, and temperature. Orfila 
 found that " three drachms of the tincture, with eight grains of 
 powder suspended in it, caused the death of a dog in twenty- 
 four hours, if retained in the stomach by a ligature on the gul- 
 let, insensibility being the chief symptom ; and that forty grains 
 
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220 CANTHARIDES FLIES. 
 
 of the powder killed another dog in four hours and a half, 
 although he was allowed to vomit. In aU the instances in 
 which it was administered by the stomach, that organ was 
 found much inflamed after death ; and generally fragments of 
 the poison were discernible if it was given in, the form of pow- 
 der. When applied to a wound, the powder excites surround- 
 ing inflammation ; and a drachm will in this way prove fatal 
 in thirty-two hours, without any constitutional symptom ex- 
 cept languor " (Christison on Poisons). An ounce of powdered 
 cantharides administered to a horse caused death in eighteen 
 hours ; and fatal effects are reported to have occurred where 
 only one drachm was given (Morton). In poisoning by can- 
 tharides, the post-mortem appearances are congestion and inflam- 
 mation of the alimentary canal and urino-genital organs, the 
 latter being usually most affected when the animal lives for 
 some days after the administration of the poison. Congestion 
 of the brain, and effusion into its cavities, have also been 
 recorded. 
 
 When cantharides has been given in excessive dose, or been 
 largely absorbed from the skin surfaces, gastric and urinary 
 irritation are combated by mucilaginous fluids, and opiates 
 freely given by the mouth and rectum ; by sodium bicarbonate 
 or other alkalies ; by tepid fomentations applied to any recently 
 blistered surfaces ; and, in the horse, by fresh sheepskins laid 
 over the loins. 
 
 When cantharides is swallowed the active principle appears 
 to be dissolved by the alkaline matters of the digestive canal, 
 and thus enters the blood. Whilst combined with the alkali, 
 it is in part deprived of irritant properties, which are, however, 
 recovered as it passes through the kidneys, where excess of 
 acid probably neutralises the alkali, and the liberated cantha- 
 ridin acts as a diuretic, or, in still larger amount, causes so much 
 irritation that secretion is arrested and inflammation produced 
 (Headland). Absorbed in full or repeated doses, it corrugates 
 the red corpuscles, diminishes the contractile force of the heart 
 and blood-vessels, increases the number of the heart-beats and 
 the temperature, induces hyperaemia and stasis, and even 
 inflammation of various organs, especially of the bowels and 
 urino-genital organs (Cantieri). Small and repeated doses are 
 stimulating and tonic ; but, tmless used with caution, are apt to 
 
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RUBEFACIENT AND VESICANT. 221 
 
 irritate the uriao-genital organs, and produce diuresis. Given 
 continuously, little vesicles usually appear on the skin, owing 
 probably to small quantities of cantharidin being thus excreted. 
 It stimulates the sexual appetites, and in North Germany is 
 given to cows which are tardy in coming in season ; but this 
 aphrodisiac action is uncertain in either sex, and only pro- 
 duced by dangerously large doses. It is occasionally prescribed 
 in relaxed states of the digestive and urinary organs ; and in 
 human patients to relieve dropsy, arrest chronic mucous dis- 
 charges, and control psoriasis. 
 
 According to the strength and quantity of the preparation 
 used, the period during which it is applied, or the sensitiveness 
 of the skin, cantharides acts externally as a rubefacient or a 
 vesicant. It causes irritation, pain, and swelling, with some 
 redness, and subsequent effusion of serum in circumscribed 
 spots betwixt the true skin and the epidermis, constituting 
 vesicles or blisters. These usually appear in from three to 
 twelve hours, according to the strength of the preparation and 
 the state of the part to which it is applied. They vary much 
 in size, and, after a variable but usually short time, they burst, 
 discharging a yellow serous' fluid, which soon becomes sticky, 
 and dries into scurfy cicatrix. In a fortnight or three weeks 
 the blistered part is usually healed, and all mark nearly obli- 
 terated. Sometimes, however, when the inflammation has 
 affected the deep-seated tissues, the hair is removed, and does 
 not retdily grow again. This most commonly results from the 
 excessive strength of the blister, from its containing corrosive 
 mineral substances, or from its injudicious application to parts 
 in a state of undue irritability. The blistering action of can- 
 tharides differs somewhat in the different domesticated animals, 
 being niost powerful in horses, rather weaker in sheep and dogs, 
 and stiU weaker in cattle and swine. It is more prompt and 
 efficient in young, well-bred, and thin-skinned animals, than in 
 old, coarsely-bred, and hard-hided subjects. When applied 
 directly to wounds, ulcers, or parts in an inflamed or erysipe- 
 latous state, it usually causes excessive irritation, and sometimes 
 extensive sloughing. On the other hand, when there is much 
 vital depression or active inflammation near the blistered part, 
 the action is apt to be slow and imperfect. Compared with 
 some other vesicants, cantharides acts slowly and gradually, but 
 
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222 CANTHARIDES FLIES. 
 
 tolerably permanently ; it causes a large amount of serous effu- 
 ,sion, and is occasionally absorbed, causing diuresis, strangury, 
 and other constitutional symptoms — effects which occur espe- 
 cially when it is applied in large quantity over an extensive 
 surface, when the skin has been abraded, or when the local 
 action is slow. and imperfect. For the withdrawal of blood 
 from distant parts, in other words, for acting as a revulsive, or 
 for overcoming acute congestion of internal organs by rapidly 
 warming an extensive skin surface, mustard, ammonia liniment, 
 or even smart friction, is more prompt, effectual, and safe than 
 cantharides. 
 
 Medicinal Uses.— When applied to skia surfaces, which 
 overlie textures in a state of disease or pain, by reflex action, 
 perhaps by some electric change in the impaired nervous tissues, 
 it overcomes that dilatation and paralysis of the capillaries 
 which occur in congestion and in the early stages of inflamma- 
 tion. In a later stage of inflammation, when many capillaries 
 are occluded, by stimulation, it probably develops a higher 
 nutrition ; whilst in still more advanced stages it helps recovery 
 by hastening liquefaction and removal of morbid matters. It 
 abates pain, and relieves the breathing in pleurodynia and 
 pleurisy, and also but less notably in bronchitis and pneumonia. 
 Although of no use in removing general dropsies, fly blisters 
 often abate local effusions, such as hydrothorax ; and besides 
 draining away the fluid, they also, in such cases, exert a whole- 
 some effect in restoring normal nutrition. A lite improved 
 state of circulation of blood and nervous influence, probably 
 also depending upon reflex action, doubtless occurs when 
 bhsters are appKed in colic ; but in such cases mustard, being 
 more prompt, is preferable. In arresting phlebitis, nothing is so 
 effectual as a fly blister, which, in inflammation of the jugular 
 vein of the horse, should be well rubbed in throughout the 
 course of the tense corded swoUen vessel. A mild blister, kept 
 open for a week or ten days, beneflts some cases of chronic 
 paralysis ; and either dissipates or brings to a head tardy 
 abscesses, such as those met with in irregular strangles. As 
 stimulants and vesicants, cantharidine blisters are largely used 
 to combat irritation and inflammation of joints, bursae, ligaments, 
 tendons, cartilages, and bones ; and in such cases probably act 
 beneficially by inducing increased vitality, and determining 
 
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MILD BLISTERS PREFERABLE. 223 
 
 reparative instead of destructive inflammation. For induciag 
 these more permanent deep-seated effects, mercury red iodide 
 ointment is often substituted. Cantharides dressings sometimes 
 promote healing of old unhealthy wounds, and weak and callous 
 ulcers ; remove scurfiness and thickening of the skin, as in mal- 
 lenders, and sometimes in inveterate mange ; and stimulate the 
 growth of hair. In open joints, where the breach of continuity 
 is small, as from perforation by a stable fork, a cantharides 
 dressing usually causes swelling, and exudate sufficient to pre- 
 vent further escape of joiut oil. Cantharides ]5listers must not 
 be applied directly to any part iu a state of exalted vascularity 
 and sensibility, nor to* the skin where there is tendency to 
 erysipelas. They are more serviceable in controlling iuflamma- 
 tion of a limited and subacute type than of an extended and 
 acute character. They seldom require to be persisted with 
 until they produce wasteful serous discharges ; more good 
 usually results from a milder contiuuous action. In tetanus, 
 iu which they are still sometimes used, they are singularly 
 unsuitable. Their liability to become absorbed and stimulate 
 the urinary organs forbids their use where these parts are 
 irritable or inflamed. 
 
 Doses, etc. — For horses, grs. iv. to grs. xx. ; for cattle, grs. x. 
 to grs. XX.; for sheep and swine, grs. ij. to grs. viij.; for dogs, 
 gr. ss to grs. ij. Eepeated once or twice a day ; usually given 
 with aromatics and bitters, iu the form of bolus or tincture ; 
 admuiistration suspended if strangury or any untoward effects 
 occur. 
 
 Cantharides is used externally chiefly in the form of 
 powder, tincture, ointment, liniment, or plaster. 
 
 Powdered Cantharides is principally used for keeping up 
 discharges, and for scattering over mustard poultices and other 
 stimulant applications to increase their activity. 
 
 Tinctures of Cantharides, vulgarly termed sweating blisters, 
 are made of varying strength. Those used in human medicine 
 are too weak for most veterinary purposes. One ounce of 
 coarsely powdered flies, macerated for seven -days with fifteen 
 or twenty ounces of proof spirit, forms a useful tincture of 
 medium strength. The activity is augmented by addition of 
 small quantities of euphorbium, liquor ammoniEe, or oil of tur- 
 pentine. The tinctures in common use act more speedily than 
 
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224 . CANTHARIDES OINTMENTS. 
 
 the ointments, but their effects are less powerful and of shorter 
 duration. Though producing considerable irritation, they 
 seldom cause bHsteriag, unless applied repeatedly at short 
 intervals. In using them, it is not essential that the hair be 
 removed, nor even that the animal be kept idle. They may be 
 applied repeatedly to the same spot without fear of blemishing. 
 
 Vinegar of Cantharides (Acetum Cantharidis), a solution of 
 one part of powdered flies in about ten of acetic acid, forms a 
 prompt counter-irritant. 
 
 Ointments of Cantharides are touch used ia veterinary 
 practice. Their oleaginous constituents render them easy of 
 application, and ensure the solution of the cantharidia. Many 
 contain a number of iagredients, but the simplest are usually 
 the best. A useful ointment of medium strength consists of 
 one part of powdered cantharides to six of hog's lard, palm oil, 
 or resinous ointment. Such an ointment, when well made and 
 applied with smart friction, acts very efficiently, is little apt to 
 blemish, and hence is preferable to more complex preparations. 
 One part each of powdered cantharides, Venice turpentine, and 
 resin, with four . parts of palm oil or lard, carefully melted 
 together, also makes an excellent ointment. Amongst the 
 many irritant substances which needlessly enter into the com- 
 position of the blisterii^g oiatments of the shops, are euphorbium, 
 sulphuric acid, and occasionally even corrosive sublimate and 
 arsenic. The two former are present in the following common pre- 
 paration : — Powdered cantharides, one ounce; powdered euphor- 
 bium, one ounce ; oilof thyme, two drachms; sulphuric acid, two 
 drachms ; resiuous ointment, four ounces. For horses such a pre- 
 paration must be used with much caution ; for, besides enough of 
 cantharides alone to render it an active blister, it contains a very 
 unwarrantable amount of euphorbium and sulphuric acid, each of 
 which ingredients, if used at all, should never expeed in quantity 
 one-eighth part of the active principles of a blister. In larger 
 amount they are apt to cause unnecessary pain, sloughing, and 
 permanent blemishing. In cattle practice, counter-irritation is 
 generally produced with mustard and hot water, bu^ some 
 powder or strong ointment of cantharides, mixed with the 
 mustard, greatly increases its effects. For dogs, a convenient 
 ointment is made with an ounce each of powdered cantharides 
 and oil of turpentine, and ten ounces of lard. In preparing 
 
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LINIMENTS OP OANTHARIDES. 225 
 
 cantharidine ointments, the oleaginous and resinous substances 
 are melted together over a slow fire, or, better stiU, over a 
 water bath, the powdered cantharides and any other ingredients 
 stirred in, the heat, which should not exceed 200°, continued 
 for ten or fifteen minutes, and the mass stirred until cool. The 
 ointment {unguentwm cantharidis) of the British Pharmacopoeia 
 is thus directed to be made : " Take of cantharides and yellow 
 wax of each one ounce ; oUve oil, six fluid ounces. Infuse the 
 cantharides in the oil in ^ covered vessel for twelve hours, 
 then place the vessel in boiling water for fifteen minutes, strain 
 through muslin with strong pressure, add the product to the 
 wax previously melted, and stir constantly "v^hilst the mixture 
 cools." To ensure the full vesicant effect of cantharides, the 
 hair, where rough or long, should be clipped or shaved off; 
 the skin, if dirty, washed with soap and water ; and the oint- 
 ment then spread over the part, and well rubbed in. The 
 extent of the siuface to be covered must depend of course upon 
 the nature, seat, and extent of the malady. Too large a 
 surface, such as aU four limbs, freely blistered at once, some- 
 times induces serious irritative fever, and occasionally tetanus 
 (Professor "Williams). To prevent the ointment when liberally 
 applied from spreading beyond the desired limits, the blistered 
 spot may be surrounded with an edging of resinous ointment. 
 The blister, while rising, often causes much irritation, and the 
 animal, if permitted, will rub or bite the blistered part. In 
 the horse, this should be prevented by securing the head to the 
 rack, putting on the cradle, or tying up the tail when required ; 
 in the dog, by the use of the muzzle. On the second day 
 after the blister has been applied, the part should be fomented 
 with warm water, and dressed with oil, lard, or any simple 
 ointment; but if a sufficiently powerful effect has not been 
 produced, a little more of the blister may be applied. 
 
 Liniments of Cantharides are merely liquefied ointments, 
 and, in respect of activity, occupy a mediate place between 
 ointments and tinctures. They generally consist of one part 
 of cantharides, and from six to ten parts of linseed oil. Oil of 
 turpentine is sometimes also added. Some practitioners use a 
 liniment of one part of cantharides and four or five of tar — a 
 combination not very commendable, and not easily rubbed jn. 
 
 Plasters of Cantharides are not much used in veterinary 
 
 Q 
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226 CAKBOLIC ACID 
 
 practice, being difficult of appKcation, and very apt to be dis- 
 placed by the powerfully corrugatiag action of the panniculus 
 carnosus. They are made in the same manner as ointments, 
 but rendered more strongly adhesive by the addition of resia 
 or pitch. They are usually applied in the melted state, imme- 
 diately covered by a little tow or teased lint, and enveloped in 
 a suitable bandage. 
 
 CAEBOLIC ACID. 
 
 Acidum Carbolicum. Phenic Alcohol. Phenol. Phenic Acid. 
 Phenyl Hydrate. H, C^ H^ 0. 
 
 Carbolic acid was discovered by Eunge in 1843 ; it is an 
 ordinary constituent of the urine of herbivora, and one of the 
 many interesting products obtained from coal tar. Cannel 
 coal is its most prolific source, but it is also present in other 
 coals, as weU as in bitumen and petroleum. The commercial 
 supply is obtained from the black heavier coal tar oils, which 
 are shaken with caustic soda or miLk: of lime, the watery por- 
 tion decanted, and the resulting carbolate decomposed by a 
 mineral acid. The impure carbolic acid, when rectified, occurs 
 at the temperature of 40° in coloiirless needle-like crystals, 
 which absorb moisture from the atmosphere, melt at 95°, boil 
 at 370°, have a specific gravity of 1'065, with a pungent crea- 
 sote odour and taste. It is devoid of acid reaction, dissolves 
 in about twenty parts of water, but is more soluble in glycerin, 
 oils, alcohol, ether, and acetic acid. It coagulates albumin. 
 With sulphuric acid, it unites to form sulpho-carbolic acid, 
 which produces a series of definite stable, soluble, crystaUisable 
 salts — the sulpho-carbolates which exhibit in mild degree the 
 actions of carbolic acid. With nitric acid, it forms picric acid 
 ——an antiseptic, and much used as a yellow dye. When car- 
 bonic anhydride is passed through dry powdered phenol-sodium, 
 another valuable antiseptic is produced — salicylic acid. Heated 
 with ammonia in a sealed tube there results the celebrated 
 aniline dye. 
 
 Carbolic acid is distinguished by its odour. An aqueous 
 solution, even if contaiaing one 1000th part, when treated 
 with a drop or two of iron perchloride solution, produces a 
 
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AN IREITANT NAECOTIC. 227 
 
 beautiful mauve colour. The British Pharmacopoeia gives an 
 easy but less delicate test : a slip of deal dipped in a carbolic 
 acid solution, and afterwards in hydrochloric acid, and aUowed 
 to dry in au-, acquires a greenish-blue colour. As a test for 
 purity, Mr. W. Crookes gives the following instructions : — " A 
 wine-glassful of the liquid is placed in a bottle and mixed with 
 half a pint of warm water; if the greater part dissolves, it is 
 an adulterated article ; if the liquid tested with litmus paper 
 is strongly acid, sulpho-carbolic acid will probably be present ; 
 if alkaline, caustic soda has probably been used as a solvent." 
 A good specimen is dissolved in twice its bulk of caustic 
 potash, in which oil of tar is insoluble. Creasote, apt to be 
 mistaken for impure carbolic acid, is distinguished by its lesser 
 solubility in water, by boiling and drying up at 212°, instead 
 of at 370°, and by not soUdifyiug at 40°. 
 
 Cresylie acid occurs along with carbolic acid in coal tar, 
 has a creasote odour, is not crystalHsable, develops a violet 
 colour with sulphuric acid, has antiseptic properties quite as 
 marked as those of carbolic acid, and, like it, is an alcohol in 
 its chemical affinities, its composition (H, C,. H^ 0), and also in 
 its physiological effects. 
 
 Actions and Uses. — Carbolic acid is an irritant narcotic 
 poison, is used in mediciae and surgery as a stimulant and 
 antiseptic, and is extensively employed as a disinfectant. 
 
 General Actions. — A strong solution applied to the skin or 
 mucous surfaces acts as a topical irritant, coagulates albumin, 
 and leaves a white, dry, roughened surface, more or less 
 deprived of sensation, from which the shrivelled epidermal 
 scales subsequently peel off. When swallowed, besides exert- 
 ing this local action, and in carnivora usually causing vomiting, 
 it is readily absorbed, probably as a carbolate, and produces 
 inebrient effects analogous to those of alcohol. Like alcohol 
 and oil of turpentine, it acts on the cerebro-spinal axis ; in the 
 lower animals more notably on the spinal cord, stimulating, 
 deranging, and paralysing its functions, and destroying hfe by 
 respiratory arrest. Two drachms prove immediately fatal to 
 dogs, two drachms killed a full-grown cat in two minutes 
 (Dr. Sansom). Dr. CuUen, of Calcutta, found that one drachm 
 given to small dogs caused excitement, dilated pupils, shallow 
 stertorous breathing, convulsions, and death in ten minutes 
 
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228 OARBOLIC ACID 
 
 {Veterinarian for September and November 1872). Half- 
 drachm doses given to small dogs caused immediate trembling, 
 agitation, frothing at mouth, sometimes vomiting, staggering, 
 occasionally convulsions, and recovery in about an hour. 
 Three or four drops placed under the wings of sparrows caused 
 excitement, restlessness, and death in half an hour ; toads, 
 earth-worms, beetles, and fleas were promptly poisoned 
 (Lamaire). Two drachms repeatedly given by the late Mr. 
 Eomanes of Leith to a donkey had no very notable effect. 
 Ounce doses have only slight and transient effects on horses. 
 Poisonous doses immediately caused dogs, rabbits, and other 
 animals to reel, move in jumps, and fall as when intoxicated ; 
 they tremble and show muscular weakness, cough, froth at 
 mouth, and are paralysed, the fore extremities being usually 
 first affected; albuminuria and haematuria are occasionally 
 present ; there is more or less anaesthesia and unconsciousness ; 
 gasping, difficult breathing, and convulsions precede death. 
 
 Poisoning is produced by whatever channel the acid is 
 introduced into the system. Dressings used in human surgery 
 sometimes cause nausea, vomiting, giddiness, and high-coloured, 
 smoky-smelling urine. Scabby sheep too freely dressed occa- 
 sionally suffer from congested and inflamed lungs, linger for 
 weeks, and even then die. Dogs are particularly susceptible, 
 and even a single incautious dressing wUl produce dulness, 
 trembling, and disinclination for food, often continuing for 
 several days. Stronger dressings too freely used, within a few 
 minutes cause excitement, blowing, unsteady gait, and occa- 
 sionally even fatal coma. A considerable skin surface, freely 
 wetted, is recorded by Professor Williams to have produced 
 "gradual failure of tllfe heart's action;" whilst in other cases 
 the animal has fallen into a state of marasmus, with sunken 
 eyes, foetor of the breath, formation of sordes on the teeth, 
 " tarry " faeces, total loss of appetite, and death in six to twelve 
 days {The Principles and Practice of Veterinary Surgery). 
 In many cases of poisoning from the dark impure acid, the 
 active cresylic acid, which is largely present, shares the blame 
 with the carbolic acid. Both poisonous and medicinal doses 
 are excreted by the lungs and skin, but chiefly by the kidneys, 
 deepening the colour of the urine, and preserving it for a long 
 period from putrefaction. The urine of animals receiving 
 
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ARRESTS FERMENTATION AND PUTREFACTION. 229 
 
 carbolic acid, or to whose skias it lias been freely applied, 
 gives off a tar odour when treated with a drop or two of 
 sulpliuric acid, whilst a blue colour is developed on adding to 
 it a little iron perchloride solution (Dr. S. Einger). 
 
 The post-mortem appearances are, whiteniag of the mouth 
 and fauces, and sometimes of the stomach; strong solutions 
 leave patches of redness and inflammation in the stomach and 
 smaU intestines ; a smoky creasote odour pervades the body ; 
 the internal organs are congested ; the vessels of the brain are 
 full of fliiid blood ; serous effusion is generally observed on the 
 surface and within the ven^icles of the braiu (Dr. Cullen) ; 
 the lungs, in cases that have survived several days, are ecchy- 
 mosed ; the blood is feebly coagulated, but the corpuscles are 
 unchanged {The, Antiseptic System, by Dr. Arthur E. Sansom. 
 1871). The most reliable chemical antidote is lime saccharate, 
 but it is ineffectual in arresting constitutional symptoms. 
 Any unabsorbed acid should be got rid of by emptying the 
 stomach by an emetic, or the stomach-pump. Topical irrita- 
 tion will be combated by white of egg and mucilaginous drinks, 
 and by inhalation of steam medicated with a little laudanum. 
 Elimination of the poison is hastened by stimulating the 
 functions of the skin and kidneys. 
 
 The great value and manifold applications of carboHc acid 
 depend upon its antiseptic power. It arrests as well as pre- 
 vents fermentation, but for these purposes a larger amount is 
 required than of corrosive sublimate ; yeast treated with it faUs 
 to exert its famOiar effects upon sweetwort; in its presence 
 mould and other such fungi cannot grow, and, if already in 
 existence, are speedily killed. Nor are large dbses requisite to 
 produce these effects : 1\ per cent desftoyed all organised life 
 in putrefying solutions ; putrefactive taiut, and usually fungi 
 as well, were prevented in solutions of meat or of bread and 
 ™i^^ ^7 -^hs *° 100 °^ carbolic acid; butyric fermentation 
 was arrested by -^^^ ; peptonification of albumin by ^^ ; 
 whilst alcoholic fermentation required 4 per cent (Plugge). 
 Meat steeped for an hour in a solution of one per cent is 
 effectually preserved ; a sparrow suspended in a corked bottle 
 wetted with the acid remained sound for a month, the feathers 
 showing no disposition to separate. Dr. P. Grace Calvert, in a 
 series of comparative experiments, found carbolic and cresyHc 
 
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230 CARBOLIC ACID 
 
 acids superior to acids, alkalies, chlorine, sulplmrous gas, and 
 other antiseptics, in preventing in albuminous solutions the 
 development of vibrios and fungi, and in effectually destroying 
 them in solutions in which they had been produced. Their 
 power to preserve gelatin-containing solutions was not, however, 
 so great. This antiseptic effect of carbolic acid does not result 
 from oxidation or deoxidation, from the coagulation of albumin, 
 from other chemical action, but from a special power of destroy- 
 ing germs, whether of vegetable or animal origin. Not only 
 does carbolic acid destroy the lowly cells or germs which excite 
 fermentation and decay, but oaig, barley, beans, and lentils, 
 when soaked in a one per cent solution, do not germinate; 
 plants watered by it die, the flowers suffering before the leaves. 
 The vapour or solution promptly poisons not only simple 
 animalcules, such as bacteria, vibrios, and monads, but creatures 
 higher in the scale, such as fleas, moths, ticks, earth-worms, 
 ascarides, and lumbrici. All the lower forms of life are quickly 
 killed by solutions containing one part of acid to a hundred of 
 water. Sprinkled on the doorway, it alarms and turns aside 
 the advancing armies of ants which in some parts of Mexico 
 cause so much annoyance and destruction. On the threshold 
 of wounds it is found by Professor Lister to be equally effectual 
 in warning off and killing those ubiquitous germs, which, float- 
 ing in the atmosphere, are ever ready to drop upon, irritate, 
 and disorganise surfaces deprived of their protecting covering. 
 A minute amount mixed vdth vaccine lymph deprives its 
 granular matter of its characteristic activity. Mr. W. Crookes' 
 experiments indicate that the virus of cattle plague loses its 
 reproductive powers when exposed to carbolic vapours (Eeport 
 to Cattle Plague Commissioners). The subtle, actively-repro- 
 ducing germs which are given off during the progress of other 
 catching diseases, are doubtless also destroyed when brought 
 into contact with carbolic acid ; indeed, no substance proves so 
 generally serviceable as a disinfectant. 
 
 Medicinal Uses. — Destroying septic germs and preventiag 
 their formation, the administration of carbolic acid is evidently 
 indicated in those diseases in which tissue-change is unduly 
 violent. It has proved of value in cattle plague, lowering 
 advancing temperature, and prolonging even where it did not 
 actually save life. One hundred and five grains of acid in six 
 
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CHECKS PYJEMIA. 231 
 
 ounces of water were injected by Mr. William Crookes into the 
 blood of a cow suffering from cattle plague, with little apparent 
 injury beyond what might have been expected from any simple 
 fluid ; the patient gradually recovered. M. Bouley, as president 
 of the commission appointed by the French Academy of Sciences 
 to investigate the subject of malignant pustule, reports that in 
 attacks produced by inoculation every patient died ; but when 
 cattle inoculated in the same manner were dosed with two or 
 three drachms daily of carbolic acid, four out of five animals 
 recovered. A like favourable result also followed the use of 
 the acid in horses and sheep inoculated with pustule. In the 
 Texas cattle-fever the remedy most relied on was twelve ounces 
 each of carbolic acid and sodium bicarbonate, mixed with four 
 fluid ounces of glycerin; the dose of the mixture being two 
 table-spoonfuls thrice daily in a quart of water. In tedious 
 malignant cases of strangles and putrid sore throat, in typhoid 
 fever, purpura heemorrhagica, and farcy amongst horses, carbolic 
 acid has been used with success. Two drachms given thrice 
 daily to horses with farcy and glanders afforded only temporary 
 benefits. It deserves further trial in checking pyaemia, and 
 allaying the fever and pain of weed. By Mr. Priestman and 
 others, it has been used with some benefit in the treatment of 
 the contagious pleuxo-pneumonia of cattle. In black quarter 
 in young cattle it appears to stave off a fatal issue, and, given 
 to subjects breeding the disease, it should operate as a preven- 
 tive. It mitigates the severity of mouth-and-foot disease, and 
 when given in this and other such contagious diseases, it pro- 
 bably checks the reproduction of the specific virus, and thus 
 prevents or greatly reduces its risk of spreading. In aU 
 animals it is effectual in counteracting dyspepsia and flatulence, 
 especially when depending upon atony and liability to fer- 
 mentative changes. A few drops added to .the ordinary pre- 
 scriptions used in diarrhoea and dysentery help to arrest undue 
 secretion, and further deprive the excreta of their acridity and 
 foetor. 
 
 Antiseptic surgery, recently reduced to a scientific system, 
 and extensively applied by Professor Lister, has saved both 
 men and animals an enormous amount of suffering, has pre- 
 vented blemishing, conserved useful members, and expedited 
 cure. For general surgical purposes, no antiseptic is so con- 
 / 
 
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232 CAEBOLIC ACID 
 
 venient and effectual as carbolic acid. Wounds, whether made 
 by accident or by the surgeon's knife, at once freely irrigated 
 with the carbolic solution, and kept covered with lint and other 
 appliances well soaked with the antiseptic, heal rapidly with- 
 out untoward results. The air, before reaching the raw surface, 
 is filtered, as it were, through these antiseptic dressings, and 
 deprived of those germs which are so prone to excite irritation, 
 with its concomitants of undue exudation, degeneration, and 
 suppuration. Blood and exudate from serious wounds immedi- 
 ately saturated with carbolic acid, and protected from irritating 
 aerial particles, have no tendency to putrefy or develop those 
 acrid foul discharges common in wounds treated in the ordinary 
 way. Not only is the comfort and health of the individual 
 promoted, but annoyance and injury to adjacent animals are 
 also prevented. Portions of dead muscle, tendon, or bone, if 
 they cannot readily be separated or extracted, when kept wet 
 with carbolic solution and covered in by the carbolised dress- 
 ings, are frequently mummified and cease to irritate. In this 
 way fistulse of the poll, withers, and lateral cartilages, carefully 
 attended to and protected from the harmful germs which float 
 in ordinary air, may sometimes be radically cured without 
 operation. The cells of cancer, melanosis, and other malignant 
 diseases, are also destroyed by the antiseptic. In serious sur- 
 gical cases the fullest benefits of the antiseptic treatment are 
 secured only when it is adopted at once. After twenty-four 
 hours, often in less time, the irritating germs will have found 
 entrance to the wound, and preservation and condensation of 
 effased blood and serum wiU be impracticable. In such cases 
 zinc chloride followed by water dressings is often preferable to 
 the carbolic treatment. 
 
 Following Professor Lister's instructions, a wound, whether 
 incised, lacerated, punctured, or contused, should as soon as 
 possible be thoroughly washed with a watery solution contain- 
 ing one per cent of carbolic acid ; any lacerated bleeding or 
 envenomed portions may be irrigated with a stronger solution j 
 where the wound cannot be securely covered up, it should be 
 wetted several times daily with the one per cent solution. 
 Where strappings can be kept on—not always an easy matter 
 with veterinary patients, — and where the wound is extensive 
 and likely to be irritated by direct contact of considerable 
 
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THE BEST SURGICAL ANTISEPTIC. 233 
 
 amounts of carbolic acid, there is first applied a protective of 
 oil silk varnished with copal and then coated with dextrine, 
 which allows the sUk to he uniformly wetted with the antiseptic 
 dressing. Over this protective, or in ordinary cases directly upon 
 the wound, are laid six or eight folds of coarse muslin imhued 
 with a mixture of one part of crystallised carbolic acid, five of 
 resin, and seven of solid paraffin (Professor Lister). To pre- 
 vent undue evaporation of the volatile antiseptic, there is 
 usually next applied a fold of hat lining — a light description of 
 Mackintosh cloth — also wetted with the carbolic solution, and 
 corresponding to the oiled silk of the famUiar water dressing. 
 Over this, and underneath the appropriate strappings, are placed 
 a few folds, as required, of carbohsed lint, tow, or oakum, like 
 the other dressiags applied wet, with from one to five per cent 
 of the acid. ProfesSor Lister sometimes also uses a plaster 
 made with one part of crystallised carbolic acid and three of 
 shellac, incorporated with soft cloth. When, after one or more 
 days, the dressings require renewal, usually indicated by irrita- 
 tion or pain of the injured part, or by the discharge having 
 extended beyond the gauze, it is most essential to the success 
 of the antiseptic treatment, that, with an ordinary hand ball 
 atomiser, or better still by a Siegle's steam atomiser, the raw 
 surfaces so soon as exposed shall be kept wetted, and surrounded 
 by a carbolised atmosphere, until again enveloped in their protect- 
 ing dressings. To prevent the introduction of irritating germs, 
 the sponges and Egatures, the surgeon's instruments, his hands, 
 and everything brought into contact with wounds, should be 
 moistened with a weak carbolic solution. No treatment answers 
 better for badly broken knees, and for burns and scalds. 
 Abscesses and bursal enlargements opened by an instrument 
 wetted with the antiseptic, and at once covered in by the anti- 
 septic dressiug, heal up uSuaUy by first intention, and without 
 wasteful discharge or irritating fever. Adhesion and oblitera- 
 tion of secreting sacks is further expedited by injection of a 
 weak solution. An occasional dressing often promotes healing 
 of farcy buds and ulcers. Overreaches, troublesome ulcers, and 
 quittors, after being douched or injected with the watery solu- 
 tion, are covered with a few folds of carbolised lint or oakum, 
 and when painful or irritable enveloped in a large bran poultice, 
 also saturated with acid, and left undisturbed for one or two 
 
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234 CARBOLIC ACID 
 
 days. In conjiinction with or after fomentations a strong solu- 
 tion is often serviceable in carbuncle of the coronary frog band 
 occurring in hard-worked horses in wet cold weather. A five 
 per cent solution usually answers well in foot-rot amongst 
 sheep ; but where, in chronic cases, reparative power is deficient, 
 it is usefully alternated with turpentine and oil ; or where granu- 
 lations are abundant, by copper sulphate ointment. 
 
 The impure brown carbolic acid of the shops, or a strong 
 solution containing more than one part of acid to six or eight 
 of oil, glycerin, or diluted acetic acid, acts as a stimulant and 
 imld caustic ; has also been used as a rubefacient in scrofulous 
 swellings of the joints and sore throat ; and further exerts a 
 benumbing or local anaesthetic effect sufficient to abate topical 
 irritation, and enable abscesses to be opened with diminished 
 pain. A five per cent solution in acetic acid destroys the 
 epiphytic growths of ringworm, and is suitable for cases of 
 psoriasis and prurigo, and also for eczema and lichen. In many 
 of these skin cases it is usefully conjoined or alternated vsdth 
 preparations of zinc. Few remedies more rapidly remove the 
 itching pain and swelling occasioned by stings of bees, wasps, 
 and scorpions. In diluted solution, often in the form of 
 M'DougaU's Sheep-Dipping Composition, it is used for the 
 destruction of ticks, and of the acari of scab and mange, and 
 has been favourably reported on by the Australian Government 
 Commissioners appointed to investigate the cure and spread of 
 scab in that colony. One part to ten of oil suffices for mangy 
 dogs. Injections or spray are useful in atonic conditions of 
 the fauces, uterus, or lower bowels, especially when accom- 
 panied by noisome discharges. Inhalation either with air or 
 steam is commendable in malignant sore throat, nasal gleet, 
 and unhealthy strangles abscess. Caution m^st, however, be 
 had in using carbolic acid, whether by inhalation, injection, or 
 as an external dressing ; for it is liable, as above mentioned, to 
 become absorbed; and if in considerable amount, develops its 
 irritant narcotic properties. 
 
 As an antiseptic and disinfectant, carbolic acid is exten- 
 sively used for the purification of stables, cowhouses, piggeries, 
 and poultry pens, of railway horse-boxes, cattle-trucks, and 
 loading places, and of cattle vessels and landing-stages. For 
 such purposes it is often conveniently tised in the form of 
 
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A VALUABLE DISINFECTANT AND DEODORISER. 235 
 
 M'Dougall's or Calvert's disinfecting powders, which are 
 sprinkled daily throughout the stables of some of the exten- 
 sive omnibus, cab, and carrying establishments of London, 
 Liverpool, and other large towns, at an annual cost of 5 s. for 
 each horse. Carbolic acid, when thus employed, is not injuri- 
 ous or distasteful either to the animals or their attendants : it 
 drives away flies and fleas ; arresting decomposition, it prevei^s 
 unpleasant smells ; conserAdng and fixing ammonia, it increases 
 the value of manure with which it has been mixed ; with other 
 germs it destroys those given off from cases of contagious disease. 
 To ensure thorough purification of infected premises, the anti- 
 septic must be freely and frec[uently used in the condition of 
 powder, fluid, spray, or vapour, or in several of these forms. 
 The vapour is readily got by sprinkling the acid ' on live coals 
 or on a hbt metal plate. In large buildings, besides smearing 
 the walls and woodwork with the crude brown acid, sheets 
 wetted with it should be suspended here and there to catch' 
 floating particles of contagion. Along with carbolic acid, sul- 
 phurous acid or sulphites may be fittingly used. To neutralise 
 the virus as it is formed, anindals infected with contagious disr 
 orders should have the acid given internally, and may also be 
 lightly sponged over daily with a solution containing not more 
 than one per cent. The daily use of the antiseptic, both in- 
 ternally and externally, will prevent, with tolerable certainty, 
 healthy animals in near proximity to those diseased from ab- 
 sorbing or suffering from any infecting particles which may 
 happen to reach them. In preserving sewage or other ferment- 
 escible matters, when freely mixed with water, carbolic acid is not 
 so effectual as copper sulphate or zinc chloride ; for arresting the 
 decomposition of night-soU, it is proved by Mr. W. Crookes' 
 experiments to be. inferior to common salt ; for neutralising or 
 destroying offensive gases, it is not nearly so effectual as chlorine 
 bleaching powder or potassium permanganate. 'No other anti- 
 septic is, however, so effectual in preserving or disinfecting 
 hides, skins, or wool, or subjects for anatomical examination, 
 which keep for two months if injected and subsequently occa- 
 sionally wetted with a solution containing one per cent. A 
 similar solution preserves natural history specimens from mil- 
 dew and moths. Mixed with the earth of vine borders it pre- 
 vents oidium. Boned meat is brought in good condition from 
 
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236 SULPHO-OARBOLIC AOID 
 
 Monte Video and elsewhere, compressed and packed in canvas 
 bags wetted with carbolic solution, and subsequently coated 
 over with tar oil. 
 
 Doses, etc. — Horses and cattle take TT\_xv. to tt|^x1. ; sheep 
 and pigs, tt^v. to \[[ym. ; dogs, ttlL to iTtii. The crystallised 
 acid melted is best for internal use. It is made into a bolus 
 with meal ; but is more readily absorbed, more regular in its 
 effects, and less likely to develop local irritation, when given 
 dissolved either in water or glycerin. One part by weight of 
 acid rubbed in a mortar with four of glycerin forms a convenient 
 compound readily miscible with water or other solvents. An 
 ointment is made by rubbing in a mortar fifteen to twenty 
 grains of acid with an ounce of benzoated lard. The liniment 
 usually contains one part of acid shaken up with twenty of 
 Unseed oil. For external purposes it is often usefully mixed 
 with soap. On account of its comparative insolubility in 
 water, simple aqueous solutions do not contain more than five 
 per cent of acid. For dusting over irritable surfaces it is mixed 
 with starch, lycopodium, and occasionally with charcoal and 
 plaster of Paris. M'Dougall's disinfecting powder, much used 
 for cleansing and purifying, contaius 33 per cent calcium car- 
 bolate, 59 per cent magnesium sulphate and water. Calvert's 
 powder, also a valuable antiseptic, consists of 20 per cent car- 
 bolic acid mixed with the powdered refuse of alum works. 
 Calvert's No. 5 carbolised fluid contains 80 per cent carboKc 
 and cresyhc acids, and loses strength unless kept in stoppered 
 bottles. 
 
 iSulpho-Caebolic or Sulpho-phenic Acid (H, Cg H^ SO J 
 is prepared by mixing, with the aid of heat, equivalent propor- 
 tions of carbolic and sulphuric acids. When slowly crystallised, 
 it forms thin, colourless, deliquescent needles ; it has less odour 
 than carbolic acid; at 400° it becomes red; at 540° it boils. 
 It is soluble in water, alcohol, and ether. When the acid in 
 solution is saturated with the oxides or carbonates of the alkalies, 
 earths, or metals, there are obtained crystalline, soluble, almost 
 odourless, usually colourless, stable sulpho-carbolates, which 
 possess in a mild degree the actions of carbolic acid, and have 
 been examined chiefly by Dr. A. E. Sansom {Antiseptic Sys- 
 tem, 1871). The sodium salt (Na C^ Hg SO J is tasteless, a 
 safe and useful internal antiseptic and alterative, and given to 
 
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AN ANTISEPTIC AND ALTERATIVE. 237 
 
 horses and cattle several times daily, in doses of grs. xx. to grs. 
 Ix., and to dogs in grs. v. to grs. xv. The lime salt has been 
 used in human practice in cases of indigestion, diarrhoea, and 
 dysentery. The iron salt acts as a tonie and antiseptic. The 
 zinc and copper salts conjoin the antiseptic and astringent pro- 
 perties of their components. These sulpho-carholates are ex- 
 creted in the urine, and so effectual are their antiseptic pro- 
 perties that the uriie of animals receiving medicinal doses has 
 heen kept by Dr. Sansom for six months without undergoing 
 putrefaction. 
 
 CASCAEILLA BAEK. 
 
 CascarOlse Cortex. The bark of Croton Eleuteria. 
 
 Nat. Ord. — Euphorbiacese. Sex. Sys. — Monoecia Monadelphia. 
 
 Cascarilla bark is principally imported from the Bahama 
 Islands in quilled pieces about the size of a drawiug pencil, 
 and varying from two to four inches in length. Its structure 
 is dense and brittle ; its outer surface iissured, and usually 
 covered with a light-coloured lichen ; its inner surface smooth 
 and light brown. Its powder has the same colour, with a 
 strong, pungent, but not disagreeable taste, and a peculiar 
 aromatic odour, which is increased by heat, and recommends it 
 as a constituent of fumigatory pastiUes. Besides woody fibre, 
 gum, and tannin, it contains 1 5 per cent of two descriptions of 
 resin; I'o of a pungent volatile oil isomeric, with oil of tur- 
 pentine; and the neutral crystalline bitter cascariUin (C12 
 
 Actions and Uses. — Cascarilla is an aromatic and bitter 
 tonic, resembling cinchona, but less active. It is occasionally 
 used for the several domesticated animals in indigestion, 
 diarrhoea, and convalescence from exhausting diseases. 
 
 Doses, etc. — Por horses, 3ij. to 3iv. ; for cattle, gi. ; for 
 sheep and swine, 3i- to 3ij. ; and for dogs, grs. x. to grs. xl., 
 given as bolus, infusion, or tincture. 
 
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238 CASTOR SEEDS AND OIL 
 
 CASTOE OIL. 
 
 Eicini Oleum. The oil expressed from the seeds of Eicinus 
 communis. Imported chiefly from Calcutta. — Brit. Phar. 
 
 Nat. Ord. — ^Euphorbiacese. Sex. Sys. — Monoecia Monadelphia. 
 
 The castor oil plant, or Palmi Christi, generally; considered 
 to be Jonah's gourd, is indigenous to various parts of the world. 
 Cultivated in the colder parts of Europe, it is an annual shrub 
 from four to five feet high ; in Spain and Sicily it reaches a 
 height of twenty feet; in the southern latitudes of Iiidia, 
 Central Africa, and various parts of ]!^orth and South America, 
 it becomes a large tree. 
 
 . The of&cinal part are the seeds, three of which are con- 
 tained in each capsule. Two varieties are met with, the one 
 the size of beans ; the other and commoner, somewhat smaller. 
 Both have the shining yeUow-white epiderrois, mottled with red- 
 brown streaks and spots. The seeds comprise about one-fourth of 
 their weight of ligneous husk, 8 per cent of moisture; and iiearly 
 70 per cent of kernel, which contains about 50 per cent of a fixed 
 oil — ^the castor oil — rassociated with 2 of albumin, 1 8 of cellulin, 
 2 "4 of sugar and mucilage, and a small quantity of an acrid pur- 
 gative principle, which has not been isolated, and mostly remains 
 after the expression of the oU. Professor Tuson, of the Eoyal 
 Veterinary College, London, exhausting the seeds with boiling 
 water, extracted a crystalline substance, deivoid of purgative pro- 
 perty, which he named riciaine. 
 
 Castor on is manufactured in London, largely imported 
 from the East Indies and America, and in smaller quantities 
 from Italy, the West Indies, and Australia. Various modes of 
 extraction and purification are adopted. In London the care- 
 fully shelled seeds are crushed in a screw or hydraulic pr^ss, 
 the oil purified by rest, filtration, and bleaching. In the East 
 Indies mucilage and albumin are got rid of by heatiag the 
 expressed oil with boiling water, and straining it through flan- 
 nel. In America, the seeds, deprived of husk, are exposed to 
 gentle heat, in order that the oil maybe more readily expressed; 
 the crude oil is freed from mucilage and albumin by boilin" 
 
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MILD PURGATIVES. 239 
 
 with water until perfectly transparent when cool ; 2 5 per cent 
 of best oil is thus got from the seeds. In Jamaica the bruised 
 seeds are boiled with water, and the oil skimmed off as it rises 
 to the surface, — a. process which, however, yields an inferior 
 and dark-coloured specimen. The continental plan of extract- 
 ing the oil by alcohol or carbon bisulphide is expensive and 
 inconvenient. 
 
 Properties. — Oil obtained by these various methods differs 
 slightly in activity, but considerably in colour, flavour, solu- 
 bility, and keeping properties. The English castor oil, prepared 
 by expression alone, is usually rather dark ; the East Indian, 
 principally imported from Calcutta, is of superior quality and 
 moderate price ; the American or United States oil is very free 
 of taste, but at low temperatures deposits margarin ; the Italian, 
 imported since the Exhibition of 1862, commands the highest 
 price (Pereira, 1872). The cold drawn castor oils, prepared 
 by expression alone, or with only a very slight degree of heat, 
 are generally preferred ; for when a high temperature is em- 
 ployed, either in roasting the seeds or boUing the oil, the 
 purgative principle is volatilised or acrid matters are developed. 
 
 Castor oil, when fresh and weU prepared, is viscid, almost 
 colourless, and of a faint oily odour and taste. Although lighter 
 than water, it is one of the heaviest of the fixed oils, its specific 
 gravity at 60° being '964. Exposed in a thin layer it chickens, 
 gets rancid, and after a time entirely dries into a varnish-Kke 
 film. Castor oil and alcohol exert a mutually solvent action 
 on each other ; the oil is soluble in two parts of rectified spirit 
 and in ether, but not in water ; is easily miscible with other 
 oils ; saponifies with alkalies ; yielding glycerra, palmitic acid, 
 and the special ricinoleic acid (HCig H33 O3). 
 
 Irnpuritiesi- — Castor oil is adulterated with croton oil to 
 increase its activity, with lard and suet oils to reduce its cost. 
 Pure oil is distinguished by entirely dissolving in its own weight 
 of alcohol, and in two of rectified spirit {Brit. PJiar). Inferior 
 sorts are dark coloured, but become translucent by exposure to 
 sunlight and filtration through animal charcoal; whilst dis- 
 agreeable acrid taste and odour may be in great part removed 
 by repeated agitation with water containing calcined magnesia 
 and coarse animal charcoal. 
 
 Actions and Uses. — Castor oil seeds are irritant and purga- 
 
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240 CASTOR OIL 
 
 tive, and have repeatedly caused fatal gastro-enteritis in man. 
 They appear to be more powerfully irritant than the oil ex- 
 tracted from them. When crushed, they form an Indian cure 
 for mange. A decoction of the leaves is applied by the women 
 of South Africa to their breasts to increase the secretion of imlk. 
 
 The oil is a mild purgative, closely resembling linseed and 
 the other iixed oils. It rarely causes griping, and increases the 
 peristaltic motions as well as the secretions of the intestines. 
 It may usually be observed in oily flakes amongst the dejec- 
 tions, giving them a glazed appearance. When injected into 
 the veins of man, it causes laxative effects, and produces in the 
 mouth the same disagreeable oily taste as when swallowed. In 
 the horse, castor oil, like other oleaginous substances, is not 
 very certain or prompt in its effects, and is seldom to be recom- 
 mended where a speedy or full purgative effect is desired. In 
 cattle and sheep its action is more to be depended upon ; but 
 in these animals, especially in cattle, it is generally superseded 
 by linseed oil, which is similar in its action, and less expensive. 
 In the dog it is more active than in man, and, for delicate 
 subjects, a mixture of equal quantities of castor and olive oils is 
 preferable to the castor oil alone. Its occasional action as an 
 emetic in dogs, results not from any specific emetic action, but 
 merely from its nauseous oleaginous taste, and is obviated by 
 giving the oil free of rancidity, and beat up with an egg, with 
 mucUage, a little spirit, or some aromatic. 
 
 Acting without irritation or giiping, it is useful, in young 
 animals, in irritation and inflammation of the digestive organs, 
 as in diarrhoea, dysentery, enteritis, and peritonitis, in hernia, 
 advanced pregnancy, affections of the kidneys and bladder, 
 and wherever more drastic purgatives might unduly irritate. 
 Its anthelmintic effects have sometimes been over-estimated, 
 are in reality slight, and entirely dependent upon its purgative 
 action. In cattle practice it is not very active when given 
 alone, but proves useful in diarrhoea and inflammation of the 
 digestive organs. United with Epsom salt, in doses of half or 
 three quarters of a pound of each, it produces prompt and 
 certain effects. For young calves it is the best of purgatives. 
 It proves a safe and easy purge for dogs and pigs. The 
 bruised seeds are much used by the native Indian farriers for 
 the cure of mange; and Mr. Thomas Pritchard, V.S., of 
 
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A GOOD LAXATIVE POK CALVES AND DOGS. 241 
 
 Madras, informs me that two or three dressings usually suffice 
 to remove the disease. As a clyster, it is generally superseded 
 by linseed oil. As an external demulcent, it is unsuitable on 
 account of its tendency to become rancid. 
 
 Doses, ete. — ^The castor oil seeds are conveniently given 
 to the dog or pig to the number of six or eight, triturated with 
 linseed meal, and made _,into a bolus, or rolled in a piece of 
 meat or such other food. The dose of castor oil for the larger 
 quadrupeds is about a pint ; for sheep and pigs, f §ij. to fgiv. ; 
 for dogs, f Ji. or fgij. ; for cats, about f §i. It may be given 
 alone, or mixed with Unseed oil, with gruel, nulk, or aromatics ; 
 to increase its activity, it is combined with small quantities of 
 oil of turpentine or of croton; to control undue irritation, as 
 in diarrhoea and dysentery, it is conjoined with laudanum and 
 warm starch gruel. 
 
 CATECHU. 
 
 An aqueous extract of the leaves and young shoots of Uncaria 
 G-ambier; of the wood of Acacia Catechu; and of the 
 kernels of Areca Catechu. 
 
 Three different plants yield the catechus of commerce and 
 medicine : the Uncaria Gambler, a stout, climbing shrub, 
 belonging to the natural family Cinchonacese, inhabiting the 
 islands of the Indian Archipelago, and yielding the pale catechn, 
 gambler op terra japonica ; the Acacia Catechu, an East Indian 
 leguminous tree, fifteen to twenty feet high, yielding the black 
 or brown catechu ; and the Areca Catechu, or betel-nut tree, a 
 tall, beautiful palm, with a fibrous fruit, containing the astrin- 
 gent seed or betel nut (p. 1 71). Similar processes are followed 
 for the extraction from these different sources of the catechu 
 (cafe, a tree, and chu, juice.) The leaves, young shoots, or 
 seeds, are bruised, or the wood cut into chips, and boiled with 
 water; the decoction concentrated either by fire or the heat of 
 the sun ; and the extract cut into square cakes or run into 
 clay moulds. 
 
 Pale catechu (Catechu pallidum) occurs in yellow-brown 
 cubes, with faces about an inch square; and sometimes in. 
 masses made by the aggregation of these cubes. It has a 
 bitter astringent taste, with a sweet after-taste, is. free from 
 
 E 
 
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242 CATECHU 
 
 grittiness, is without odour, soluble iu alcohol and ether, 
 partially soluble in cold water, almost entirely dissolved by 
 boUing water, with which it forms a red-brown solution. It 
 consists of about equal portions of catechu-tannic acid, soluble 
 in cold water, and of catechin or catechuic acid (Cig H12 O5), 
 deposited from a boiling watery solution ia acicular crystals, 
 soluble in ether, and divisible iato two astringent principles. 
 
 Black or brown catechu (Catechu nigrum), or cutch, comes 
 chiefly from Bengal and Burmslh, in masses weighing about a 
 hundredweight, and made up of layers of small pieces of two 
 to four ounces, enveloped in glaumes or husks' of rice. Besides 
 being darker coloured, it is more bitter and astringent, and 
 dissolves in the mouth more slowly than the best pale catechus. 
 Like them, it owes its value for tanning and medicinal purposes 
 to the presence of tannic acid and catechin. 
 
 Actions and Uses. — Catechu is astringent. Like other 
 tannin-containing substances, it combines with the gelatin and 
 albumin of the tissues, lessens their calibre, and diminishes 
 their solubility and tendency to putrefaction. Hence its value 
 in the preparation of tannorgelatin or leather. Catechu, being 
 less astringent than oak-bark or galls, is more suitable for 
 some internal uses. It is given to the several domestic 
 animals in excessive mucous discharges from the alimentary 
 canal ; is combined with aromatics, to remove flatulence ; with 
 opium, to relieve irritability; with chalk, magnesia, or an 
 alkali, to counteract acidity. A convenient mixture for 
 diarrhoea is made with three ounces each of catechu, prepared 
 chalk, and ginger, and six drachms of opium, made into a mass 
 with treacle and linseed flour. This will make six doses for a 
 horse, four for a cow, and eight or nine for a calf or sheep. 
 For these ruminants the dose is conveniently given suspended 
 in starch gruel. Catechu is occasionally applied to sluggish 
 sores and ulcers, to excoriations on the udder of cattle, 
 and for the ordinary purposes of a vegetable astringent. It 
 nearly resembles, but is more powerful than kino, the inspis- 
 sated juice of an East Indian tree, the Pterocarpus marsupium, 
 and other leguminous and myrtaceous trees ; than rhatany, 
 the dried root of a Peruvian shrub, the Krameria triandra ; 
 and than logwood, the .heartwood of the Hsematoxylon Cam- 
 pechianumi 
 
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A USEFUL VEGETABLE ASTRINGENT. 243 • 
 
 Doses, etc. — For horses, 3i. to 3iij. ; for cattle, 3ij. to 3vi. ; 
 for sheep and swine, 3i. to 3ij. ; and for dogs, grs. iv. to grs. 
 XX. These doses are administered three or four times a day, 
 with a sufficiency of mucilage or gruel to cover their astringent 
 taste. An infusion is readily prepared for veterinary purposes, 
 by poTiring boiling water over coarsely powdered catechu, 
 digesting by the fire for an hour, and straining. Flavouring 
 ingredients may be added as required. A good tincture is 
 madebythe following PharmacopcEia process: — "Take of catechu, 
 in coarse powder, two ounces and a half ; cinnamon bark bruised, 
 one ounce ; proof spirit, one pint ; macerate, with occasional 
 shakings, for seven days in a closed vessel ; strain, press, filter, 
 and add proof, spirit to make one pint." For external purposes, 
 the powder infusion, and an ointment, are used. 
 
 CHAMOMILE FLOWEES. 
 
 Anthemidis Flores. The dried single and double flowers of 
 the Anthemis nobilis, wild and cultivated. — JSrit. Fhar. 
 Nat. Ord. — Oompositse. Sex, Syst. — Syngenesia, Polygamia superflua. 
 
 Chamomile flowers are extensively cultivated in the warmer 
 parts of England ; are gajthered during dry weather ; exposed 
 for a short time on trays in a shady place ; and carefully stored 
 and kept very dry. . The single, or Scotch, contain mOre oil, 
 and hence are more active than the double, or English. Both 
 have a hot, bitter taste, and a strong aromatic odour. They 
 contain bitter extractive matter, soluble both in water and 
 alcohol ; a small quantity of tannin ; and one to two per cent 
 of an active volatile oil, usually got by distillation of the whole 
 plant, of a blue or green cplour, gradually becoming yellow, 
 and containing a hydrocarbon isomeric with oil of turpentine, 
 present in cardamom, caraway, and other aromatics, and 
 associated with it an oxidised portion (Cjo Hjg + Cj Hg 0). 
 
 Actions and Uses. — Chamomile flowers are mildly stimu- 
 lant, aromatic, tonic, and stomachic ; f uU doses produce emesis 
 in dogs. They are occasionally given to horses and cattle in 
 doses of one to two • ounces ; to calves, sheep, and swine, in 
 doses of a drachm; are sometimes used as fomentations and 
 poultices ; but as external applications they are little better than 
 linseed or oatmeal. 
 
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244 CHARCOAL — CARBON 
 
 CHARCOAL. 
 
 Two varieties of cliarcoal, or carbon, are used in medicine 
 and pharmacy — wood charcoal, or carlo ligni, and animal char- 
 coal, or carlo animalis. The former is prepared by piling pieces 
 of the harder, woods into heaps, covering them with turf and 
 sand, and leaving a few apertures for admission of air. The 
 pile is ignited; after the flame has risen through the whole 
 mass, the openings are closed, and combustion proceeds slowly 
 without access of air. The moisture of the wood, its oxygen, 
 hydrogen, and nitrogen are dissipated ; it is reduced to about 
 one-fifth of its original weight. Carbon and mineral matters 
 remain. The charcoal varies in composition with the wood 
 from which it is prepared, but contains, on an average, about 
 87 per cent of chemically-pure carbon, 2 of ashes, and 11 of 
 volatile matters. Oils or resins, when burned in a deficiency of 
 air, produce lamp-black — a, finely divided amorphous carbon. 
 
 Animal charcoal, also known as bone or ivory black, is 
 chiefly prepared from bones, which are first boiled to separate 
 fatty matters, and then heated in close vessels until vapours 
 cease to be disengaged. The fixed residue, besides carbon, 
 contains about 80 per cent of calcium phosphate and car- 
 bonate (Graham), and 2 per cent of iron carbide and silicide — 
 mineral matters, which separate the particles of the charcoal, 
 and greatly enhance its value for the removal either of .colours 
 or odours. For some pharmaceutic purposes a purified animal 
 charcoal is recLuired, and the mineral ingredients are got rid of 
 by digesting the commercial article, at a moderate heat, with 
 hydrochloric acid, collecting the undissolved carbon, thoroughly 
 wasHng it, and heatiag it to redness in a covered crucible. 
 {Brit. Fhar) 
 
 Both vegetable and animal charcoal are of a brown-black 
 colour, are insoluble and inodorous, readily absorb moisture, 
 gases, and most vegetable colouring matters. Animal charcoal 
 is the more valuable, and may be distinguished by its greater 
 density, its incombustibility, its Wtter taste, and its large pro- 
 portion of phosphates. 
 
 Actions and Uses. — Charcoal is a desiccant, antiseptic dis- 
 infectant and deodoriser, and much used as a decoloriser in 
 
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ANTISEPTIC DEODORISER AND DECOLORISER. 245 
 
 pharmacy, sugar refining, and oth6r arts. So great is its 
 absorbing power, that one volume of good boxwood charcoal 
 takes up 100 volumes of ammoniacal gas, 55 of hydrogen sul- 
 phide, and 10 of oxygen. This retained oxygen is ready to 
 decompose and deodorise any noxious gases which come iato 
 contact with the charcoal. Air from sewers, m that has been 
 in contact with the bodies of patients affected with noisome or 
 contagious disease, is deprived of odorous and harmful particles if 
 passed over trays of charcoal. It also absorbs the colouring par- 
 ticles of organic substances filtered through it or boiled with it. 
 Solutions of brown sugar, passed through a layer of charcoal, are 
 decolorised. Drinking water, filtered through it, is deprived of 
 organic impurities. Urine, heated with it, parts with its 
 colouring matters, urea, and uric acid, but not with any sugar 
 it may contain. Vegetable acids, alkaloids, and there salts, are 
 sometimes purified by charcoal; but for these pharmaceutic 
 purposes it has the disadvantage of retaining, not only colouring 
 particles, but portions of the medicine — a property which, how- 
 ever, renders it serviceable as an antidote in poisoning with 
 arsenic, aconite, strychnine, and even prussic acid. The char- 
 coal mechanically envelops and combines with the poisonous 
 particles ; half an ounce neutralises a grain of morphine or 
 strychnine ; but, like other insoluble substances, it is effectual 
 as an antidote ordy when given promptly, and before the poison 
 has been absorbed. Sprinkled over meat or game, or in barrels 
 of water intended for long keeping, it retards putrefaction. It 
 does not, however, like carbolic acid, zinc chloride, or other 
 powerful antiseptic, effectually arrest putrefaction when once 
 it has begun ; but it merely condenses in its pores any septic 
 or noxious particles given off. Being fixed, it has not such a 
 wide and effectual range of action as a volatile agent like car- 
 bolic acid, to reach or destroy floating germs of contagion. 
 Being insoluble in water, charcoal, when swallowed, exerts only 
 topical effects. It checks fermentative changes, and lessens the 
 acrimony and foetor of the faeces. It is not now used as an 
 anthehnintic. In a finely divided state it is sometimes applied 
 as an absorbent and deodorilbr to suppurating noisome sores, 
 and is sprinkled by a dredger either directly on the unhealthy 
 surface, or mingled with poultices. 
 
 Doses, etc. — For the horse, 3iv. to gi.; for cattle, gi. ; for sheep 
 
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246 CHLORAL HYDRATE 
 
 and pigs, 3i. to 3iij-; and for dogs, grs. x. to grs. Lx. It is usually- 
 given suspended in gruel or other mucilaginous fluid. Its 
 absorbing powers are increased by raising it to a low red heat 
 shortly before it is used, whilst by exposure to a high tempera- 
 ture, entangled organic matters are burned out of its pores, and 
 the charcoal feuled in sugar refining and other processes is 
 thus again cleansed for use. 
 
 CHLOEAL— CHLOEAL HYDEATE. 
 
 Chloral was discovered by Baron Liebig in 1832, but con- 
 tinued for many years merely a chemical curiosity. Its hydrate 
 was first introduced into English medical practice, as a soother 
 of pain and producer of rest, in August 1869 ; and since then 
 upwards of fifty tons of it have been manufactured, or sufficient 
 for some thirty-six mOlion doses ! 
 
 Chloral is prepared by passing dried chlorine gas into abso- 
 lute alcohol so long as the spirit wiU absorb it. The oUy- 
 looking, pungent, liquid chloral (Cj HCI3 0) is purified by dis- 
 tillation with sulphuric acid, and when mixed with water 
 becomes the solid hydrate (Cj HCl^ 0, Hj 0), which occurs in 
 colourless crystals, is transparent, aromatic, bitter, pungent, per- 
 manent in air, melts at about 133°, and boils at 205°, It is 
 soluble in less than its own weight of water, in alcohol, ether, 
 petroleum, and oil of turpentine. 
 
 The caustic alkalies, with ammonia, and in a less degree, 
 the alkaline carbonates, decompose it with evolution of chloroform. 
 100 grains dissolved in an ounce of distilled water, and mixed with 
 3 grains of slaked lime, submitted to careful distOlation, should 
 yield not less than 70 grains of chloroform {Brit. Fhar^ Besides 
 being of imperfect strength, inferior specimens are apt to contain 
 chlorinated organic impurities, which render them yellow and 
 cloudy, acrid and irritating, imperfectly soliible, and forming oily 
 drops with water, whilst instead of hypnosis they produce ner- 
 vous excitement. , 
 
 Actions and Uses. — Chloral hydrate is a depressor of 
 the cranio-spinal axis ; it acts *primarily on the brain and 
 motor centres ; large doses destroy Hfe, as chloroform does, by 
 paralysis of the motor tract of the medulla. Medicinal doses 
 are anodyne and hypnotic. Applied locally, it is irritant, and 
 
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A BEAIN AND MOTOR DEPRESSOR. 247 
 
 lience, when swallowed, sometimes causes vomiting and purging. 
 It is an effectual antiseptic. 
 
 General Actions. — Dr. B. "W. Eichardson has made with it 
 an extended series of experiments on the lower animals ; fishes 
 and pigeons were narcotised by 1^ to 2 grains ; liiice by one- 
 third of a grain; rabbits, weighing 85 ounces, by 30 grains 
 {Medical Times and Gazette, -vol. xi. 1869). 180 grains. pro- 
 duce fatal effects in man, but dangerous symptoms have occa- 
 sionally been developed by one-fourth of that amount. Mr. 
 T. A. Dollar, of New Bond Street, gave a horse suffering from 
 spasmodic coHc two ounces in water ; the spasms were speedily 
 removed, but for twelve hours the patient remained very dull 
 and stupid. Mr. R J. Mavor, of Mayfair, gave a horse four 
 ounces of chloral hydra,te in water; in five minutes he feE down 
 insensible, perspired freely, his muscles relaxed, his pupils 
 dilated ; his pulse, at first accelerated, gradually became normal, 
 respirations were quickened, until in an hour they numbered 36. 
 The temperature from 100° Fahr. fell in two hours to 95-|, but 
 two hours later rose to 97^. In half an hour he was in a quiet 
 sleep, lasting one and a half hour, when he attempted but failed to 
 rise, and shortly again slept, the breathing being slow and heavy, the 
 skin cold, the sphincters relaxed. Four hours after receiving the 
 draught he was restless, shivering, but disposed to feed, continued 
 in this state for several hours, and suffered next day from bron- 
 chitis, from which he gradually recovered. Mr. Mavor gave a 
 healthy horse four ounces iu ten ounces of water ; ia half an hour 
 he was restless, but drowsy, passing faeces frequently ; his pupils 
 dilated. He continued in this state for fully three hours, when 
 he was slightly delirious, but gradually became more quiet. 
 Eight hours later the effects had passed away (Mavor and 
 Burness, Actions of Medicines). 
 
 Chloral hydrate is readily absorbed, and quickly diffases 
 itself throughout aU parts of the body. It is in great part 
 exhaled unchanged by the lungs — a proof that its effects are 
 not dependent, as was once supposed, on its conversion into 
 chloroform, which is not found in the blood or excreta of animals 
 poisoned by chloral hydrate, 'although readily discovered when 
 animals are poisoned by chloroform itself. It resembles 
 chloroform, however, in contracting the red globules, causing 
 their diffiuence, 'and giving the plasma a red colour (Dr. 
 
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248 CHLORAL HYDRATE 
 
 Harley). Moderate doses act primarily on the brain and 
 motor centreSj producing natural sleep. Somewhat larger 
 doses, with only occasional and slight oVer-excitement, depress 
 the functions of the cerehro-spinal axis, causing slower respira- 
 tion, slower, weaker heart 'action, probably vasomotor paralysis, 
 leading to general relaxation of the arterioles, and consequent 
 lowering of temperature to the extent of three or four degrees. 
 In a rabbit Dr. Eichardson observed a depression of 6°. Still 
 larger doses cause narcosis and anaesthesia, paralyse the respira- 
 tory centre of the medulla ; respiratory movements cease ; the 
 heart's action is arrested. 
 
 Chloral hydrate resembles opium in its hypnotic and ano- 
 dyne properties. Although more effectual ia paralysing involun- 
 tary muscular fibre, it is not so useful in antagonising pain, 
 either from nervous irritation or from inflammation. In its 
 power of relaxing spasm, lowering animal temperature, and 
 diminishing arterial pressure, it resembles amyl nitrite. Its 
 solid form prevents its being inhaled, and its anaesthetic pro- 
 perties are developed only when dangerous doses are swallowed. 
 Even as a local anaesthetic it is less effectual than chloroform 
 or ether. 
 
 Bromal hydrate is more active and more irritating than 
 chloral hydrate ; four grains kill a 4 lb. rabbit, which would 
 take twenty grains of chloral. The bromine constituent appears 
 to assert its irritant action, and, according to Dr. Dougall's experi- 
 ments, there are induced restlessness, difficult breathing, imper- 
 fect sleep, and finally coma, broken by convulsions. 
 
 Croton chloral hydrate is prepared by passing a stream of 
 chlorine for twenty-four hours through acetic aldehyd, separat- 
 ing and purifying the dense oily liquid, and converting it into 
 the solid, bitter, crystalline hydrate (C^ Hg Clg 0, Hg 0). It 
 paralyses the spiaal sensory nerves and the sensitive branches 
 of the fifth nerve (liebreich), but does not, like chloroform and 
 ether, produce hypnosis or anaesthesia. Its effects on the pulse 
 and respiration are less marked than those caused by corre- 
 sponding doses of chloral hydrate. It kills, however, like it, by 
 paralysis of respiration. It is prescribed in human medicine 
 in neuralgia megrims and cough {British MedicalJowncd, 1873 
 and 1874). 
 
 Medicinal Uses. — Chloral hydrate is given to quiet general 
 
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SOOTHES IRRITABILITY AND PRODUCES SLEEP. 249 
 
 irritability and produce sleep. Small repeated doses, especially 
 if conjoined with morphine, allay paia, lower temperature, and 
 sometimes save life in those deadly cases of muco-enteritis in 
 heavy draught horses. I have had the hest results from the 
 hypodermic injection of forty grains chloral hydrate, immediately 
 followed by three grains morphine, and repeating both injections 
 in about an hour. Colic in horses is generally removed 
 by chloral. Small doses benefit asthma in dogs, and violent 
 paroxysmal coughing either in dogs or horses. It antagonises 
 the spasms of chorea and epilepsy, and temporarily relieves 
 those of tetanus and hydrophobia, especially when used hypo- 
 dermically. 
 
 Mr. Eobert Littler of Long Clawson gives it with benefit in 
 the outset of those cases of parturient apoplexy in cows, in 
 which there is intense nervous excitement and violent cramp of 
 the muscles of the hind extremities. Having a wonderful effect 
 in sopthing the irritability, and quieting the maniacal tendencies 
 of insanity in man, it may prove useful in the more chronic 
 cases of phrenitis in horses. It is the best antidote for strych- 
 nine, when promptly given arresting both the force and fre- 
 quency of the tetanic convulsions, and sometimes saving life ; 
 but conversely, strychnine is not so certain an antidote for 
 chloral hydrate, for, although it antagonises the depressed state 
 of the spinal cord, it does not relieve the comatose brain {Re- 
 port of Edwhwrgh Oommission of British Association on Anta- 
 gonism of Medicines). Chloral is also antagonistic to Calabar 
 bean ; but to act as an effectual antidote, the slower acting 
 chloral must be given before, at the same time, or within two 
 minutes after, the quicker acting Calabar bean. A five per cent 
 aqueous solution of chloral hydrate relieves itching of the skin in 
 horses and dogs, removes scurf, and favours growth of hair. As 
 an antiseptic, dissolved in spirit and water, it is recommended 
 by Dr. WiUiam Craig for preserving natural history specimens 
 and subjects for dissection, and as an antiseptic and anodyne 
 dressing for wounds. Chloral hydrate is contra-indicated ia 
 typhoid cases on account of its causing vascular excitement, 
 impairing oxygenation, and lowering temperature. 
 
 Doses, etc. — For horses and cattle, gi. to gij. ; for sheep and 
 pigs, 3i. to 5iij. ; for dogs, grs. x. to grs. xxx. ; repeated every 
 two hours, or even oftener, and conveniently administered in 
 
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250 CHLORINE IN GAS AND SOLUTION 
 
 syrup. It is more effectual when the animal has been fasting 
 for two or three hours. Injected hypodermicaUy, about half 
 the dose given by the mouth suffices, and in animals there is 
 Little risk of produciag the erysipelatous ■ inflammation which 
 has sometimes followed its injection in human patients. The 
 narcotic paralysing effects of overdoses are combated by the 
 free use of ammonia and alcohol, by the hypodermic injection 
 of atropine, and by warmth. 
 
 CHLOEIFE. 
 
 Chlorine is prepared by heating sulphuric acid with com- 
 mon salt and manganese black oxide. For fumigating the 
 MHlbank Penitentiary, Professor Faraday used one part of salt 
 intimately mixed with one part of manganese black oxide, and 
 two parts of oil of vitriol, previously diluted with two measures 
 of water. The ingredients were stirred together in shallow 
 earthenware vessels, and where slow evolution of gas was de- 
 sired, heat was not used. For gradual evolution, Dr. Angus 
 Smith advises the mixture of one pound bleachiug-powder with 
 one and a quarter pound of potash alum. Chlorine is a chemi- 
 cal element (CI), a yellow-green gas, with a peculiar suffocating 
 odour, an astringent taste, two and a half times as heavy as air, 
 soluble in less than half its volume of water at 6 0°- Under a 
 pressure of four atmospheres it forms a bright yellow liquid. 
 For nearly a century moist chlorine has been used for bleaching. 
 Water charged with two volumes of chlorine gas constitutes 
 the liquor chlori — a yellow-green, chlorine-smelling liquid, 
 readily decomposed by air and sunshine. 
 
 Actions and Uses. — Chlorine, whether as gas or in solution, 
 is irritant, antiseptic, deodorant, and disinfectant. Applied to 
 the skin or mucous surfaces, it causes redness and eruption, re- 
 lieved by lime water, white of egg, soap, or diluents. The irri- 
 tation of the imperfectly diluted gas is counteracted by inhaUng 
 ether, a,mmonia, the vapour of warm water or of alcohol. 
 Cautious inhalation usually abates sore throat in horses, the 
 cough, difficult breathing, and foetor of the breath in contagious 
 pleuro-pneumonia of cattle, and destroys the bronchial filaria 
 of calves and lambs. When a considerable quantity of the gas is 
 
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lEEITANT, ANTISEPTIC, AND DEODORANT. 251 
 
 to be cheaply evolved for the breathing of a number of animals, 
 salt, manganese black oxide, and diluted sulphuric acid are 
 mixed, in the proportions above recommended by Professor 
 Faraday, gentle heat applied, and the fumigation effected in a 
 box or closed shed, much care being taken that the gas before 
 it is breathed be sufficiently diluted.. The destruction of these 
 bronchial parasites is effectually accomplished by the less irri- 
 tant sulphurous acid gas, or by a drench of oil of turpentine. 
 The liquor chlori diluted is occasionally used as a stimulant 
 antiseptic and deodorant. 
 
 The bleaching, antiseptic, and other properties of chlorine 
 depend npon its affinity for hydrogen. Seizing the hydrogen 
 which vegetable colouring matters contain, it breaks them up, the 
 resulting chlorinous compounds being colourless ; decomposing 
 water, it produces hydrochloric acid and nascent oxygen or 
 ozone, which attack organic particles. Colour, smell, and septic 
 power are thus destroyed. Fresh meat, bottled with chlorine 
 gas, was found by Dr. Angus Smith to be bleached externally, but 
 red within and unchanged, at the end of twenty-eight days. Dr. 
 G. Calvert's .careful comparative experiments with various anti- 
 septics demonstrate, however, that albuminous solutions are not 
 so long or so effectually preserved by chlorine solution as by 
 zinc or mercury chlorides, or by the tar acids. Dr. Angus 
 Smith, in his cattle plague reports, speaks favourably of chlorine 
 as a preventive of cattle plague. Used daily throughout pre- 
 mises adjacent to those infected by mouth and foot disease, it 
 has apparently arrested the extension of the disorder. Cholera 
 and erysipelas in man are stated, however, on the authority of 
 Dr. Pereira, to propagate themselves readily even when the 
 patients were kept almost constantly surrounded with the 
 fumes of chlorine. Although a good deodoriser, it is inferior 
 as a disinfectant either to sulphurous or the tar acids. It has 
 the practical disadvantages of being somewhat troublesome to 
 evolve in unskilled hands ; overdoses are dangerously irritant ; 
 combining with the ammonia so often present in farm premises, 
 it produces nitrogen* chloride, a very irritant gas ; attacking 
 other ammoniacal compounds, it reduces the value of the 
 manure heaps ; Ume- washed walls are further rendered uncom- 
 fortably moist by it. Where chlorine is used for thorough 
 ' disinfection, the buildings must be cleared of animals ; large 
 
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252 CHLOROFORM: 
 
 volumes of gas liberated; sunlight admitted to intensify the 
 action of the chlorine ; the walls and woodwork washed with 
 a strong watery solution. It may be fittingly used in conjunc- 
 tion with the tar acids, but is incompatible with sulphurous 
 acid. 
 
 CHLOEOFOEM. 
 Chloroformum. Terchloride of formyl. C H CI3. 
 
 Chloroform was discovered in 1832, about the same time, 
 by Soubeiran and Liebig ; its effects on the lower animals were 
 described by Dr. Glover in 1842 ; while its valuable anaesthetic 
 properties were first discovered and applied by the late Sir 
 James Y. Simpson in November 1847. Since then it has been 
 largely and successfully used for the alleviation of human suf- 
 fering during surgical operations, parturition, and various dis- 
 eases, and has also been applied to similar purposes in veteri- 
 nary practice. 
 
 Preparation. — Chloroform is prepared by distUling together 
 either rectified or methylic spirit, bleaching powder, and water, 
 and washing the crude product to free it of deleterious matters. 
 
 The British Pharmacopoeia gives the following explicit 
 directions for making and purifying : — Mix thirty fluid ounces of 
 rectified spirit with three gallons of distilled water in a capacious 
 still; add ten pounds chlorinated lime thoroughly mixed with five 
 pounds of slaked lime. Let the condenser terminate in a nar- 
 row-necked receiver, and apply heat so as to cause distillation, 
 taking care to withdraw the fire the moment the process is 
 well established. When the distilled product measures fifty 
 ounces, remove the receiver dnd pour its contents into a gallon 
 bottle half filled with water ; shake well together, and set a;t 
 rest for a few minutes, when the chloroform will subside ; pour 
 off the water, and thrice wash the chloroform in a smaller ves- 
 sel, with successive portions of three ounces of water. Agitate 
 the washed chloroform for five minutes with an equal volume of 
 sulphuric acid, then, after subsidence of the latter, transfer the 
 chloroform to a flask containing two ounces of chloride of cal- 
 cium in small fragments, mixed with half an ounce of perfectly 
 dry slaked Mme. Mix well by agitation. After the lapse of 
 an hour, connect the flask with a Liebig's condenser, and distil 
 
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PREPARATION AND PROPERTIES. 253 
 
 the pure chlorofoirm by means of a water bath. Preserve the 
 product in a cool place, in a well-stoppered bottle. The lighter 
 liquid wliich floats on the crude chloroform after its agitation with 
 water, and the washings with distilled water, should be preserved 
 and employed in a subsequent operation. 
 
 In this process the chief changes which occur are — (1) the 
 evolution of oxygen and chloriue from the chlorinated lime ; 
 and the reduction of alcohol into aldehyd ; (2) the formation 
 of hydrochloric acid and trichloraldehyd or chloral, by the action 
 of the chlorine;- and (3) the decomposition of the chloral by 
 the caustic lime with evolution of crude chloroform, calcium 
 formiate, and chloride r'emaiaiag in the retorts. These three 
 stages are thus formulated : — 
 
 (1.) Ca Hg + = Hj + Ca H4 (Aldehyd). 
 
 (2.) C2 H, + Clg = 3 H CI + C2 H CI3 (Chloral). 
 
 (3.) 2C2HCl30 + CaH202 = Ca2CH02+ 2CHCl3(Chloroform). 
 
 As to the purification : repeated agitation with water washes 
 away saline acid and organic impurities ; shaking with sulphuric 
 acid, which must be scrupulously free from nitric acid, chars 
 and removes the last traces of organic oils ; admixture with 
 slaked Hme and calcium chloride gets rid of acid and water. . 
 
 Properties — Chloroform is a transparent, colourless, neutral, 
 oily-looking, mobile fluid, with a density of 1'49, a sweet taste, 
 and a fragrant, ethereal, and apple-Uke odour. At ordinary tem- 
 peratures it volatilises entirely, and boils at 140°. Though not 
 spontaneously inflammable, it can be burned around a wick 
 saturated with alcohol, forms a green, sooty flame, and evolves 
 hydrochloric acid. Alcohol, ethers, oil of turpentine, and car- 
 bon bisulphide dissolve it readily, but water scarcely takes up 
 more than ^^th part, a pint only holding sixty minims in 
 solution. It readily dissolves volatile oUs, wax, resin, and alka- 
 loids. Chloroform, to the extent of flve per cent, added to fresh- 
 drawn blood renders it liquid, and imparts a bright arterial 
 hue ; crystals form after a time ; the amount of oxygen is aug- 
 mented, that of carbonic acid diminished ; the red blood discs 
 are shrunk, their power of absorbing oxygen is impaired, they 
 deliquesce and disintegrate. 
 
 Chloroform is generally regarded as the chloride of the tria- 
 tomic radicle methyl (C H3) ; marsh gas is the hydride (C H3 H) 
 
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254 CHLOROFORM 
 
 metliylic or wood spirit tlie hydrate or alcohol (C Hj H 
 or C H 0). Other anaesthetics belonging to this series have 
 already been referred to (p. 83). Iodoform (C H Ig) is a yel- 
 low solid, prepared by adding to an alcoholic solution of iodine 
 an alcoholic solution of potash, until the mixture is yellow, and 
 dis tillin g to dryness. It is irritant, irrespirable, and in its 
 actions resembles iodine and its salts. 
 
 Impurities. — Chloroform carelessly prepared or imperfectly 
 purified contains volatile organic oils, which, if inhaled, induce 
 nausea and headache. Such specimens have an unpleasant 
 pungent, odour when evaporated from the back of the hand, 
 and are blackened by agitation with sulphuric acid. Samples 
 containing alcohol have a low specific, gravity and lose bulk 
 when shaken with , water. The presence of water, besides 
 affecting the spec, grav., causes cloudiness at temperatures ap- 
 proaching 32°. Any traces of sulphuric acid are discovered 
 by the usual barium test ; chlorine and hydrochloric acid by 
 silver nitrate. The purity of chloroform is judged by its odour 
 when evaporated, its behaviour when agitated with sulphuric 
 acid, its reaction on litmus, and its specific gravity, which is 
 lowered by the ordinary adulterations. 
 
 Actions and Uses. — Full doses paralyse and narcotise the 
 cerebro-spinal nervous system, by whatever chaimel they enter 
 the body ; death results from asphyxia chiefly depending upon 
 respiratory arrest. The vapour inhaled speedily causes anses- 
 thesia. Swallowed in medicinal doses, it is stimulant, anti- 
 spasmodic, and anodyne. Undiluted it is a topical irritant ; it 
 is applied externally as a rubefacient anodyne and local anaes- 
 thetic. 
 
 General Actions. — Paralysing narcotic effects, very analogous 
 to those of alcohol or ether, are readily caused by large doses 
 introduced into the stomach, or rapidly inhaled without suffi- 
 cient admixture of air. An ounce rapidly swallowed by a dog 
 15 lbs. weight, or half an ounce injected into the pleural cavity, 
 causes a sudden cry, gasping respiration, a run. of feeble pulsa- 
 tions, and death in 70 to 80 seconds. Similarly rapid fatal 
 effects result when small animals are introduced into a large 
 glass jar containing seven per cent of vapour (Dr. Anstie, 
 Stimulants and Narcotics). Although not very soluble, it pos- 
 sesses a high diffasive power, and rapidly enters the blood 
 
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CAUSES PARALYSIS AND ANAESTHESIA. 255 
 
 The changes it produces there are, however, at present unknown. 
 Dr. Haxley believes that it acts specially upon the blood globules, 
 interferes with their absorption of oxygen, produces their partial 
 deliquescence and disintegration, hence foUow sluggish capillary 
 circulation and impaired function of the brain and nervous 
 centres. (Eoyle's Materia Medica, 6th edition). It is removed 
 from the body mostly by the lungs, but in smaller amount by 
 the skin and kidneys. Its effects, according to the late Dr. 
 Snow, are observable so soon as the blood takes up a 56th 
 part of the amount it is capable of dissolviag. It acts directly 
 on the brain and nervous centres, briefly exciting and pervert- 
 ing, and then paralysing and extinguishing, their several 
 functions. Its influence extends from the periphery to the 
 centre; from the hinder extremities forwards. An ordinary 
 anaesthetic dose affects these centres in tolerably regular order ; 
 involving first those presiding oyer special sense and volition ; 
 next, those of motion and common sensation ; and lastly, where 
 the influence, is unduly prolonged, those of the sympathetic 
 system. The action of the heart, at first quickened, is sub- 
 sequently steadily depressed; the pulse eventually becomes 
 rapid and weak; the respirations, at first retarded, become 
 quicker, but as narcosis increases, are more slow, shallow, and 
 irregular. The pupils, at first contracted, gradually dilate. 
 In dogs, cats, and rabbits, as in man, apparently from paralysis 
 of the sympathetic, the functions of the liver are deranged, and 
 sugar is found in the urine-— an effect also occurring with 
 alcohol and ether. In these and other effects of chloroform, 
 functional activity is succeeded by functional paralysis. 
 
 The symptoms of anaesthesia having been described in 
 detail in a preliminary section (p. 83), it may sufBlce here 
 to mention that chloroform produces first temporary excite- 
 ment, with many of the symptoms of inebriation, succeeded by 
 gradually diminishing consciousness of external objects, weaker 
 and less regular respiration, diminution of animaltemperature, 
 muscular relaxation, and insensibility to pain. This stage of 
 anaesthesia, usually produced within five minutes, is that 
 required for the performance of serious operations, and may 
 with caution be safely maintained for an hour or even longer. 
 Danger, however, is to be anticipated whenever the breathing 
 becomes slow, shallow, or noisy ; the pulse slow, weak, or sud- 
 
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256 CHLOEOFOEM 
 
 denly irregular ; the pupils dilated ; the conjunctiva, if touched, 
 provoking no reflex movement. "With such warnings artificial 
 respiration must instantly be resorted to, great care being used 
 to prevent any rough handling, -which might entirely paralyse 
 the weakened heart. Cold water should be thrown over the 
 head and neck ; windows or doors opened to seciire fresh air ; 
 the tongue drawn forward, lest it interfere with inspiration. 
 The galvanic current applied over the phrenic nerve has been 
 advised ; but, if used at all, it must be with the greatest 
 caution. 
 
 Death usually results from. the chloroform being given too 
 rapidly, from insufficient dilution with air, which should 
 always constitute nineteen-twentieths of the safe mixture, 
 or, where cumbrous apparatus is used, from actual suffocation. 
 Chloroform usually kills animals by arresting respiration ; but 
 if given rapidly and in large amount, the cardiac sympathetic 
 ganglia are paralysed, and arrest of the heart precedes arrest 
 of respiration. Post-mortem examinations discover that the 
 blood coagulates normally; the lungs are not usually much 
 congested ; the heart continues to beat for a considerable time 
 after respiration has ceased, its left side being nearly empty, 
 but its right filled with semi-solid, dark-coloured blood. The 
 veins of the head, neck, and chest are distended with black 
 fluid venous blood ; the membranes of the brain are sometimes 
 congested. 
 
 Chloroform bears favourable comparison with other anass- 
 thetics, being more pleasant and less irritating to inhale, more 
 powerful and regular in its action, and less apt to cause pre- 
 limiaary excitement, or leave unpleasant effects. Smaller 
 quantity is required than of ether ; its effects are not so alarm- 
 ingly rapid as those of methyl bichloride, which ansesthises a 
 man in two minutes ; it is more manageable, and does not 
 require the dumbrous apparatus requisite for nitrous oxide. 
 Sir James Y. Simpson considered that chloroform saves the 
 lives of six persons in every hundred subjected to surgical 
 operations. With proper precaution, it is a very safe remedy. 
 It has been used many thousand times in Scotch and English, 
 as well as foreign hospitals without a single mishap ; during the 
 Crimean war, 30,000 French soldiers inhaled it without a siagle 
 casualty; whilst on the English side, with probably 50,000 
 
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IN SURGERY AND OBSTETRICS. 257 
 
 inhalations, there were but two deaths ; during the American 
 campaign, it was given without accident 22,000 times. The 
 various deaths connected directly and indirectly with its admi- 
 nistration do not average more than one in 17,000. In the 
 lower animals it cannot, however, be so conveniently used. 
 During the earlier stages of inhalation horses sometimes 
 struggle violently and get excited, and when, to avoid this, the 
 chloroform is given too rapidly, and in concentrated form, fatal 
 effects occur. Similar results are also observable among dogs 
 and rabbits. The author has had little experience of its effects 
 on either cattle or sheep. Bees exposed to it speedily become 
 insensible, and whUe* under its influence may be safely 
 removed from full hives. Plants exposed to its vapour lose 
 their irritability.. 
 
 Medicinal Uses. — Chloroform is not so extensively used in 
 veterinary as in human medicine. It is occasionally given to 
 horses to procure insensibility during castration, firing, and 
 other painful operations ; but it is wise to warn the owner of 
 the risk attending its administration, to have a competent 
 assistant to regulate' the administration, and to hold in readi- 
 ness for waste and other contingencies an ample supply of the 
 drug in good condition. Among the lower animals, parturition 
 is usually performed so easUy, and with so little apparent pain, 
 that the administration of chloroform, ia the great majority of 
 cases, is unnecessary. "Where false presentations have to be 
 rectified in the mare, it is sometimes, however, impossible, 
 without chloroform, to keep the animal quiet, or to abate the 
 violent uterine throes ; whilst in bitches it is also occasionally 
 useful when the pups have to be reduced in size before they 
 can be extracted. Amongst cows and ewes, labour pains 
 sometimes continue for hours, and other preparations for 
 parturition appear to be complete ; but the neck of the uterus 
 remains firmly closed, sometimes in spite of medicines and 
 manipulation. Chloroform in such cases often effectually relaxes 
 the rigid muscle, and delivery is promptly and safely accom- 
 plished. In facilitating the reduction of hernia, chloroform 
 is often invaluable. Besides affording temporary relief, it 
 also occasionally removes strangulation of the bowels in horses. 
 Although its inhalation has been recommended in tetanus, and 
 relief is obtained so long as anaesthesia continues, the spasms 
 
 s 
 
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258 CHLOROFORM 
 
 speedily return with their former severity, and any benefit 
 derived is usually more than counterbalanced by the disturbed 
 and excited state into which the animal is apt to be thrown 
 by the administration of the chloroform. In diseases accom- 
 panied by violent exhausting pains, as enteritis, peritonitis, and 
 acute rheumatism, as also in the spasms or after-pains of partu- 
 rition or abortion, a slight degree of ansesthesia is of service in 
 aU animals in blunting pain, and allowing time for the bene- 
 ficial operation either of medicines or of the conservative 
 powers of nature. In such cases chloroform may either be 
 inhaled or given in solution by the mouth or rectum. In the 
 form of clysters, in combination vsdth opium, it merits more 
 extended use in internal diseases, in which it, often relieves 
 pain, especially of an irritative type. Its inhalation three or 
 four times a day, in quantities sufficient to cause slight anes- 
 thesia, has little, if any, curative effect in contagious pleuro- 
 pneumonia of cattle. Small doses, either inhaled or swallowed, 
 frequently arrest epileptic fits in dogs. 
 
 When swallowed, it proves a useful antispasmodic in all 
 animals, in colic, asthma, and troublesome cough. After 
 epizootic sore throat, horses sometimes have violent spasmodic 
 coughs, which are greatly benefited by diluted chloroform or 
 chloric ether, given in ounce doses, with a drachm of belladonna 
 extract, dissolved in about a pint of cold linSeed gruel, and 
 swallowed very slowly, so as to insure more prolonged topical 
 effect. In chronic irritability of the bowels in young weakly 
 calves, after castor oil has been given, nothing proves more ser- 
 viceable than chloric ether and a little laudanum repeated twice 
 or thrice daily in cold starch gruel. 
 
 Dropped upon a mucous or delicate cutaneous surface, 
 chloroform causes irritation, evaporates rapidly, leaves a sense 
 of coolness, and, where freely used, dulls or removes sensation. 
 For local ansesthesia, ether, being more volatile, is, however, 
 more rapid and effectual. Chloroform often allays neuralgic, 
 rheumatic, and other pains, and is effectually applied either 
 alone or with other anodynes. Diluted with six or .eight parts 
 of oil, it abates the irritation of eczema, urticaria, and prurigo ; 
 and, mixed with a little spirit, is a ready, cleanly, but some- 
 what expensive means of removing lice and fleas. Its high 
 diffusion power, which it retains when mixed with spirit. 
 
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SWALLOWED AS A STIMULANT. 259 
 
 renders it a useful veMcle for the rapid introduction into the 
 system of morphine, atropine, and other such medicines. 
 
 Doses, etc. — It is somewhat difficult to fix the precise quan- 
 tity of chloroform necessary to produce anaesthesia. Two or 
 three ounces are generally effectual for horses or cattle, one 
 to two ounces for sheep and pigs, two to four drachms for dogs. 
 The inhalation is most simply and safely effected ia smaU 
 animals with a piece of sponge or lint, wetted with the chloro- 
 form, and held near the nostrils ; in the larger animals, by 
 placing a sponge saturated with chloroform in a nosebag, per- 
 forated with holes to admit a sufficiency of air, and attached 
 to the head. Care should be taken previously to secure a 
 strong animal, lest he become unmanageable duriag the early 
 stages of excitement ; to supply fresh quantities of chloroform 
 by a tube or other means ; and to insure the entrance into the 
 lungs of an adequate supply of air along with the chloroform. 
 Three to five per cent of chloroform vapour suffices ; upwards 
 of five per cent is unsafe, being apt, as above stated, to cause 
 death by sudden arrest of the heart. The Medico-Chirurgical 
 Society, ia 1864, recommended as the best anaesthetic mixture, 
 two parts of chloroform, three of ether, and one of rectified 
 spirit. The Austrian Government more recently advised one 
 part of chloroform and six parts of ether in cold weather, and 
 eight parts of ether in warm weather. C. Bernard has shown 
 that the subcutaneous injection of morphine prolongs and 
 intensifies the action of chloroform, but increases greatly its 
 risks. Whilst anaesthesia continues, the respiration, the pulse, 
 and the reflex sensibility of the conjunctiva must be carefully 
 watched. If an undue effect be produced, the inhalation must be 
 immediately stopped, free access of fresh air allowed, water thrown 
 over the head and neck, and artificial respiration adopted. 
 
 As a stimulant, antispasmodic, and anodyne, the dose of 
 chloroform for horses or cattle is f 3i. to f3ij. ; for sheep and 
 swine, n|_xx. to Tl^xl. ; and for dogs, n|_v. to TlT_x. These doses 
 are best given in weak spirit, at intervals of one or two hours. 
 Chloroform is a solvent for gutta percha, and the solution is 
 occasionally employed as a substitute for collodion. 
 
 Chloric Ether, also called spirit of chloroform, is made by 
 dissolving one fluid ounce of chloroform in nineteen fluid 
 ounces of rectified spirit. It has the specific gravity -871, a 
 
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260 CINCHONA. 
 
 warm ethereal odour and taste, proves an effectual stimulant, 
 antispasmodic, and anodyne, and nearly corresponds in its uses 
 and doses to ether and sweet spirit of nitre. Diluted with 
 water, or any bland cool fluid, it is prescribed for horses in 
 doses of f §i. ; for cattle, f gij. ; for sheep and pigs, f 3ij. to f 3vi. ; 
 and for dogs, f 3i. to f 3ij. Conjoined with opium, its effects are 
 intensified and increased, and it constitutes one of the most 
 effectual antispasmodics, anodynes, and nerve soothers. 
 
 Chloeodywe, so popular an anodyne in human medicine, 
 is made from different formulae ; Dr. CoUis Browne's is stated 
 to contain ten parts each of chloroform, ether, Indian hemp, 
 and morphine ; two parts capsicum tincture and prussic acid ; 
 three parts aconite and hyoscyamus tinctures ; one part oil of 
 peppermint; five parts hydrochloric acid, and fifty of simple 
 syrup {New Remedies, October 1877). 
 
 CINCHONA. 
 
 Bark of different species of Cinchona. 
 
 Nat. Ord. — Cinchonacere. Sex. Sysf. — Pentamdria Digynia. 
 
 The Cinchonacege, nearly allied to the Eubiacese, are ever- 
 green trees, or tall shrubs, with fine foliage and beautiful 
 fragrant flowers. They abound on the slopes and valleys of 
 the Andes; extend from about 10° N". latitude to 19° S. lati- 
 tude ; occur chiefly in groups or solitary trees ; and thrive best 
 with a good deal of moisture, a mean temperature of about 6 0°, 
 and an elevation of four to ten thousand feet above the sea- 
 level. Of the thirty-six known species, of which there are 
 numerous varieties, about eight yield the barks of commerce. 
 In 1639 cinchona was brought' from Peru to Madrid, dis- 
 tributed by the Jesuits, and hence received the vernacular 
 names of Peruvian and Jesuits' bark. It is collected during 
 the dry season from May to November; the outside rough 
 cortical bark of full-grown trees is usually first beaten and 
 trimmed off. The inner bark or Hber, in which the active 
 bitter principles reside, is stripped off as high as can be reached, 
 the tree felled, and peeling completed. Trees partially barked, 
 and left standing, have their wood next season covered with an 
 exudate stated to be specially rich in alkaloids (J. E. Howard). 
 
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PALE, YELLOW, AND RED BARKS. 261 
 
 The bark is dried in the sun ; by careful stacking and pressure 
 the thick pieces from the trunk are kept flat; the thinner 
 portions from the branches curl into single or double roUs or 
 quills. The bark is usually packed in serones, formed of hides 
 or coarse cloth, and containing from 70 to 150 pounds. The 
 improvident destruction of the American cinchona forests has 
 diminished the supplies of bark, enhanced the price of quinine, 
 and led to the introduction of the plants into other regions, 
 and especially into India, Ceylon, Java, and Jamaica, where 
 they are now successfully cultivated. 
 
 Varieties. — The different barks met with in commerce are 
 recognised as pale, yeUoV, and red barks. 
 
 The Pale Cinchonas (Cinchonee paUidse) are usually in 
 thin fibrous rolls or quills, stripped from branches or young 
 trees of C. officinalis. One of the best is Crown or Loxa bark, 
 from the C. Condaminea, occurring in single or double quills, 
 six to fifteen inches long, about the size of the finger, somewhat 
 thicker than stout paper, invested with a gray or tawny epider- 
 niis, marked with longitudinal furrows and transverse cracks, 
 and covered with lichens. Its inner surface is orange or cin- 
 namon brown, and its powder light brown, slightly bitter, and 
 very astringent, from the presence of cincho-tannic acid, of 
 which the pale barks contain mote than the yellow or red. 
 The pale barks are further remarkable in containing more 
 cinchonine than quinine. 
 
 The Yellow Cinchonas (Cinchonse flavse) are mostly 
 obtained from the C. Calisaya, a tree forty feet high, often 
 three feet in diameter, found in the warm climates of Bolivia 
 and South Peru, and distinguished by its stout naked stem 
 and leafy summit overtopping the rest of the forest. They 
 occur occasionally in qidlls, more commonly in flat pieces, 
 usually eight to fifteen inches long, two to three wide, and two 
 to five lines thick. The brown, rough-fissured periderm is 
 usually removed before importation, and the compact pieces 
 generally consist almost entirely of Hber ; are furrowed and 
 brownish-yeUow externally ; fibrous and yellow-orange within. 
 The transverse fracture shows numerous short fibres ; the 
 powder is cinnamon-brown; the odour aromatic; the taste 
 bitter, without astringency. Good specimens yield five to six 
 per cent of quinine. . 
 
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262 CINCHONA ALKALOIDS. 
 
 The Eed Cinchonas (CinchonEe rubrae) include several com- 
 mercial varieties, are the produce of different species, frequently 
 of the C. succirubra, are collected on the western slopes of 
 Chimborazo, and owe their distinctive colour chiefly to the 
 manner in which they are procured and dried. They are 
 sometimes in quDls, but usually in flat, compact, heavy pieces, 
 twelve to twenty inches long, one to three inches wide, two to 
 six lines thick ; made up chiefly of liber ; are red, rough, and 
 wrinkled externally ; finely fibrous, and red-brown internally ; 
 have an agreeable odour, and a bitter, astringent taste. They 
 yield three to ten per cent of alkaloids, of which one-third is 
 quinine, with ten per cent cinchona red — a larger proportion 
 than in other barks. 
 
 Properties. — The cinchona barks have certain common 
 characters. They occur either in quills- or flat pieces, have an 
 aromatic odour, and a bitter, usually astringent taste. Their 
 colour varies through the shades of yellow to red, and is deep- 
 ened by moisture. They are soluble in cold and hot water, 
 and in alcohol ; their best solvents are proof spirit and diluted 
 acids. When solutions are exposed to high or prolonged heat, 
 the colouring matter unites with the alkaloids, forming insoluble 
 compounds, and on this account decoctions and extracts are 
 ineligible. For mixing with the superior pale, yellow, and red 
 barks, inferior sorts, such as ash, rusty, and Carthagena bark, are 
 collected. The tests of the value of any specimen are its general 
 appearance, fracture, colour, odour, taste, and percentage of the 
 alkaloids, which are the active principles of the bark. 
 
 Composition. — Besides ordinary plant constituents — lignin, 
 starch, gum, resin, and mineral matters — cinchona bark contains 
 a thick, acrid, volatile oil, tannic acid, a saponifiable fat, colour- 
 ing matters, and deposited in the liber, in combination with 
 kinic acid, several alkaloids, quinine and cinchoniue being the 
 most important. By digesting the bark with weak hydro- 
 chloric acid, the alkaloids are dissolved, and are precipitated 
 from such solution by an alkali. Their yield is much affected 
 by climate, situation, and cultivation, is greatest in old trees, 
 reaches sometimes to twelve per cent ; a variable proportion of 
 the several alkaloids is obtained from different barks. 
 
 Quinine or quina (Cjo Hj^ "S^ Oj, SHj 0) is most abundant 
 in the yellow barks, which yield five to six per cent. When 
 
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QUININE AND CINCHONINE. 263 
 
 a solution of the disulphate is treated with ammonia solution, 
 the alkaloid is precipitated as an amorphous white powder. 
 By slow evaporation of a concentrated solution, it may be got 
 in delicate siLky prisms. It has an intensely bitter taste, per- 
 ceptible even when diluted with 100,000 parts of water; 
 requires for solution 350 parts of cold water, 21 of ether, 
 and stUl less of absolute alcohol, oils, and diluted acids. It 
 forms colourless, bitter, crystaUisable, rather insoluble salts, 
 remarkable, like the alkaloid, for tonic and antiperiodic pro- 
 perties. Aqueous solutions of the alkaloid and its salts acidulated 
 with sulphuric acid exhibit blue fluorescence, even when diluted 
 with 200,000 parts of "water; treated with chlorine gas, the solu- 
 tion passes through various changes of colour, from pink tO' 
 purple, finishing with dark red ; treated with chlorine water or 
 bromine, and then with a drop of liquor ammonise, a green pre- 
 cipitate is thrown down ; precipitates are also yielded by galls 
 tincture, gallic, tartaric, and oxalic acids, and by silver nitrate. 
 From quinine acted on by caustic potash. Professor M'Kendrick 
 and Dr. Eamsay of Glasgow have recently obtained chinoliae, 
 of which three grains hypodermicaUy injected into the body of 
 a rabbit cause anaesthesia in eight minutes (Medical Press and 
 Circular, December 1877). 
 
 Quinidine or quinidia (Cjo Hg^ ^2 O2' 2H2O) is isomeric witK 
 quinine, is found in most barks, is precipitated from solution, 
 and thus separated from the other alkaloids by potassium 
 iodide, deposits from an ethereal solution in rhombic eifior- 
 escent prisms, is less bitter, less soluble, but as powerfiil as 
 quinine. An alkaloid has been isolated froin C. succirubra 
 allied to , quinine, and termed quinamine. 
 
 Cinchonine or crachonia (Cjo H24 ISTa 0) is present to the 
 amount of four or five per cent, especially in the pale barks. 
 Its colourless four-sided prisms have a feebly bitter taste. It 
 is distinguished froni quinine by being anhydrous, scarcely sol- 
 uble in ether, but readily dissolved in alkaline solutions ; its 
 accidulated watery solution shows no fluorescence, and no green 
 colour or precipitate with chlorine, whilst it turns a ray of 
 polarised Hght to the right instead of to the left, as quinine does. 
 As a toMc, it is given in about double the dose of quinine 
 (Bartholow). Another alkaloid, cinchonidine, has been obtained 
 isomeric with cinchonine. 
 
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264 CINCHONA ALKALOIDS . 
 
 Quinodme or quinoidine is the name given to the uncrystal- 
 lisable alkaloids. When undue heat or excess of the mineral 
 acids is used in the abstraction of the ciachona alkaloids, or 
 when the bark has been carelessly dried or unduly exposed to 
 sunlight, the proportion of the amorphous quinodine is increased 
 much m the same manner as excess of uncrystalhsable treacle 
 occurs ia the careless preparation of crystallisable sugar. Quino- 
 dine contains a mixture of modified quinine and ciachonine, is 
 at first brown and brittle, but can be readily freed of colouring 
 matters, and its combinations with sulphuric and hydrochloric 
 acids are now sold as colourless powders. Being considerably 
 cheaper than the pure crystalliQe alkaloids, and about as active, 
 they deserve the attention of veteriaarians. 
 
 Kinic or quinic acid (C^ Hij 0^) is present in many 
 aUied barks, occurs in cinchona in combination with the 
 alkaloids and earthy bases, and from its aqueous solution crys- 
 tallises in transparent, large, rhombic prisms, soluble, and acid 
 to the taste. By destructive distOlation it furnishes benzol 
 and benzoic acid, which it resembles in its action, and when 
 taken internally it is excreted by the kidneys as hippuric 
 acid. Kinovic or quinovic acid, probably a modified condition of 
 kinic acid, forms tasteless, insoluble, hexagonal scales. 
 
 Cincho-tannic acid (C14 H12 0,., Hg 0), present to the amount 
 of two or three per cent, is amorphous, deliquescent, soluble in 
 water, alcohol, and ether ; precipitated, from its solution by iron 
 perchloride, gelatin, and tartar emetic. Alkalies convert it into 
 cinchonic red. 
 
 Cinchona red, or cincho-fulvic acid (Cu Hj^ O7) is an amor- 
 phous hygroscopic insipid colouring matter, partially soluble in 
 water, more soluble in spirit, and forming an intensely red 
 solution with alkalies (Eoyles' Mat. Med., 6th edition). 
 
 'Actions and Uses. — Cinchona bark is an antiseptic and 
 topical astringent. Full doses of the bark or its alkaloids pro- 
 dube symptoms of nausea, giddiness, and delirium, recognised 
 in human patients as cinchonism. Medicinal doses are anti- 
 septic, astringent, stomachic, tonic, and antiperiodic. The bark 
 in part owes its activity to its cincho-tannic acid, which is 
 astringent, and closely resembles tannic acid ; to its kinic acid, 
 allied to benzoic acid ; but its special tonic and antiperiodic 
 virtues are due to its alkaloids. 
 
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ANTISEPTIC, TONIC, AND ANTIPEEIODIC. 265 
 
 General Actions. — The bark, and in still greater degree, its 
 alkaloids, have valuable antiseptic properties. Quiniae is 
 scarcely inferior to carbolic acid, arsenic, corrosive sublimate, 
 or strychniue, in its power of arresting fermentation and putre- 
 faction, and destroying fungi and other vegetable and animal 
 organisms. One part in 3 preserves meat, butter, milk, and 
 wine, and prevents the formation of acid in blood, even when 
 exposed for a considerable time to the air. Diluted even with 
 800 parts of water, it prevents fermentation, destroys fungi 
 and infusoria, and arrests the movements of vibrios and bac- 
 teria. It is readily absorbed and diffused, and, slowly excreted 
 by the kidneys unchang'ed, excepting that it is reduced from 
 the crystalline to the amorphous form. The manner in which 
 its curative effects are produced is stUl a matter of speculation. 
 Professor Binz, of Bonn, arguing from its effects outside the body, 
 teaches that it hinders the hsemo-globulin of the red corpuscles 
 from yielding oxygen to the tissues, and hence diminishes 
 wasteful oxidation and tissue change; that it paralyses the 
 amoebiform movements of the white corpuscles ; and that in 
 curing ague it attacks and destroys the special germs or 
 tmstable albuminoids hable to degenerate change {Practitioner, 
 Dec. 1876 and August 1877). Dr. John Harley does not' 
 consider that these ingenious conclusions are established. The 
 oxides of carbon, which notoriously reduce the oxidising 
 function of the blood, produce coma instead of dehriimi, are 
 devoid of tonic and antiperiodic properties, and increase the 
 uric acid excretion, instead of diminishing it, as cinchona does. 
 Dr. Harley believes that cinchona and quinine act mainly as 
 tonics and astringents on the nervous system ; give strength 
 to the circulation by their stimulating the vasomotor nerves ; 
 they produce cinchonism by their direct effect on the nerve 
 vesicle ; their beneficial influences, he adds, " are seen in those 
 cases where, so to speak, the nevous system is unstrung — 
 where, from sheer debility and relaxation of the nerve vesicles, 
 the nerve currents are jarring and painful " (Eoyles' Mat. Med., 
 6th ed.) Its stomachic and tonic properties ally cinchona 
 with calimiba and beebeeru barks, with the root of Hydrastis 
 Canadensis, and with saKcyUc acid. Powdered bark, swal- 
 lowed in large amount by dogs, irritates and constringes the 
 alimentary mucous membrane, and from its bitterness causes 
 
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266 CINCHONA BARK. 
 
 vomiting. An ounce and a half of a strong decoction, injected 
 into the jugular vein of a dog, produced in fifteen minutes 
 vomiting, violent palpitations, and spasms ; the injection of 
 half an ounce more caused tetanic convulsions and death. 
 Thirty grains swallowed by rabbits induced debility ; and six- 
 teen grains death (Sir Eobert Christison on Poisons). 
 
 Medicinal Uses. — Cinchona bark is prescribed for all ani- 
 mals as a vegetable tonic. Along with gentian, hydrochloric 
 acid, and a little spirit, I often use it for young calves that have 
 suffered from diarrhoea. It counteracts that relaxed over-secreting 
 state of mucous membrane, which affords a favourable nidus 
 for worms ; it checks other inordinate mucous discharges 
 depending on defective tone; and is useful- in passive has- 
 morrhage, convalescence from debilitating complaints, consump- 
 tion, and other forms of scrofula, diabetes, glanders, and sheep- 
 rot. In these last two diseases,, although, like other tonics, a 
 valuable palliative, it is not, as some have considered, a perfect 
 cure. Its antiseptic virtues lead to its use in cases of septic 
 poisoning, as in purpura in horses, in puerperal metritis in 
 cows and ewes, and in pyaemia. Its antiperiodic properties 
 recommend it in intermittent fevers, in chorea in dogs, in 
 periodic ophthalmia or moon blindness in horses, in which it is 
 highly extolled by French veterinarians, and in rheumatic 
 affections both of horses and cattle which occasionally exhibit 
 considerable periodicity. To arrest such interncdttent attacks, 
 a full dose should be given four or five hours before the seizure 
 is anticipated. It is contra-indicated in inflammatory attacks, 
 and where the stomach is irritable and the bowels constipated. 
 It is occasionally used externally as an astringent and anti- 
 septic. 
 
 Doses, etc. — ^For horses, 3ij. to 3iv. ; for cattle, gi. to gij. ; 
 for sheep and pigs, 3i. to 5iv. ; for dogs, grs. xx. to 3i. ; repeated 
 twice or thrice daily for several days continuously. ' If nausea 
 or vomiting supervene, as occasionally happens in dogs, the dose 
 should be considerably reduced, and given immediately after a 
 meal. It is usually ad-ministered in the form of bolus, and is 
 often conjoined with camphor, gentian, ginger, spirit, or ether. The 
 infusion is made by digesting for some hours, or boiUng for ten 
 minutes in a covered vessel, one part of powder, with ten or 
 twelve parts of water, and straining. The tincture is made by 
 
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QUININE SULPHATE. 267 
 
 maceration and percolation with four ounces of yellow bark and 
 one pint of proof spirit. - 
 
 Quinine Sulphate or Disulphate (Quinse sulplias) pos- 
 sesses in concentrated form all the properties of cinchona bark, 
 and is the quinine salt generally used in human medicine. 
 The proportion yielded by different barks varies from one to six 
 per cent. As it is procured from the manufacturing chemist, 
 minute details regarding its preparation are unnecessary. The 
 yellow bark is usually preferred, is reduced to coarse powder, 
 and treated with hydrochloric acid; the alkaloids thus dis- 
 solved are thrown down by solution of soda or lime, washed 
 repeatedly with water to remove saline and other impurities, 
 redissolved by very diluted sulphuric acid, filtered, evaporated, 
 and crystallised, leaving in solution any other alkaloids pre- 
 sent. The salt contains two atoms of quinine, one of sulphuric 
 acid, and seven of water of crystallisation (2 Cjo Hg^ Ng Oj, 
 Ha SO,, 7 Ha 0). 
 
 Froperties. — Quinine disulphate occurs in fine,' silky, col- 
 ourless, odourless crystals, adhering together in tufts, and 
 having an intensely bitter taste. Exposed in dry air it efflor- 
 esces, giving off five atoms of its water of crystallisation. It 
 is soluble in 740 parts of cold water, 30 of boiling water, and 
 60 of rectified spirit; a few drops of sulphuric acid convert it 
 into the neutral sulphate, which is freely soluble. Its acidu- 
 lated watery solution, when diluted, has a faint blue tint, and 
 exhibits on its surface a peetdiar fluorescence, noticeable even 
 '^^®^ 2 o'o ^^ P^ ^^ present. With alkalies and alkaline 
 carbonates it yields white precipitates of quinine, When a 
 faintly acidulous solution is treated first with chlorine or bro- 
 mine water, and then with liquor ammonise, a green-coloured 
 solution is produced, from which a green precipitate shortly 
 separates. With iodine is also formed a beautiful green crystal- 
 line compound. 
 
 Impwrities. — The most common adulterations are calcium 
 sulphate, which with other earthy impurities is detectable by 
 incineration ; sugar, discoverable by the sweetness of the resi- 
 duum left on evaporation ; fatty matters, insoluble in water 
 acidulated with sulphuric acid. When sugar, starch, saHcine, 
 or other organic matters are present, cold concentrated sul- 
 phuric acid produces a coloured, instead of a colourless or 
 
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268 QUININE AND OTHER CINCHONA ALKALOIDS. 
 
 slightly yellow solution. Vapour of ammonia gives a beauti- 
 ful blue colour with any sample containiug phloridzin — a bitter- 
 sweet, silky, crystalline body, obtained from the bark of pomaceous 
 and amygdalaceous trees. Oiachomne and quinidine are de- 
 tected by throwing down the alkaloids from solution by liquor 
 ammoniae, and adding ether, which redissolves the quinine, but 
 leaves the other alkaloids floating undissolved between fhe two 
 liquids ; the cinchoniae appears crystalline, the quinidine of an 
 oily aspect. 
 
 Actions and Uses. — Quinine disulphate, quinidine, cincho- 
 nine, and the uncrystallisable alkaloids or quinodiue, differ 
 only ia the degree of their action, and are applied to the same 
 uses. They differ from the crude bark mainly in their con- 
 centration and absence of astriagency. Quinine sulphate and 
 quinodine sulphate, which is cheaper and equally effectual, are 
 the most powerful and certaiu of vegetable tonics, and are 
 active antiseptics and antiperiodics. Their expense alone pre- 
 cludes their more extended use in veterinary practice. They 
 are suitable for aK animals suffering from loss of appetite, weak 
 digestion dependiag on debflity ; convalescence from acute 
 complaints ; or chronic exhaustiag diseases. They are pre- 
 scribed for horses in strangles, influenza, purpura, and typhoid 
 fever. "No tonics are better adapted for badly nourished dogs, 
 especially when suffering from distemper ; they aUay irritation, 
 counteract perverted and inordinate nervous action ; given along 
 with port wine or ether, they prevent untoward complications 
 and expedite recovery. Similar treatment answers well in 
 chorea. Ten grains dissolved in ether, repeated several times 
 daUy, have been used with benefit by Mr. Thomas A. Dollar, in 
 sciatica in the horse. Quinine given with cathartics is be- 
 lieved to increase their activity ; but its actions in combination 
 have as yet been imperfectly studied. 
 
 Doses, etc. — Of quinine disulphate, or the cheaper uncrystal- 
 lisable quinodine sulphate, horses take grs. x. to grs. xx. ; 
 cattle, grs. xx. to grs. xl. ; sheep and pigs, grs. v. to grs. x. ; 
 and dogs and cats, gr. i. to grs. v. Quinidine is used in the 
 same doses ; cinchonine in double the quantity. These doses 
 are repeated thrice a day-; and when given as a tonic should be 
 persevered with for some days, and alternated with other tonics. 
 They are given in the form of piU, conveniently administered to 
 
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TONICS AND ANTIPERIODIOS. 269 
 
 the dog in a spoonful of tliick gruel or a piece of meat. The 
 solution in water, acidulated with a few drops of sulphuric acid, 
 is the form preferred in human medicine. It is frequently con- 
 joined with ginger, gentian, camphor, valerian, or iron, and 
 medical men endeavour to combine the good results of the best 
 mineral and best vegetable tonic by administering the citrate of 
 iron and quinine. 
 
 COD-LIVEE OIL. 
 
 Morrhuse Oleum. Oil from the fresh liver of Gadus 
 morrhua. 
 
 The fresh, carefuUy-cleaned livers of cod, and occasionally 
 of other fish, are placed in a boiler and exposed to steam heat 
 not exceeding 180°. The oil floating to the top is filtered, 
 cooled to 50°, and again filtered before being stored in casks. 
 The chief supplies come from Newfoimdland. Good samples 
 have a pale yellow colour, and an oily, fishy taste, which be- 
 comes, however, less obvious to those accustomed to take it. 
 The dark colour and nauseous flavour of indifferent specimens 
 result from exposure to high temperature, or from the oil being 
 extracted from stale putrid livers. Its specific gravity is '928 ; 
 ether dissolves it readily ; cold alcohol dissolves 2 to 3 per 
 cent, hot alcohol 3 to 7 percent. It consists of ,80 per cent of 
 olein and 15 per cent of palmitin, united with propyl, a sub- 
 stance allied to glycerin ; small portions of cholic and butyric 
 acids, and other biliary matters ; acetin, a compound of acetic 
 acid and glycerin; less than one-half per cent of phosphorus, 
 iodine, bromine, and chlorine, with phosphoric and sulphuric 
 acids, Hme, magnesia, and soda (Eoyles' Mat. Med.) A drop of 
 sulphuric acid, added to a few drops of cod-liver oil in a por- 
 celain cup, develops a violet colour, which passes to yellow or 
 brown-red, depends upon the presence of cholic acid, and 
 indicates the source but not the purity or goodness of the oU. 
 
 AdioTbS wnd Uses. — Cod-Uver oil is nutrient, tonic, and 
 alterative. Like other fixed oils, large doses cause deKinge- 
 ment of the bowels and purgation ; but small and repeated 
 doses are saponified and assimilated, become- a source of heat 
 and of force, nourish the nervous and other organs, increase 
 intercellular fat, and usually add to the patient's weight. 
 
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270 COD-LIVER OIL 
 
 Dr. Pollock published in the Lancet (5th Novemlber 1853) 
 some interesting experiments, made by an Essex agriculturist, 
 regarding the fattening action of cod-liver oil on pigs, sheep, and 
 cattle. Twenty pigs, separated from a lot of three hundred, 
 averaging in weight from j&ve to fifteen stones, received two 
 ounces of oil daily, with as much meal as they pleased. The 
 rest of the lot were treated in exactty the same manner, but 
 got no oil. Those receiving the oil are stated to have consumed 
 less food, and when killed " weighed the heaviest, and made 
 the most money in the London market, the fat being firm and 
 white. When the daily allowance of oil was increased to four 
 ounces per day, the fat became yellow, and the flesh acc[uired a 
 fishy taste." For small pigs an ounce daily was found the most 
 economical quantity. An ounce given daily to sheep induced a 
 decided improvement in the quality both of the fat and flesh ; 
 while cattle receiving on an average about half a pint daily are 
 stated to have eaten less food, and paid better, than when 
 treated in the usual way. The oil, it is mentioned, cost from 
 2s. 8d. to 3s. per gallon; and in some comparative experiments 
 is said to have proved itself superior to sperm oil. These 
 experiments deserve to be repeated. As they stand, they con- 
 firm the fact, admitted by aU scientific agriculturists, that a cer- 
 tain quantity of oleaginous material is essential to the speedy and 
 economical fattening of animals. They do not, however, suffice 
 ■to establish the individual superiority of cod-liver oil. Equally 
 satisfactory results might have been obtained from the use of 
 linseed, lard, rape, or other mild iixed oils. 
 
 As a nutrient tonic, cod-liver oU, in human patients, is, how- 
 ever, preferred to other oils, mainly on account of its readily 
 assimilable nature, — a property probably depending upon the 
 bihary matters associated with it. It is extensively prescribed 
 in debilitating and chronic complaints, accompanied by faulty 
 nutrition, in the several forms of scrofula, in epilepsy, chorea, 
 and various nervous disorders associated with weakness. It 
 may be advantageously given to dogs and cats in scrofulous 
 disorders, protracted cases of distemper, inveterate skin disease, 
 epilepsy, chorea, and chronic rheumatism, especially that 
 variety known as kennel lameness, and depending upon damp, 
 bad feeding, and faulty nutrition. I have given two-ounce 
 doses twice daily to delicate horses, thriving badly after 
 
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NUTEIElirT AND TONIC. 271 
 
 influenza and strangles. It helps the recovery of cattle from 
 pleTiro-pneumonia and chronic rheumatism; but for such 
 disorders among cattle, sheep, and horses, it is usually super- 
 seded by linseed or oil cakes. Dr. Pollock's Essex correspondent 
 mentions that, like other oils, it materially relieves broken- 
 winded horses. 
 
 Doses, etc. — Horses take fgij. ; cattle, fgij. to f§iv. ; sheep 
 about fgj.; pigs, £3iv. to fgi. ; dogs, f3i. to f3iv.; cats, about fgi. 
 The doses may be repeated twice a day, a];id persevered with, if 
 required, for weeks. To remove disagreeable flavour, and pre- 
 vent nausea, it is given in mUk or gruel, beat up with an 
 egg, conjoined with soifl.e aromatic, mixed with lime water, or 
 better still, with ether, and swallowed immediately after other 
 food. 
 
 COLCHICUM. 
 
 Autumn Crocus. Meadow Saffron. Fresh corm or 
 bulb and seeds of Colchicum autumnale. 
 
 Nat. Ord. — Colchicacese or Melanthacese. Sex. Syst. — Hexandria Trigynia. 
 
 The autumn crocus grows wild on lawns and coarse wet 
 pastimes, in mild moist localities, and is cultivated in many 
 gardens. It has an annual stem ; Ulac or purple flowers, 
 numerous round, brown, bitter, acrid seeds, about the size of 
 millet ; and a biennial root, which, towards June, and when 
 about a year old, produces near its lower end a small bulb. 
 This offshoot gradually increases in size, sends up in autumn a 
 flowering stem, and in spring the familiar crocus leaves with 
 the seed vessel. By July it attains its full growth, being 
 about the size of a walnut, and .beginning in its turn to form a 
 young bulb. Meanwhile the parent bulb has been gradually 
 wasting, until, during the second summer of its own existence, 
 it becomes a dry, shrivelled, shapeless mass, attached to the 
 lower surface of its full-grown progeny. Previous to this, 
 generally during the spring months, it sometimes produces one 
 or two small immature bulbs, which, after separation from the 
 parent bulb, probably require several years to come to perfec- 
 tion. The corm or bulb, which is the chief officinal part of the 
 plant, is usually taken up in June or July, when plump, rich 
 in starch, and about a year old. But although more shrivelled 
 
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272 COLCHICUM 
 
 and watery, it is now believed that their medicinal activity is 
 greatest in autumn during or after inflorescence, and that they 
 then keep for years, if. dried entire in the sun or air 
 (Utickiger and Hanbury). The bulbs in their plump state 
 are generally sliced transversely, dried at a temperature not 
 exceeding 150°, and stripped of their brown integument. 
 The slices are kidney-shaped, about two inches long, and an 
 inch wide, are grayish-white, dry, firm, and starchy, with a 
 bitter acrid taste. They yield their active principles to spirits and 
 vinegar, which is their cheapest and handiest solvent. The 
 bulbs contain about 70 per cent of water, 10 of starch, with 
 lignin, gum, and a bitter, crystaUisable, poisonous alkaloid, 
 called Colchicine (C17 Hjg N O5) present also in other parts of 
 the plant, and nearly 100 times more active than the fresh 
 bulb. Sulphuric acid colours it yellow-brown, nitric acid dyes 
 it violet, passing through various hues to yellow. It resembles 
 veratrine, but is more soluble and crystaUisable, and does not 
 cause sneezing. 
 
 Actions and Uses. — Colchicum in large doses is an irritant 
 and sedative; medicinal doses are emetic, cathartic, diuretic, 
 diaphoretic, and sedative. It nearly resembles the other 
 Melahthacese, Veratrum album, V. viride and cevadilla, and is 
 allied to aconite, which develops, however, sedative actions, 
 without the objectionable irritant effects. 
 
 The powdered corm, or any active preparation, irritates the 
 skin, or other part to which it is applied. Eaten, whether in 
 the green or dried state, it excites gastro-intestinal irritation. 
 Mr. Broad, of Bath, in the Veterinarian for April 1856, records 
 two cases of horses dying from eating in their hay the stalks, 
 leaves, pods, and seeds of colchicum. Colic, tympanitis, and 
 great dulness supervened, with death in twenty-four hours ; 
 and on post-mortem examination, " inflammation and patches 
 of erosion " were found on the mucous membrane of the stomach. 
 Mr. Broad also mentions the poisoning of eight two-year-old in- 
 calf heifers, which suffered from tympanitis, purging, feeble 
 pulse, and coma. Three died in about twenty hours, and the 
 mucous membrane of the stomachs^ exhibited patches of inflam- 
 mation and erosion. M. Barry, in the Becueil de MMecine 
 VMrinaire for December 1862, records the case of a cow and 
 heifer in Aisne, which ate some cut grass containing a consider- ■ 
 
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IRRITANT AND SEDATIVE, 273 
 
 able amount of meadow saffron. In a few hours they had 
 violent colic, profuse and bloody diarrhoea, tenderness of the 
 abdomen, coldness of the surface, and prostration. The cow 
 recovered; the heifer died from irritation and exhaustion irt three 
 days. A number of cows ate small quantities of colchicum, 
 suffered from colic and diarrhoea, but recovered "when treated 
 with emollient drenches and mild saline mixtures. In the 
 Veterinarian for August 1864, three cattle eating colchicum 
 are reported to have shown dulness, stupor, grinding of the 
 ' teeth, dilated pupils, imperceptible pulse, relaxed bowels, cold 
 extremities, and thirst, but no gripiag pains, nor quickened 
 breathing. They were successfully treated by laxatives and 
 stimulants. In men and dogs colchicum is even more active 
 than in horses or cattle. Two drachms of the dried bulb 
 caused in dogs vomiting, bloody evacuations, diuresis, tremors 
 of the limbs, depression of the action of the heart, and death in 
 five hours, A tenth of a grain of colchicine given to a cat 
 occasioned salivation, vomiting, purging, staggering, extreme 
 languor, cohc, and death in twelve hours. Post-mortem exa- 
 mination disclosed iuflanunation of the stomach and bowels, 
 with extravasation of blood (Christison on Poisons). The 
 emetic and cathartic effects of colchicum are violent and irre- 
 gular ; and its diuretic action is uncertain. Its sedative influ- 
 ence, best developed by the administration of small and frequently 
 repeated doses, conjoined with alkalies or saUnes, caused its 
 recommendation by the late Mr. Hallen, 6th Dragoon Guards, 
 and by Mr. Phillips, 7th Hussars, in the treatment of rheu- 
 matism and rheumatic influenza, especially in those subacute 
 cases in which the inflammation flies from joint to joint. Other 
 British and foreign authorities speak favourably of it in consti- 
 tutional ophthalmia. 
 
 Boses, etc. — ^For horses, the dose of the powdered corm or 
 seed is 3ss. to 3j. ; for cattle, 3j. to 3ij. ; for sheep, grs. x. to grs. 
 XXV. ; for dogs and pigs, grs. ' ij. to grs. viij. The powder is 
 given with small doses of nitre, and a convenient solution is 
 made with one part of colchicum, six or eight of vinegar, and 
 a little spirit. 
 
 T 
 
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274 COPPER SALTS 
 
 COPPER AISTD ITS MEDICINAL COMPOUNDS. 
 Copper. Cuprum. Cu. 
 
 Copper is a brilliant red metal, found native near Lake 
 Superior in ISTortli America, crystallised in octoliedrons or cubes. 
 It has a spec. grav. of 8'95, a nauseous styptic taste, and an 
 unpleasant odour, especially when rubbed. It is malleable and 
 ductUe, constitutes 95 per cent of the material of our bronze 
 coinage, which is made up of four of tin and one of zinc. Brass 
 contains about two-thirds of copper and one-third of zinc. Its 
 principal ores are the copper pyrites, a double sulphide of 
 copper and iron, and the carbonate or malachite; its officinal 
 salts are the sulphate, iodide, and acetate. Copper forms two 
 series of salts, the cupric containing one, the cuprous two, 
 atoms of copper. The cupric salts, when hydrated, have a 
 green or blue colour. In acidulated solution copper is dis- 
 tinguished by the following test : — Hydrogen sulphide and 
 ammonium hydrosulphide give black precipitates of copper 
 sulphide (Cu S) ; potash or soda, a greenish-blue precipitate 
 of cupric hydrate (CuO, Hj 0), insoluble in excess, but blackened 
 by heat ; ammonia, a similar precipitate, which redissolves on 
 further addition of the precipitant, forming a deep blue liquid 
 (Cu SO4, 2H3N) ; and potassium ferrocyanide, a chocolate-brown 
 precipitate of copper ferrocyanide (Cuj Fey). Another good test 
 is to place in the solution of the copper salt a piece of polished 
 iron or steel, which quickly becomes coated with a red crust of 
 metallic copper. 
 
 Actions and Uses. — Large doses of salts of copper are irri- 
 tant and caustic; medicinal doses are astringent and tonic. 
 The activity of the several salts differs according to their solu- 
 bility. They resemble compounds of silver and zinc. Copper 
 is a constant constituent of the parenchymatous organs even of 
 the foetus. So long as it remains metallic it is devoid of poisonous 
 action. Drouard gave an ounce of finely divided copper to 
 dogs of different sizes and ages, but none experienced any 
 inconvenience (Pereira). Two drachms of oxide had no effect 
 on dogs beyond occasional vomiting and diarrhoea. But as 
 with other metals, so soon as copper is converted into a soluble 
 
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IRRITANT, ASTRINGENT, AND TONIC. 275 
 
 salt, it produces irritant and astringent effects. Dogs tolerate 
 10 to 15 grains of snlpliate or acetate; but 40 to 60 grains 
 iaduce loathing of food, diarrhoea, and in some instances death 
 {Practitioner, July 1877). The soluble salts are absorbed; are 
 difPased as an albuminate ; like other metallic poisons, accumu- 
 late in the liver, spleen, and kidneys ; and are slowly elimi- 
 nated by the liver and skin, mainly by the intestines and 
 kidneys. Animals despastured in the neighbourhood of copper- 
 smelting works are occasionally affected by loss of appetite, 
 impaired digestion, faUing off in condition, hectic fever, and 
 diseases of the bones — effects depending partly on the ingestion 
 of smaU. quantities of copper, but chiefly upon the arsenic 
 which these smelting furnaces evolve in considerable amount. 
 (See p. 180.) Injurious effects, such as frequently take place 
 in the human subject, have also occurred in the lower animals, 
 especially in pigs and dogs, from the use of food or drink 
 which has acquired a cuprous impregnation from being boiled 
 in copper vessels, and allowed to remain in them while cooling. 
 Acid and fatty matters are most apt to become thus contami- 
 nated, and especially if kept long in contact with copper, which 
 at the same time is freely exposed to air and moisture. 
 
 Copper Sulphate. Cupri Sulphas. Cupric Sulphate. Blue 
 Vitriol. Blue Stone. Vitriol of Copper. Cu SO4, 5H2O. 
 
 Copper sulphate is got by dissolving the black oxide in 
 sulphuric acid, by boiling metaUic copper with diluted sul- 
 phuric acid, and on the large scale by roasting copper pyrites 
 (Cuj S, Fe2 S3), when both the copper and iron are oxidised 
 into sulphates ; at the red heat used, the iron sulphate is 
 decomposed, and the copper sulphate crystallised from a hot 
 watery solution. Blue vitriol made from pyrites always con- 
 tains iron, which does not, however, interfere with its medicinal 
 uses. It occurs in large blue double oblique rhombic prisms, 
 has a spec. grav. of 2 '2, and a strong styptic metallic taste. 
 Exposed to the air it effloresces and becomes covered with a 
 greenish-white powder of carbonate. It is insoluble in alcohol, 
 but soluble in about two parts of boUing and four of temperate 
 water. The ordinary blue vitriol, exposed to a temperature of 
 400°, loses its water of crystallisation, becomes a yeUow-white 
 
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276 COPPER SULPHATE 
 
 powder (Cu SO4), and is used for testing alcohol and other 
 liquids for water, which it seizes, regaining its blue colour. 
 
 Actions and Uses. — Large doses produce fatal gastro-enter- 
 itis. Eepeated full doses induce colic and chronic intestinal 
 irritation ; but, unlike lead salts, do not cause nervous dis- 
 orders. Medicinal doses are astringent, tonic, and antiseptic. 
 For carnivora it is a prompt emetic. Externally it is used as a 
 stimulant, astringent, and caustic ; it is an effectual antiseptic. 
 Hertwig mentions that large doses (above twelve drachms 
 for horses and cattle, one drachm for sheep or swine, and half a 
 drachm for dogs) cause indigestion and impaired appetite ; in 
 carnivora, vomiting and diarrhoea ; the evacuations are tinged 
 green or blue, and mixed with blood ; and there usually fol- 
 lows fatal inflammation of the stomach and intestines. Drouard 
 found that sixty grains retained in the stomach of a dog killed 
 it in half an hour, but left little appearance of inflammation. 
 Mitscherlich foimd that two drachms speedily killed dogs, 
 leaving " blueness of the villous coat of the stomach, mingled 
 with brownness, the apparent effect of chemical action." A 
 drachm applied to a wound caused ia dogs rapid prostration, 
 and death in four hours. Injected into the jugular vein, it 
 speedily reduces and arrests the action of the heart, fifteen 
 grains proving fatal in twelve seconds (Christison on Poisons). 
 In poisoning by copper salts the appropriate remedies are 
 white of egg, milk, and other albuminoids, which form insoluble 
 innocuous albuminates ; iron filings, which attract and fix the 
 copper ; or potassium ferroeyanide, which produces an insoluble 
 harmless salt. Copper salts become absorbed, are detected in 
 the blood and most of the internal organs, exist there probably 
 as albuminates, remain in considerable amount even weeks after 
 the medicine has been ceased ; and are eliminated chiefly by the 
 bowels and kidneys. 
 
 ■ Copper sulphate is much used in cases of atony and exces- 
 sive mucous discharges, and especially amongst cattle, in which 
 milder tonics and astringents are sometimes comparatively use- 
 less. No astringent is so generally effectual in inordinate dis- 
 charges or haemorrhage from the bowels. In glanders and 
 farcy, purpura and typhoid fever in horses, it usually arrests 
 abnormal secretion, improves the appetite, increases general 
 vigour, and where it does not cure, it often retards a fatal 
 
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ASTRINGENT, TONIC, AND ANTISEPTIC. 277 
 
 result. In such cases it is conjoined or alternated with spirit- 
 uous or ammoniacal stimulants, and with iron salts. Where 
 the bowels are much relaxed, as in chronic diarrhoea or dysen- 
 tery, it is prescribed with opium. Given in bolus, repeated for 
 several consecutive mornings, and admiaistered fasting, it is a 
 useful general vermifuge for the horse. Amongst dogs and cats 
 in narcotic poisoning, either the copper or zinc sulphate is 
 resorted to as the most prompt and active of emetics. As a nerve 
 tonic and antispasmodic, small repeated doses are serviceable 
 for dogs affected with epilepsy and chorea. Applied externally, 
 Kke silver nitrate, it stimulates mucous or abraded skin sur- 
 faces, and forms with their albuminoids a protecting pellicle, 
 under which healiag goes on satisfactorily. It is a useful stimu- 
 lant and astringent ia chronic purulent ophthalmia, morbid 
 conditions of the Schneiderian and other mucous membranes, 
 scurfy affections of the skin, and superficial haemorrhage from 
 minute vessels. As a stimulant and escharotic, it is used in 
 fistulous wounds, farcy buds, exuberant granulations, and foot- 
 rot in sheep. It is a capital antiseptic, standing next in effi- 
 cacy to zinc, iron, and mercury chlorides, and especially 
 serviceable where foul organic matters are largely mixed with 
 water. On account of cheapness, zinc chloride is, however, 
 generally preferred. 
 
 Doses, etc. — As a tonic and astringent horses take from 3i. 
 to 3ij. ; cattle, 3i. to 3iv. ; sheep, grs. xx. to grs. xxx. ; pigs, 
 grs. V. to grs. x. ; and dogs, gr. -^ to grs. ij. These doses, 
 repeated twice or thrice a day, are administered either in bolus 
 or dissolved in some mucilaginous solution. As a prompt emetic 
 for the dog, the dose is grs. vi. to grs. x., dissolved in water ; 
 for pigs, about double that amount. For external purposes, the 
 powder or a watery solution is used. Shepherds make a useful 
 ointment for foot-rot by mixing equal weights of powdered 
 blue vitriol, gunpowder, and hogs' lard. A more convenient 
 and adhesive application is prepared by carefully mixing over 
 a slow fire one part of powdered vitriol with three of tar. 
 
 Copper Ammonio-Sulphate. Cuprum Ammoniatum. Cupric 
 Ammonio-Sulphate. 
 
 The ammonio-sulphate is generally prepared by triturating 
 copper svilphate and ammonium sesqui-carbonate until effer- 
 
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278 COPPER SALTS 
 
 vescence ceases, wrapping the mass in bibulous paper, drying 
 it, and preserving it in closely-stoppered bottles. It is a mix- 
 ture of tbe double sulphates and carbonates of copper and 
 ammonium, with an excess of ammonium-carbonate, which ren- 
 ders the double salt soluble. It may be prepared in a hydrated 
 state by adding ammonia to a solution of copper sulphate until 
 the precipitate first thrown down is nearly redissolved, and ia 
 this condition it is used as a test for arsenic. The dried salt 
 has an azure-blue colour, a metallic coppery taste, and a power- 
 ful ammoniacal odour. Unless carefully protected from the 
 air, it speedily loses ammonia. 
 
 ActioTis and Uses. — Its actions and uses resemble those of 
 the sulphate. It is rather less irritant and astringent, and may 
 be used in the same or somewhat larger doses. Two to four 
 drachms are administered to horses and cattle in influenza, 
 pleuro-pneumonia, consumption, and other complaints accom- 
 panied by atony and debility ; and one or two grains to dogs as 
 a stimulating nervine tonic in chorea and epilepsy. 
 
 COPPEE Iodide. Cupri lodidum. Cupric Iodide. 
 
 Although not mentioned in the Brit. Phar., copper iodide is 
 noticed in Morton's V^eterinary Flmrmacy, and in Professor 
 Tuson's Veterinary PJiarmac(ypceia. It is the by-product 
 remaining from the preparation of iodine, by mixing copper 
 sulphate with the familiar iodine ley ; and is also obtained by 
 mixing solutions of copper sulphate and potassium iodide. It 
 is a fawn-coloured salt, has a disagreeable, styptic, coppery 
 taste, evolves an odour of iodine, and consists of a mixture of 
 copper iodide and free iodine. It was introduced. into practice 
 in the belief that it possessed the conjoined actions of its two 
 constituents. But its effects in large doses, in which its charac- 
 teristic 9,ctions should be most obvious, resemble those of other 
 copper salts, and bear no analogy to those of iodine. It has 
 been recommended as a stimulating tonic in glanders, farcy, 
 " and chronic oedematous enlargements of the legs," and as an 
 astringent in ill-conditioned ulcerations and inveterate grease 
 (Morton's Pharmacy). There is, however, no sufficient evidence 
 of its superiority to the sulphate. 
 
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CAUSTIC, ASTRINGENT, AND ANTISEPTIC. 279 
 
 Copper Subacetate. Copper Oxyacetate. Verdigris. Blue 
 Verdigris. iErugo. Cu 2C2H3O2, CuO, 6H2 0. 
 
 Chemists describe five acetates of copper. Of the sub- or 
 di-acetate two varieties are made — one in this country, distin- 
 guished by its green colour ; the other abroad, especially in the 
 south of France, of an azure-blue colour. It is usually prepared 
 by placing plates of copper in layers, alternated either with 
 woollen cloths saturated with acetic acid, or, according to the 
 foreign method, with the moistened husks of the grape and the 
 refuse of the wine process. Exposed for about a month to the 
 conjoined action of air and acid, verdigris is formed as a paste 
 on the copper plates. 
 
 Properties. — It occurs either in amorphous masses or powder, 
 is either blue or green according to, the mode of its preparation, 
 and has the taste and odour of a copper salt. It remains un- 
 changed in air ; when heated it gives off water, acetic acid, and 
 acetone, leaving a residue of oxide and metal. Treated with 
 hydrochloric acid, it should not leave more than five per cent 
 of residue undissolved. 
 
 Actions and Uses. — Like other copper salts, verdigris is an 
 irritant poison. When swallowed it irritates the alimentary 
 canal and the several channels by which it is excreted. It is 
 emetic, astringent, and tonic, but rarely used internally. It is 
 employed externally as a caustic, stimulant, astringent, and 
 antiseptic. Drouard exhibited twelve grains to a 'strong dog 
 while fasting, and observed aversion to food, efforts to vomit, 
 diarrhoea, listlessness, and death in twenty-two hours. In some 
 cases paralysis of the hind extremities was also observable, but 
 in none was the stomach much inflamed. The neutral acetate 
 (Cu 2C2 H3 O2, H2O) appears even more active ; for Orfila 
 found that twelve to fifteen grains given to dogs further pro- 
 duced convulsions, tetanus, sometimes insensibility, and death 
 within an hour (Christison on Foisons). Hertwig observed 
 that one ounce administered to a horse caused colic, with 
 acceleration of the pulse; and that, two ounces, given some 
 hours after, aggravated these symptoms, causing first accelera- 
 tion and then depression of the pulse, debility, and, after six 
 hours, convulsions and death. If prescribed, the doses are the 
 same as the sulphate. The external uses are also the same. 
 
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280 CREASOTB 
 
 It is applied in the form of powder, solution, and ointment, 
 which is made with one part of verdigris and eight or ten of 
 lard or of resinous ointment. The acetate, like the sulphate, 
 forms an effective dressing for foot-rot in sheep when mixed 
 with three or four parts of lard, oil, or tar. 
 
 CEEASOTE. 
 
 Creasotum. Kreasote. A mixture of volatile oils obtained by 
 the distillation of wood tar. — Brit. Phar. 
 
 Creasote is one of the products of the distillation of wood 
 tar ; is present in wood and peat smoke ; and confers on these 
 substances their weU-known antiseptic properties. Tar from 
 hard woods, especially from beech, yields more creasote than 
 that from the coniferse. Coal tar yields the analogous body 
 carbolic acid, now generally preferred on account of its cheap- 
 ness. The tedious and complex process by which creasote is 
 generally obtained from wood tar is followed only on the large 
 scale. A simpler process consists in distilling tar into a barrel 
 half filled with water, removing the lighter oil which floats on 
 the water, adding sulphuric acid to the heavier residue, boiling 
 the mixture, exposing it to the air for three days, with frec[uent 
 stirring, and distiUing it repeatedly. Tar of good quality con- 
 tains 20 to 25 per cent of creasote (Gregory). ' 
 
 Properties. — Creasote is a mobile, oily, neutral fluid, with 
 the spec. grav. l'07l; colourless and transparent when first 
 prepared, but, unless very pure, soon becoming brown. It has 
 a strong, persistent, smoky odour, and a pungent, acrid taste, 
 with a sweet after-taste. It consists chiefly of kreasol (Cg Hjq Oj), 
 with smaller amounts of phenic acid and several allied volatile 
 oils. It requires for solution 130 parts of water, but readily 
 dissolves in alcohol, ether, acetic acid, and volatile oils. It 
 coagulates albumin, whitens and corrodes the skin and other 
 animal tissues, and forms with them insoluble compounds, 
 which resist putrefaction. A slip of deal dipped in creasote, 
 and afterwards in hydrochloric acid, on exposure to air shortly 
 acquires a greenish-blue colour; dropped on white filtering 
 paper, and exposed to a heat of 212°, it leaves no translucent 
 stain {Brit. Phar) Impure carbolic acid and other coal tar 
 
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AN IRRITANT NARCOTIC POISON. 281 
 
 oils, sometimes mixed with or substituted for wood creasote, 
 are distinguished by their greater solubility in water, glycerin, 
 and potash solution ; by their solidifying at low temperatures ; 
 by their not affecting a ray of polarised light, which creasote 
 turns to the right ; by their producing a jelly when shaken 
 with collodion, which does not affect wood creasote ; by their 
 watery solution giving a blue colour, with a neutral iron per- 
 chloride solution which does not discolour the watery solution 
 of wood creasote (Professor Attfield). 
 
 Actions and Uses. — Creasote is an irritant narcotic poison ; 
 it is prescribed as an antiseptic and astringent ; it acts exter- 
 nally as an escharotic* stimulant, astringent, insecticide, and 
 antiseptic. Its actions and uses are those of carbolic acid. 
 Its irritant, inebriant, and antiseptic properties ally it to alcohol 
 and oil of turpentine. 
 
 Three drachms given to horses caused slight and temporary 
 feverishness, and imparted to the breath a creasote odour 
 (Hertwig). Thirty drops given to dogs by Sir J. E. Cormack 
 caused uneasiness, copious salivation, vertigo, muscular twitch- 
 ing, convulsions, enfeebled and fluttering action of the heart, 
 laboured breathing, diminished 'sensibility, dulness, and stupor. 
 The symptoms came on within a few minutes, and continued 
 for two or three hours. For a day or two, however, irritability 
 of the stomaeh, occasional vomiting, and dulness, were still 
 obsprvable. Two dogs got two drachms each, and died within 
 three hours, evincing, besides the symptoms above mentioned, 
 violent convulsions and complete coma. A rabbit was thrown 
 into convulsions and died within a minute, from the effects of 
 thirty drops {Treatise on Creasote, Harmian Prize Dissertation, 
 1836). It is rapidly absorbed; poisonous doses stimulate, 
 derange, and eventually paralyse the spinal cord, and destroy 
 life by arresting respiro-cardiac functions. In fatal cases the 
 heart and lungs are much engorged with blood. The stomach 
 and intestines are slightly inflamed, particularly when the ani- 
 mals have survived for some hours. It passes from the body 
 by most of the excreting channels, but chiefly in tlie urine, to 
 which it communicates its odour, and furnishes indican. In 
 poisoning eases the treatment is the same as for carbolic acid. 
 
 Medicinal Uses. — Small repeated doses arrest undue fer- 
 mentative changes in the stoma^ch, and hence are useful in 
 
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282 CREASOTE 
 
 some forms of indigestion, and in dogs in chronic vomiting. A 
 few drops inhaled with steam prove soothing in bronchitis and 
 chronic lung complaints, especially when accompanied by ex- 
 cessive and foetid discharges. At the Edinburgh Veterinary 
 College some years ago creasote was used in many cases of con- 
 tagious pleuro-pneumonia among cattle, in doses varying from 
 twenty to eighty drops, dissolved in volatile oil or acetic acid ; 
 and with some temporary advantage in relieving the distressed 
 breathing and irritable bowels. Like almost every other article 
 of the materia medica, it has been tried in glanders in horses, 
 but without any very striking results. Cases of farcy and nasal 
 gleet, with enlarged glands and foetid discharge, are sometimes, 
 however, benefited by giving daily a drachm of creasote, with 
 thirty minims of sulphuric acid, made into a ball with linseed 
 meal. In that form of diabetes insipidus common in horses 
 it usually does harm rather than good. With chalk, catechu 
 mixture, or a little laudanum and some aromatic, it is useful 
 in checking diarrhoea and dysentery. Carbolic acid has super- 
 seded creasote for its several uses as an antiseptic, stimulant, 
 and astringent for wounds, as well as for an escharotic in caries, 
 scrofulous tumours, fistulse, canker, thrush, and foot-rot. 
 Diluted with spirit and water or vinegar, it is occasionally used 
 both externally and internally to relieve the itching and remove 
 the scurf of chronic eczema, prurigo, and psoriasis. It destroys 
 vermin infesting the skin. For mange and scab, Gerlach 
 advises an ounce of creasote, dissolved in fifteen ounces of 
 spirit and forty of water, Human patients suffering from 
 toothache depending on caries, are often relieved by a drop 
 cautiously placed in the hollow of the tooth, where it unites 
 with the albiuninoid matters protecting the irritable nervous 
 pulp from the action of air and irritants. As an antiseptic, it 
 stands next in order after cresylic and carbolic acids, and is 
 believed to have been the essential agent used in embalming 
 the Egyptian mummies. Although a reliable antiseptic, it has 
 little power as a deodoriser. 
 
 Doses, etc. — For horses, tt|^xx. to TT|_xl. ; for cattle, f 3ss. to 
 f 3ij. ; sheep, tt\_x. to iii_xx. ; pigs, tti^v. to tt^x. ; dogs, TT)_i. to 
 TT\_iij. It is given in a mass with syrup, or in solution with 
 mucilage, acetic acid, volatile oils, or alcohol. As an escharotic 
 or astringent, it is applied with a camel's hair brush ; is used 
 
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A CAUSTIC, INSECTICIDE, AND ANTISEPTIC. 283 
 
 in solution in spirit or acetic acid, or as an ointment, made 
 witli a drachm of creasote to an ounce of lard. For skin dis- 
 eases, a drachm each of creasote and sulphur may be made into 
 an ointment with lard, or a liniment with oil. A little creasote 
 is sometimes added to the turpentine, hartshorn, or other emhro- 
 cations. 
 
 CEOTON" SEEDS AND OIL. 
 
 Croton Seeds. Crotonis Semina. The seeds of Croton tiglium. 
 
 Croton on. Crotonis Oleum. Oil expressed from the seeds 
 
 of Croton tiglium. — Brit. Phar. 
 
 Nat. Ord. — ^Euphorbiacese. Sex. Syst. — Monoecia Monadelphia. 
 
 The Croton tiglium is a tree fifteen or twenty feet high, 
 growing on the Indian continent, in Ceylon, and in many islands 
 of the Indian Archipelago. Its fruit or nut is somewhat larger 
 than a hazel, of an oval triangular form, and contains three 
 seeds about the size of French beans, resembling the castor oil 
 seeds in size and shape, and, when shelled, weighing on an 
 average three grains each. They are brown, odourless, with a 
 taste at first mild and mucUaginous, but soon becoming hot and 
 acrid. When heated they yield irritating fumes. The thin 
 brittle external shell constitutes fully one-third of the weight 
 of the seed. Mr. Morton found by experiment that the plumee 
 and testse are less active than the cotyledons { Veterinary Record, 
 1846). The oleaginous seed kernel contains from 50 to 60 
 per cent of a fixed oil, which, when separated by expression 
 and purified by straining, constitutes the ofiicinal croton oil. 
 It is mostly extracted in London, is slightly viscid, of a 
 brownish-yellow colour, with a peculiar nauseous odour and a 
 persistent acrid taste. It is imperfectly dissolved in cold alco- 
 hol, but compiletely soluble in boUing alcohol, ether, the fixed 
 and volatUe oils. Besides the ordinary fatty acids, it contains 
 the volatile acids, acetic, butjo-ic, and valerianic, with the special 
 tiglinic (Cg Hg 0^) and crotonic acids (C^ Hg 0^. Its active 
 principle, existing also in the wood and leaves, has not yet been 
 isolated (Fliickiger and Hanbury). The residuum from which 
 the oO. has been expressed is sometimes used under the name 
 of croton cake ; but as the amount of oil retained is very vari- 
 able, its effects are irregular and uncertain. 
 
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284 CROTON SEEDS AND OIL 
 
 Impurities. — Croton seeds should he plmnp and well shaped, 
 not dry, shrivelled, or musty. The seeds of other less active 
 species are sometimes substituted for those of C. tigUum. The 
 oil is occasionally of inferior quality and dark coloured, on ac- 
 count of the seeds from which it has been extracted being old 
 or musty. It is occasionally adulterated with other oils, usually 
 with castor oil, which is distinguished by its perfect solubility 
 in cold alcohol. 
 
 Actions and Uses. — Croton is an irritant poison ; it is used 
 internally as an active cathartic, and externally as a counter- 
 irritant. 
 
 General Actions. — Forty seeds destroy a horse in seven 
 hours, with the symptoms of acute gastro-enteritis ; half that 
 quantity usually produces fatal inflammation (Hertwig). Mr. 
 Morton administered to two different horses sixty grains, or 
 twenty bruised seeds, and observed super-purgation, accelerated 
 pulse and respiration, injected mucous membranes, cold extre- 
 mities, prostration, and death in eighteen and twenty-four hours. 
 I have frequently seen even full medicinal doses cause, alike in 
 horses and dogs, very unexpected and serious irritation. In 
 India the seeds are occasionally given to poison horses. Orfila 
 gave a dog three drachms, which killed him in three hours, but 
 one drachm also caused fatal effects ; and even ten or twelve 
 grains induce violent purgation, gastro-enteritis, and death in 
 from four to seven hours if the oesophagus is tied to prevent 
 rejection of the irritant by vomiting (Hertwig). About the 
 same quantity of the bruised seed or oil, which proves fatal 
 when given to any animal internally, has the like effect when 
 placed in the areolar tissues, or applied to a wound. Hert- 
 wig states that eight drops injected into the jugular vein killed 
 a horse, whilst two drops killed a dbg. Moiroud says that 
 twelve drops injected into the veins of a horse produced in a 
 few miautes alvine evacuations ; and that thirty drops caused 
 speedy death. Fifty drops in alcoholic solution, appUed to the 
 belly of a small horse, caused next day alvine evacuations of 
 normal consistence, but three or four times more abundant than 
 natural, and continuing so for two days. Thirty drops had a 
 similar effect on sheep, fifteen to twenty on dogs (Hertwig). 
 The irritant action of croton is often exerted on those employed 
 in sheUing the seeds, frequently induciag swelling and inflam- 
 
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IRRITANT AND CATHARTIC. 285 
 
 mation of the face and other parts exposed to the croton dust. 
 In poisoning by croton, the alimentary canal is inflamed through- 
 out ; in horses the csecum and colon are especially affected, 
 usually exhibiting much extravasation of blood, and occasion- 
 ally patches of erosion ; sometimes the lungs are congested, and 
 occasionally they are inflamed. (Hertwig, and Professor John 
 Gamgee's Veterinarian's Vade Mecum.) 
 
 The cathartic action of croton is developed in all the higher 
 animals. The only purgatives comparable with it in activity 
 are gamboge and elaterium — a sediment from the juice of 
 the fruit of the sc[uirting cucumber. It operates more speedily 
 than aloes, and produces more frequent, full, and fluid dejec-. 
 tions. Tor horses, croton is, however, too violent and irritating 
 to be very safely or generally used. For cattle it is sometimes 
 valuable, operating with certainty when most other purgatives 
 are ineffectual, and when carefully used rarely attended with 
 evil consequences. For sheep, it is too irritating and depress- 
 ing to be generally available. For dogs and pigs it is a prompt 
 and effectual drastic purge, requiring, however, as in other 
 patients, to be used with much caution. In contact with the 
 alimentary mucous membrane, it induces topical irritation ; 
 when mixed with the biliary and pancreatic juices, these alka- 
 line fluids intensify its effects, and, like other fats and flxed 
 oilsj reduce it to an emulsion which is mostly absorbed through 
 the viQi into the lacteals, and carried by the thoracic duct into 
 the general circulation, from which it is shortly excreted through 
 the intestinal glandular apparatus, rousing it to increased action. 
 Professors Eutherford and Vignal have shown that although 
 causing great dilatation of the vessels of the intestinal mucous 
 membrane, crotOn has no special cholagogue action. 
 
 Medicinal Uses. — Croton is used as an active cathartic for 
 cattle suffering from fardel-bound and other forms of constipa- 
 ■ tion, from torpidity of the bowels dependent on disordered states 
 of the nervous system, and from phrenitis and parturient apo- 
 plexy. It is serviceable where bulky medicines are inadmis- 
 sible, where animals are unmanageable, or have difficulty in 
 swallowing, where it is requisite promptly to produce copious 
 fluid evacuations and extensive counter-irritation. It is contra- 
 indicated in young and delicate subjects, in all debilitating 
 complaints, and wherever any portion of the alimentary canal 
 
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286 CROTON OIL 
 
 is in an irritable or vascular state. The evil effects of overdoses 
 are abated by demulcents and opium given by the mouth and 
 rectum, by hot cloths to the abdomen, and subsequently by 
 stimulants to counteract depression. 
 
 Croton oil is sometimes used externally as a counter-irri- 
 tant. Like tartar emetic, if freely applied it speedily produces 
 an eruption of minute crowded vesicles, soon assuming the 
 character of pustules, and attended by considerable irritation, 
 inflanxmation, and sweUing of surrounding parts. Applied 
 freely, especially if the skin be thin or abraded, the oil becomes 
 absorbed, and produces its usual cathartic action. Although 
 too irritating either for horses or dogs, it is sometimes applied 
 to cattle, which are less apt either to be purged or blemished. 
 It is chiefly used in pneumonia, pleurisy, chronic glandular en- 
 largements, and tedious rheumatic lameness, in which I have 
 seen the affected joints benefited by repeated dressings, at in- 
 tervals of three or four days. 
 
 Doses, etc. — Ten or twelve seeds, which, allowiug three 
 grains for each, weigh from thirty to thirty-six grains, is the 
 dose for the horse, fifteen to twenty seeds for cattle, three or 
 four for sheep, two or three for pigs, and one or two for dogs. 
 Compared with other mediciaes, a croton bean corresponds in 
 activity with about an ounce of Epsom salts, two croton beans, 
 or six grains of ground seeds, with one drachm of Barbadoes 
 aloes. The dose of croton oil for the horse is tt\_xv. to tt\_xxv. ; 
 for cattle, fjss. to f3ij. ; for sheep and swine, n\_v. to iTLx. ; and 
 for the dog, m^ii. to TTLiij. The dose of the so-called croton cake 
 is generally set down as double that of the fresh croton bean ; 
 but, as already stated, on account of the uncertainty of its 
 effects, it is an ineligible preparation. The bruised seeds and 
 the oil are generally administered made into a bolus with lin- 
 seed meal, or dissolved in linseed oil. Although occasionally 
 used alone, they are less irritatiug and more certain and regular 
 when conjoined with other purgatives. In obstinate constipa- 
 tion or torpidity of the bowels among cattle, they are advan- 
 tageously given with one or two scruples of calomel, a pound 
 of salts, or a pint of linseed oil ; and few purgative mixtures 
 are more effectual. Some practitioners drop the oil in an un- 
 diluted state on the tongue ; but this is not advisable, as it is 
 apt to adhere to the tongue and fauces, causing irritation and 
 
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APPLIED AS A COUNTER-IREITANT. 287 
 
 inflammation. For external purposes, the bruised seeds or the 
 oil may be dissolved in six or eight parts of oil of turpentine 
 or of soap Liniment. Croton oil, added in small quantity to 
 any of the ordinary blistering ointments, greatly increases their 
 activity. 
 
 DIGITALIS. 
 
 Foxglove. The dried leaves of Digitalis purpurea, collected from 
 ■wild indigenous plants, when about two-thirds of the flowers 
 are expanded. — Brit. Phar. 
 
 Nat. Ord. — Scrophulariacese. Sex. Syst. — Didynamia Angiospermia. 
 
 Digitalis grows wild in this country and iu many parts of 
 the Continent, on gravelly sandy soils, in young plantations, on 
 hedge sides, and hill pastures. Other species have probably the 
 same properties as the D. purpurea, alone recognised by the Phar- 
 macopoeia. It is herbaceous, biennial or perennial, with numer- 
 ous drooping, purple-spotted, occasionally white flowers, an erect 
 stem one to five feet high, and large alternate ovate-lanceolate, 
 crenate, rugose leaves, downy, especially on their paler lower 
 surfaces, and tapering into winged foot-stalks. The leaves, the 
 officinal part of the plant, are gathered late in June or in July, 
 before the small round gray-brown seeds begin to ripen, and 
 when about two-thirds of the flowers are expanded. The leaves 
 of the second year's growth are generally more active than those 
 of the first. They are best dried in baskets in darkness over 
 stoves, and are then of a duU-green colour, with little smeU, 
 and a nauseous, bitter taste. They should be used when fresh; 
 twelve months' keeping greatly diminishes their activity. Exa- 
 mination of their botanical characters wOl detect admixture of 
 leaves of other plants. Both the roots and seeds are bitter and 
 probably active (Sir Eobert Christison). The several parts of 
 the plant owe their activity to the presence of digitaHn. 
 
 DigitaMn of definite composition is prepared by concentrat- 
 ing a tincture made from the leaves, and adding thrice its weight 
 of water, when a pitch-like deposit is thrown down, which, when- 
 dried and purified, jdelds colourless needle-Hke crystals of the 
 neutral bitter glucoside (Ci^ Hgo O7) (Fluckiger and Hanbury). 
 One hundred parts of dried leaves yield about 1'25 of this 
 
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288 DIGITALIS. 
 
 active principle. The digitalia of the British PharmacopcBia — 
 not now regarded as a perfectly definite compound — occurs in 
 porous mammilated masses or smaJl scales, white, iaodorous, and 
 intensely bitter, readily soluble in alcohol apd chloroform, but 
 almost insoluble in water, dissolves in acids, but does not form 
 with them neutral compounds ; its solution in hydrochloric acid 
 is of a faint yellow colour, but rapidly becomes green. It leaves 
 no residue when burned with free access of air. — Br-U. Phar. 
 
 Actions and Uses. — ^Medicinal doses contract involuntary 
 muscular fibre, contract especially the heart muscle and arteri- 
 oles ; arterial pressure is raised, and temperature is lowered. 
 Digitalis is hence a heart tonic and stimulaiTt ; it is also a diu- 
 retic. Poisonous doses, after stimulatiag, disorder, exhaust and 
 arrest the action of the heart, and besides induce gastric irrita- 
 tion and derangement. These effects depend upon its stimu- 
 lating the sjonpathetic, acting especially upon the cardiac 
 ganglia, and still more powerfully on the vagus ; whilst fre- 
 quently repeated or poisonous doses exhaust cardiac and capil- 
 lary contractions, and Idll by cardiac arrest. 
 
 General Actions. — Two ounces of the dried powdered leaves 
 destroyed an adult horse in twelve hours (Moiroud). One ounce, 
 and in some cases, six drachms of the leaves, given to horses 
 in bolus, caused, ia three to ten hours, loss of appetite, frequent 
 urination, fluid faeces, sometimes tiaged with blood, a pulse at 
 first full and increased, but afterwards small, slow, and irregular, 
 contraction of the pupils, difficulty of breathing, languor, and, 
 after about twelve or sixteen hours, death (Hertwig). One 
 or two drachms given to dogs cause nausea ; and when vomit- 
 ing is prevented, moaning and other evidences of abdominal 
 pain, diarrhoea, with green-coloured dejections, feebleness and 
 indistiQctness of the pulse, irregular and distressed breathing, 
 spasmodic efforts to empty the bladder, muscular debility, and 
 death (Tabouria). Pigs poisoned by decoction of the leaves 
 are reported to be languid, sleepy, attempting to vomit, con- 
 tinually straining and passing small quantities of faeces ; whilst 
 after death the mucous coat of the stomach and small intestiaes 
 is inflamed, the kidneys slightly congested, the bladder empty 
 {Veterinarian, March 1872). The following cases, in which I 
 gave fuU medicinal doses of digitalis to healthy horses, illustrate 
 its stimulating and deranging action on the heart, and its nause- 
 
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EXPERIMENTS ON HORSES. 289 
 
 ating and disturbing effect on the digestive organs, traceable to 
 its stimulating and deranging both the sympathetic ganglia of 
 the heart and the vagus. 
 
 In February 1856 powdered digitalis was given to three horses in 
 good health, and receiving daily 12 lbs. of hay, 5 lbs. of oats, and 5| lbs. 
 of bran. On the 20th they each received a drachm of the powder at 12 
 noon, and another drachm at 6 p.m. ; on the 21st aiid 22d one drachm 
 at 6 A.M., at 12 noon, and 6 p.m. ; and on the 23d a drachm at 6 a.m. 
 — in all, nine doses of a drachm each in three days.. 
 No. 1. Brown Mare, 3 years old : 
 
 Feb. 20. 12 noon, pulse 38, respirations 8. 
 
 21. . 34, . .6. 
 
 22. . . 28, . .7. 
 
 23. . . 28, . .7. 
 
 On the evening of the 22d she became dull, and refused her feed. 
 23d, 10 A.M. — StUl dull, without appetite, pupil contracted, passing wind, 
 with small quantities of fluid fseces. 4.30 p.m. — Pulse 32, more distinct 
 than at noon, pupU considerably contracted, rather less dulness. On the 
 25th, two days after the medicine was withdrawn, the mare was eating, 
 and perfectly well again. 
 
 No. 2. Bay Gelding, three years old : 
 
 Feb. 20. 12 noon, pulse 36, respirations 7. 
 
 21. . . 36, . .8. 
 
 22. . . 30, . .6. 
 
 23. . . 32, . .6. 
 
 23d, 12 noon. — Pulse, both yesterday and to-day, slightly irregular; no 
 appetite, very duU and stupid, with the pupil somewhat contracted. 4.30 
 P.M. — Pulse 34, tolerably firm, but unequal; eating a little, and scarcely 
 so duU. No more digitalis being given, the animal recovered its appetite, 
 and by the 26th was well again. 
 
 No. 3. Brown Mare, 3 years old : 
 
 Feb. 20. 12 noon, pulse 38, respirations 8. 
 
 21. . . 33, . .7. 
 
 22. . . 34, . . 7J. 
 
 23. . . 120, . . 20. 
 
 24. . . 120, . . 25. 
 
 Towards the evening of the 22d the mare became dull, and would not 
 feed. 23d, 10 a.m. — Very much nauseated; nose, mouth, and ears cold ; 
 abdomen tympanitic, with colicky pains, and occasional pawing ; pupil 
 somewhat contracted; pulse firm at axilla and heart, but not very percep- 
 tible at the jaw. Had four drachms of carbonate of ammonia and clysters 
 occasionally, the stimulant being repeated at two o'clock and four. At 
 4.30 P.M. she was down, much pained, attempting to roll; pulse 82, but 
 unequal 24th, 12 noon. ^Pulse imperceptible at jaw, about 120; respi- 
 'rations 25, and very much laboured ; lips retracted, and saliva dripping 
 from the mouth; enormous abdominal tympalnitis and much pain; rapid - 
 sinking; died on 25th at 11 a.m. 
 
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290 DIGITALIS AND DiGlTALIN 
 
 Post-mortem examination made next morning at 9.30. Voluntary 
 muscles unusually pale ; spots of ecchymosis found in the areolar textures, 
 between the muscular fibres, and in places underneath the skin. Lungs 
 and plurse healthy; anterior extremity of lungs contained more blood 
 than posterior ; vense cavse contained the usual amount of dark non-coagu- 
 lated blood ; bronchial tubes inflamed for about six inches along their 
 anterior ends ; windpipe inflamed half-way up the neck, and containing 
 flakes of greenish pus, mixed with mucus ; no froth here, or in bronchi. 
 Heart pale, friable, containing a small clot of blood in its left ventricle, and 
 about five ounces of non-coagulated blood in the right ventricle. A rent of 
 eight inches long was found in the inferior curvature of the stomach, 
 through which food had passed into the omentum ; the mucous membrane 
 of the stomach was quite healthy ; the organ itself very large, but collapsed, 
 in consequence of the rupture ; the intestines were pale and flaccid, and 
 contained enormous quantities of food and gas, but their mucous mem- 
 brane was quite healthy. The kidneys and generative organs, with the 
 brain and spinal cord, were perfectly healthy. 
 
 Eecent observations made both with digitalis and digitalin 
 indicate that they are rapidly absorbed and exert their action 
 by whatever channel they gain access to the body. Nothing is 
 known of their effects on the blood. ' They are excreted chiefly 
 by the kidneys. Properly regulated doses stimulate both the 
 sympathetic and the vagus, the latter more powerfully. They 
 thus increase the contractile force of the heart, and diminish 
 the calibre of the blood-vessels. This power of cdiitracting 
 involuntary muscular fibre allies them to ergot, which, however, 
 exerts its effects chiefly on the abdominal and pelvic viscera. 
 Whilst ergot specially contracts the uterus, digitalis specially 
 contracts the heart, arteries, and stomach. It differs from 
 strychnine in contracting involuntary instead of voluntary 
 muscle. (Dr. John Harley, Eoyle's Mat. Med., 6th Edit.) 
 Dr. J. M. Pothergill, experimenting on birds, fishes, and 
 frogs, found that digitalin firmly contracted the ventricles, 
 depending apparently on stimulation of the cardiac ganglia, 
 resembling in this respect the effects of upas antiar, hellebore, 
 belladonna, and caffein, and directly opposed to aconite and Cal- 
 abar bean, which cause dilatation of the ventricle. (FothergUl 
 and Einger.) This knowledge of the physiological action of. 
 digitalis makes clear its somewhat diverse effects, and demon- 
 strates how poisonous doses powerfully stimulate the heart, 
 throwing it into fatal tetanic spasms ; how smaller, but stiLl 
 excessive, or too frequently repeated, doses, by prolonged over- 
 stimulation, destroy the co-ordinating power, and induce irregu- 
 
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CARDIAC TRANQUILLISERS. 291 
 
 larity and intennittence of the pulse, with increased frequency, 
 reaching in horses to 130° and 140° beats per minute; and 
 again, how carefully-regulated medicinal doses, exerting a 
 moderate stimulant or tonic effect, quiet and control the irri- 
 table, irregular, or weakly heart. 
 
 Medicinal Uses. — ^TranquiUising the heart, and diminishing 
 the calibre of the blood-vessels, digitalis, especially if conjoined 
 with salines, is useful at the outset of inflammatory attacks, in 
 antagonising congestion, increasing arterial pressure, and lower- 
 ing temperature. When the heart is enfeebled, as in horses 
 suffering from influenza or other exhausting diseases, in cattle 
 from pleuro-pneumonia or rheumatic fever, in dogs from dis- 
 temper or over-work, digitalis imparts greater expulsive power 
 to the ventricles, and greater tone to the enfeebled capillaries, 
 and thus renders the irregular and weakened circulation steadier, 
 slower, and stronger. It further usually relieves any difl&culty 
 of breathing or dropsical effusion which has resulted from the 
 imperfect action of the heart. In such cases digitalis is use- 
 fully conjoined with potassium chlorate or nitrate, with alcohol, 
 ether, or ferric chloride. Palpitation in horses, restJting from 
 over-exertion, to which the animals are unused, or from fast 
 work performed shortly after a full meal, occasionally persists for 
 several days ; the violent noisy impulse of the heart, accom- 
 panied by lifting of the flanks, comes in paroxysms ; frequent 
 small doses of digitalis usually effectually control such inordinate, 
 tumultuous functional disturbance. In dilatation of the heart, 
 with insufficiency of the mitral valves, carefully-regulated doses 
 of digitalis abate dyspnoea, the cold extremities, venous pulse, and 
 oedema. In hypertrophy of the left ventricle — common in 
 hard-worked, aged horses — and even when accompanied by a 
 slight amount of valvular disease, the full, strong, intermittent 
 pulse is usually moderated, its unduly forcible impulse quieted, 
 and the breathing relieved by digitalis. When, in such cases 
 of hypertrophy, the pulse is full and strong, a few smaU doses 
 of aconite may first be tried. In pericarditis, after the more 
 acute symptoms have been subdued with salines, digitalis 
 lessens the embarrassed breathing and the friction sound.' In 
 endocarditis, occurring occasionally in cattle, it renders the 
 heart's beat more regular, and gives more fulness to the small 
 thready pulse. With nutrients frequently administered, it 
 
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292 digitalis: 
 
 sustains the action of the heart, and reduces excessive tempera- 
 ture in continued and typhoid fever in horses. Quieting and 
 regulating the action of the heart, and contracting involuntary- 
 muscle, especially of the arterioles, it is recommended in 
 haemorrhages, especially from the lungs and stomach. Professor 
 Dick's celebrated recipe for thick and broken wind consists of 
 thirty grains each of calomel, digitaUs, opium, and camphor, 
 and the ef&cacy of the prescription in great part depends upon 
 the calomel regulating the bowels, whilst the other three 
 ingredients abate the irritability of the heart so notable in 
 such cases. Where the medicine was to be persisted with 
 daily for a week or longer, the Professor usually advised the 
 omission of the calomel. Digitalis relieves many cases of 
 dropsy, by regulating the heart action, and contracting dilated 
 capillaries, as well as by its direct diuretic effect,- which Dr. 
 Lauder Brunton ascribes to a special action on the Malpighian 
 tufts. (Dt-Ij. BTunton on Digitalis, 18 &8.) Diuresis is readily 
 determined when digitalis is given with salines — a combination 
 often useful in anasarca, ascites, and oedema. Applied locally, 
 it produces contraction of the small arteries. (Dr. Fothergill.) 
 The chief indications for the use of digitalis are an irri- 
 table, jerking, irregular, or enfeebled action of the heart, defi- 
 ciency of arterial pressure, venous obstruction, and regurgita- 
 tion. It is more suitable for chronic than acute cases. It is 
 of little use in difficulty of breathing or dropsical symptoms 
 dependent on lung disease. It does harm in cases of aortic 
 disease or in hypertrophy, where the pulse continues strong, 
 firm, and regular. The more forcible cardiac impulse which 
 digitalis imparts would evidently prove injurious in such 
 cases, and probably also in enfeebled circulation dependent on 
 advanced fatty degeneration. As with other tonics, it is best 
 tolerated in the weak and irritable states of the heart in which 
 it is most serviceable. It has no cumulative properties; 
 the idea that it had, resulted from its effects being compara- 
 tively slowly produced, and prolonged for ten or twelve hours, 
 and in the case of full doses for even longer periods. The 
 effects of overdoses are combated by emetics or the stomach- 
 pump, by small doses of ammonia and alcohol, by mustard to 
 the sides, friction, and external warmth, and by the subcutaneous 
 injection of atropine. (Dr. John Harley.) 
 
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DOSES AND MODE OF ADMINISTRATION. 293 
 
 Doses, etc. — Of the powdered digitalis leaves horses take grs. 
 X. to grs. XXX.; cattle, 3ss. to 3j.; sheep, grs. viij. to grs. xv.; pigs, 
 grs. ij. to grs. x. ; dogs, gr. i. to grs. iv. As its effects are pro- 
 •longed during many hours, full doses should be given only once 
 in twenty-four hours; smaller doses may he repeated both 
 night and momiug. Nausea or irritability of the digestive 
 organs, coldness of the extremities, unwonted force or fulness 
 of the pulse beats, indicate that the medicine should be stopped, 
 or given in reduced amount. The dried powdered leaves, which, 
 it is to be remembered, lose much of their activity when heated 
 or kept over twelve months, are prescribed, made into a bolus, 
 or dissolved in hot water or spirit. The British Pharmacopoeia 
 orders the infusion to be made by digesting for an hour thirty 
 graias of dried leaves with ten fluid ounces of distilled water; the 
 tincture, by maceration and subsequent percolation of two and a 
 half ounces of dried leaves with one pint of proof spirit. The 
 well-prepared succus or juice is one of the most reliable pre- 
 parations. Digitalis is given conjoiued with saliues, stomachics, 
 alcohol, and other stimulants, and is often alternated with iron 
 salts. Half a drachm, dissolved in a piat of coloured water, 
 with two drachms of nitre, constitutes the ordiaary cough and 
 fever draught used by many veteriaarians. Stonehenge ad- 
 vises, as a diuretic and febrifuge for a medium-sized dog — 
 digitalis, gr. ss. ; Jiitre, grs. v. ; ginger, grs. iij., made into a 
 bolus with liquorice powder and syrup, or with linseed flour 
 and water. 
 
 Digitalin is about one hundred times more active than the 
 dried herb. For human patients the dose is;^ to -^ of a grain. 
 Its concentrated form renders it very convenient for using 
 hypodermically. Poisonous doses cause gastric derangement, 
 throw the heart into violent and disorderly contractions, and 
 shortly arrest its movements ; animal temperature is reduced. 
 Medicinal doses regulate and quiet irritable, enfeebled heart- 
 action, sometimes reduce by one-fourth, and even by one-half, 
 the number of beats, and contract the involuntary muscular 
 fibres of the blood-vessels. 
 
 Professor Charles Philips states that the leaves of the 
 common yew have much the same action as those of digitalis. 
 {Mat. Med. and Therapeutics, 1874.) 
 
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294 ERGOT OP EYE 
 
 vVV/^OyVVOw/VV^ 
 
 Ergota. Spurred or Homed Eye. Secale comutum. Ergot. 
 The sclerotium (conjpact mycelium or spawn) of Clavi- 
 ceps purpurea (Tulasne), produced withiii the palese of 
 the Common Eye. Secale cereale. — Brit. Phar. 
 
 Nat. Ord. — GraminaceEe, Sex. Syst. — Triandria Digynia. 
 
 Ergot attacks not only rye but the other Graminacese, the 
 Cyperacese, and palms. The earliest symptoms occur ahout the 
 time of hlooming, when the ears of the rye exhibit drops of 
 yellow, sweet, fungous slime, called honeydew, which attracts 
 ants and beetles, and which after a few days dries up. The 
 soft ovaries of the grains attacked are meanwhile covered and 
 filled by the white, spongy, felted-together cells, the mycelium 
 of the Claviceps purpurea. The grain is disintegrated ; at its 
 base the mycelium cells separate, swell, solidify, and form a 
 compact dark violet body, which, as it grows in a curved, horn- 
 like shape, protrudes from the palete, and constitutes the ergot. 
 The further history of this biennial fungus, investigated by 
 Tulasne, shows that it reaches its fully developed scleroticum or 
 ergot stage early in July ; usually remains in a quiescent state 
 during the winter ; on moist mould in March or April pro- 
 duces fruit heads of the perfect fungus, the Claviceps purpurea, 
 which after a few weeks is agaia ready to distribute its 
 spores. Close damp weather and undrained soils favour the 
 development and distribution of these ergot spores, as of 
 other fungi affecting plants. The injury done to the rye 
 crop by ergot varies much ; sometimes only a few grains in 
 each head are diseased, sometimes scarcely one is altogether 
 sound; five to ten on an average are affected. Ergot is 
 brought chiefly from Vigo ia Spain, from Teneriffe, and from 
 Southern and Central Eussia. About thirty cwts. are imported 
 annually. (Pereira.) 
 
 Properties. — Ergot of rye is cylindrical, curved, resembling 
 a horn or a cock's spur ; it varies in length from one-third of 
 an iach to an inch and a half, and in breadth from one to four 
 lines ; is marked by a longitudiaal furrow on its concave side ; 
 
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CONTRACTS INVOLUNTARY MUSCLES. 295 
 
 is obtuse at its ends ; lias at its apex a pale gray fragile excres- 
 cence, the slirivelled remains of the style, and is covered by the 
 gray, powdery conidia or spores. It is dark violet-coloured 
 fexternally, and grayish-yellow within. Its odour is dull and 
 musty ; its taste, at first sweet, becomes bitter and slightly . 
 acrid. When dry it is inflammable, hard, and brittle ; when 
 moist, or long exposed to the air, it is soft, darker in colour, 
 and covered with acari. Its structure is made up of felted 
 thread-like cells, amidst which lie drops of oU. Infused in 
 boiling water, it forms a claret-coloured solution, retaining the 
 odour, taste, and actions of ergot. It contains 30 per cent of 
 a non-drying saponifiable fixed oil, 3 of albumin, 7 of a feebly 
 ixritant resin, small quantities of cholesterin sugar and red 
 colouring matter, with about -g^^^th part each of two bitter 
 alkaloids, ergotine and ecboline, the latter the more active, and 
 combined with the volatile ergotic acid. 
 
 Impurities. — Ergot is apt to be of inferior quality from 
 long keeping, especially when in powder, and from the attacks 
 of acari. The stock should be renewed every two years or 
 oftener, and should be preserved, excluded from the air, in 
 closely-stoppered bottles. Sulphur and camphor, sometimes 
 mixed with it, are of little avail in preventing deterioration. 
 
 Actions and Uses. — Ergot stimulates and contracts involun- 
 tary muscular fibre, acts through the sympathetic nervous sys- 
 tem, constricts blood-vessels; hence antagonises haemorrhage, 
 and, where continuously used, so closes the vessels, especially of 
 the extremities, that the tissues are starved, paralysed, and gan- 
 grened. It also exerts its contractile power notably on the 
 muscles of the digestive and urino-genital organs. It is used 
 as a general and local styptic, and as an ecbolic to promote 
 expulsive action of the uterus. As a vascular constrictor it 
 resembles digitalis, belladonna, cold, and electricity. As an 
 ecbolic it is allied to savin and rue. 
 
 General Uses. — Six to twelve drachms given to small dogs 
 produce vomiting, tenesmus, and shortly dulness, prostration of 
 muscular power, enfeebled pulse, convulsive twitchings and 
 spasms, inebriation, and coma. (Tabourin.) Three ounces proved 
 fatal to a terrier bitch in twenty hours. Horses, cattle, and 
 sheep are, however, less susceptible to its action. Thirty cows 
 took daily with impunity 37 lbs. for three months; two milk 
 
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296 ERGOT OF RYE 
 
 COWS had bet-ween them 9 lbs. daily, with no further evil effect 
 than that the butter they yielded was bad-tasted. Twenty sheep 
 ate daily amongst them for four weeks 9 lbs. without injury. 
 (Phoebus and Pereira.) 
 
 The smaller domestic animals, and patients placed in 
 unfavourable sanitary conditions, are, however, more susceptible 
 of the gradual narrowing of the blood-paths, and consequent 
 starving of the textures. Dr. Samuel Wright (^dinhurgk 
 Medical and Surgical Journal, vols. lii. Hii. and liv.) found that, 
 when given for several weeks to dogs and rabbits it caused 
 nausea, impaired appetite, a weak irregular pulse, soon becom- 
 ing intermittent, diarrhoea, excessive foetor of the secretions 
 and excretions, paralysis, particularly of the hind extremities, 
 enlargement of the liver, contraction of the spleen, formation of 
 tubercles both in the lungs and mesentery, impairment of the 
 special senses, wasting, and general debility. Gangrene of the 
 extremities is not, however, produced so readily as in man. A 
 dog getting two to three ounces daily survived for seven weeks, 
 when it had consumed in all fifty-six ounces of ergot. Dogs, 
 cats, and rabbits showed great aversion to it, even when it 
 was mixed with sound grain, or considerably diluted with 
 water ; and, although pressed by hunger, would scarcely eat it 
 of their own accord. Ergot of maize, according to Eoulin 
 (Professor Gamgee's Veterinarian's Vade Mecum), is very 
 common in Columbia, and the use of it is attended with 
 shedding of the hair, and even of the teeth, both of man and 
 beast. Mules fed on it lose their hoofs, and fowls lay eggs 
 without shells. 
 
 Ergot, like digitalis and digitalin, contracts the involuntary 
 muscles, directly constricts the blood-vessels, and thus combats 
 both active and passive haemorrhage. Its constricting power is 
 especially observable on the digestive and urino-genital organs ; 
 it has little direct action on the heart, in this last respect differ- 
 ing from digitalis. By full doses of ergot the stomach of dogs 
 is evacuated ; increased intestinal peristaltic movements, with 
 colic and diarrhoea, occur ; the bladder is hurriedly and fre- 
 quently emptied ; the uterus is similarly contracted, occasionally 
 so continuously and violently that its fibres have been torn. 
 These muscular contractions sometimes prematurely expel the 
 contents of the gravid uterus ; at the full period of gestation 
 
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LITTLE USED AS A VETERINARY PAETUEIENT. 297 
 
 they intensify and hasten the natural labour pains. Various 
 competent experimenters using ergot have produced abortion in 
 guinea-pigs, sows, rabbits, cats, bitches, and cows. (Stills, TMra- 
 peutics, 2d edit.) Youatt declares that both in monogastric 
 animals and in ruminants he has never known ergot fail in its 
 action on the uterus of the parturient female. Ergoted grasses 
 not unfrequently lead to abortion in cows, ewes, and deer. " 
 Obstetricians are tolerably unanimous in declaring that, with 
 few exceptions, expulsive action- soon follows its use in the 
 human female. 
 
 Owing, however, to insufficient doses, poor quality of the 
 drug, or special tolerance, such as is usually enjoyed by rabbits, 
 ergot is sometimes given to pregnant animals in full and 
 repeated doses without expelling the contents of the uterus. 
 Cows, bitches, cats, swine, and rabbits in all stages of pregnancy, 
 have got large and repeated doses without causing abortion. Dr. 
 Wright {op. cii.) administered half an ounce of ergot to a 
 terrier bitch five weeks gone with young (Experiment 37), 
 and the same quantity to another bitch within a few days of 
 pupping (Experiment 35) j both animals carried their pups 
 the usual time. He gave a bull-terrier bitch haK an ounce 
 daily during the last three weeks of pregnancy, but she also 
 went her full time (Experiment 38). Its effects on ruminants, 
 both during gestation and at other times, are always less 
 marked than on dogs or cats.' In the rabbit very large doses 
 have been given without influencing the uterus. Two and 
 three drachms respectively were administered daily to two 
 female rabbits, from the day after impregnation until par- 
 turition, which occurred at the usual time. During the 
 whole period, the rabbits were to all appearance in a healthy 
 state, and the young were born of good size and well 
 nourished. 
 
 Medicinal Uses. — ^As a parturient ergot is not often needed 
 in the lower animals. The offspring, coming naturally at the 
 full period, can generally be got hold of by the hand or forceps, 
 and brotight away with gentle traction. When used it is in 
 cases where the throes are languid and occurring at long intervals, 
 where the animal has been in labour for some considerable time, 
 where no obstruction is present, and where the os uteri is con- 
 siderably dilated. It is unsuitable where there is malfor- 
 
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298 - ERGOT OF RYE. 
 
 mation either of the mother or the foetus, where the position 
 of the foetus prevents its ready expulsion, and sometimes also 
 in first pregnancies, where the uterus, roused to violent con- 
 tractions, may hecome injured or torn. It is sometimes pre- 
 scribed to get rid of uterine cysts, and hasten the expulsion of 
 the placenta, which in the lower animals may usually, however, 
 be safely and readily removed by the hand. In carefully 
 regulated small doses it is prescribed internally, as well as 
 applied locally, to give tone to the weakly relaxed uterus, and 
 to ward off threatened abortion. {British Medical Journal, Sept. 
 1872.) In conjunction with ice-bags, or other cold and styptic 
 applications, it is administered to constringe bleeding vessels in 
 uterine and other haemorrhage. 
 
 Boses, etc. — ^As a parturient or styptic, for the mare or 
 cow, |ss. to gi. ; for sheep, swine, and bitches, about 3i- These 
 doses repeated at intervals of half an hour or an hour, are 
 given in the state of watery infusion, tincture, or liquid 
 extract. The simple decoction swallowed, dregs and all, is 
 the most economical and convenient preparation for veterinary 
 practice. The oil, although rejected by the British Pharma- 
 copoeia, is stUl occasionally used in human practice, in lingering 
 parturition, and also externally as a styptic and an anodyne in 
 rheumatism and toothache. The remarkable power of ergotine 
 in contracting the unstriped muscular fibres of the small arteries 
 and capillaries induced Dr. George W. Balfour, of Edinburgh, to 
 use it hypodermicaUy in five-grain doses, dissolved in ten 
 minims of distilled water, for arresting haemorrhage from the 
 lungs, stomach, and uterus. The hypodermic injection of ten 
 or twelve grains appears to answer in purpura in horses, and 
 is worthy of trial in those deadly cases of muco-enteritis in 
 heavy draught horses, in which blood is rapidly and abundantly 
 outpoured from the membrane of the large intestines. In such 
 cases ergotine may be conjoined with digitalis, which has a 
 similar power of diminishing the calibre of the capillary 
 vessels. 
 
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ether: preparation and purification. 299 
 
 ETHER 
 
 ^ther. Sulphuric Ether. ^ther Sulphuricus. A volatile 
 liquid, prepared from alcohol, and containing not less than 
 92 per cent by volume of pure ether. (Cg H5 0, or 
 (C4 H5) fi)—Brit. Fhar. 
 
 Ether is prepared by heating alcohol with about one-fourth of 
 its bulk of sulphuric acid, purifying the crude product by agita- 
 tion with calcium chloride and quicklime, and redistilling. The 
 British Pharmacopoeia^ gives the following detailed instruc- 
 tions : — " Mix 10 fluid ounces of sulphuric acid with 12 fluid 
 ounces of rectified spirit in a glass matrass of at least two pints 
 capacity, and whilst the mixture is still hot, adapt the matrass to 
 a Liebig's condenser, and distil with a heat sufficient to main- 
 tain the liquid in brisk ebuUition. As soon as the ethereal fluid 
 begins to pass over, supply fresh spirit in a continuous stream 
 lay means of a tube passing through a cork in the matrass, and 
 ■communicating with a reservoir of spirit, on a higher level, 
 and furnished with a stop-cock to regulate the flow, so that the 
 quantity of alcohol admitted may equal that of the ethereal 
 fluid distilled. When 38 fluid ounces of the spirit have been 
 thus added, and 42 fluid ounces have distilled over, the pro- 
 cess may be stopped. Agitate the impure ether in a bottle 
 with 10 ounces of chloride of calcium dissolved in water, and 
 mixed with half an ounce of slaked lime. Leave the mixture 
 at rest for ten minutes, then pour off the supernatant fluid, and 
 distil it with a gentle heat until a glass bead of spec. grav. "735 
 placed in the reservoir begins to float. The ether and spirit 
 retained by the chloride of calcium, and by, the residue of each 
 rectification, may be recovered by distillation, and used in a 
 subsequent operation." 
 
 When alcohol and sulphuric acid are heated together at a 
 temperature of about 140°, the radicle ethyl (Cg Hj) unites 
 with the sulphuric acid, forming hydrogen ethyl sulphate, or 
 ' sulpho-vinic acid and water, thus (Eoscoe) : — 
 
 Alcohol and Sulphuric Acid yield Water and Hydrogen Eythl Sulphate. 
 
 °'h } ° +h} «°. = h} + "'hI^o. 
 
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300 ETHERS : SULPHURIC AND ACETIC, 
 
 Further supplies of alcohol acting upon the hoiling hydrogen 
 ethyl sulphate separate it into ether, which distils over, and 
 sulphuric acid which remains behind, ready again to repeat 
 the process of breaking up the alcohol : — 
 
 Alcohol and Hydrogen Ethyl Sulphate yield Ether and Sulphuric Acid. 
 
 jj I + jj ISO, - ^^ jjj O + 2|bU4 
 
 From the crude ether which first distils over, alcohol, water, 
 sulphurous acid, and ethereal oils are removed, as directed by 
 the Pharmacopoeia process, by agitation with calcium chloride 
 and slaked lime, and redistillation. The commercial ether thus 
 obtained has the spec. grav. -735, boils below 105°, but con- 
 tains about eight per cent of alcohol, which may be removed by 
 shaking with half its bulk of water, standing for twenty-four 
 hours on pure dry calcium chloride and caustic lime, and then 
 redistilling with gentle heat. Anhydrous or absolute ether, 
 with a spec. grav. not exceeding "720, is thus obtained. 
 
 Fraperties. — Absolute ether is a mobile, colourless, neutral 
 fluid, having a peculiar ethereal odour, and a warm pungent 
 taste. It is exceedingly volatile, vaporises without residue, and 
 from its rapid evaporation speedily reduces the temperature of 
 any part to which it is applied. It boils at 94"8, and remains 
 liquid at —146°. Its vapour is half the weight of that of chloro- 
 form, but two and a half times heavier than air, is exceedingly 
 inflammable, forms explosive mixtures with air, and hence much 
 care should be used in approaching it with a light. It is mis- 
 cible with alcohol in all proportions, and soluble in about eight 
 parts of water. It readily dissolves volatile oils, balsams, 
 resins, and next after chloroform is the best solvent for mor- 
 phine and other alkaloids. 
 
 Ethereal oil, oil of wine, or oleum setherum, is a yellow, 
 oily, neutral liquid, with a bitter taste and aromatic odour, sol- 
 uble in ether and alcohol, produced towards the close of the' 
 distillation of ether, containing ether mixed with various hydro- 
 carbons, and possessed of anodyne and hypnotic properties. 
 
 Acetic ether (aether aceticus, G^ H5, Cg H3 O2), scarcely ever 
 used by veterinarians, is prepared by distilling sodium acetate, 
 rectified spirit, and sulphuric acid, is a colourless, volatile liquid, 
 with a pleasant cider-like flavour, and soluble in alcohol and 
 
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STIMULANTS, IjSTEBKIAKTS, AND NAEOOTICS. 301 
 
 water. It lias no ansestlietic action ; as a stimulant is less 
 prompt and powerful than ether ; but is more decidedly dia- 
 phoretic. 
 
 Impwrities. — -When badly prepared or long kept, ether 
 becomes acid. The presence of alcohol or water increases the 
 spec, grav., and causes a dimimition, exceeding five or six per 
 cent, when the impure article is agitated with dry calcium 
 chloride and quicMime. Gently distilled with water, any 
 ethereal oil remains floating on the surface, and such a speci- 
 men when evaporated from the back of the hand evolves a 
 peculiar odour, which the practised sense readily distinguishes. 
 Absolute pure ether, poured upon white blottiag-paper, laid on 
 the warm hand, should evaporate rapidly, leaving neither mois- 
 ture nor unpleasant odoux. 
 
 Actions and Uses. — Poisonous doses are inebriant and nar- 
 cotic ; its vapour inhaled causes rapid anaesthesia ; it kill s by 
 paralysing the respiratory centres. Besides being iahaled as 
 an ansesthetic, it is administered as a stimulant, antispasmodic, 
 diaphoretic, and diuretic. It is applied externally as a reTri- 
 gerant, anodyne, local anaesthetic, and antiseptic, and is used as 
 a solvent; and for other pharmaceutic purposes. 
 
 General Actions. — Like chloroform, alcohol, and oil of tur- 
 pentine, which it closely rfesembles, it is rapidly absorbed, acts 
 upon the brain, spinal axis, and sympathetic system, stimulat- 
 ing or narcotising according to the dose and mode of admini- 
 stration. It rapidly impregnates the several tissues with its 
 odour and taste, and is excreted by the lungs, skin, and kid- 
 neys, exciting them to increased action. In veterinary practice 
 it is chiefly valued for its stimulant action, which, though 
 transient, is prompt and powerful. Large doses cause brief 
 preliminary excitement, quickened pulse and breathing, fol- 
 lowed by narcosis and paralysis. Orflla gave . a dog four 
 drachms, securing the oesophagus to prevent vomiting, and in 
 ten minutes observed inability to stand, and after fifteen 
 minutes complete insensibility, which continued with occasional 
 and partial awakenings for about three hours, when death 
 occurred; The coats of the stomach were red and inflamed, 
 the posterior part of the intestines were not affected, the lungs 
 were gorged with black blood, the heart contained dark venous 
 blood, only partially coagulated. (Christison on Foisons.) 
 
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302 ETHEK 
 
 Ether inhaled in a gaseous state causes in all animals brief 
 excitement, accelerated pulse and breathing, and, within two or 
 three minutes, rapidly deepening unconsciousness, occasionally 
 disturbed by clonic convulsions and muscular rigidity, which 
 disappear as inhalation proceeds. Ansesthesia spreads from the 
 periphery to the centre ; the posterior extremities are affected 
 before the anterior ; sensation is paralysed earlier than motion ; 
 when a fatal effect is produced by full doses rapidly inhaled, 
 the heart beats often for several minutes after respiration has 
 ceased. Ansesthesia is produced, although more slowly and 
 less effectually, when ether is rapidly swallowed or otherwise 
 introduced into the body. Four drachms injected into the 
 peritoneal cavity of a large cat produced fatal collapse in a 
 minute and a half. Further details as to ansesthesia are given 
 ia the J)reliminary section, p. 79. Etherisation has been main- 
 tained for upwards of an houx in horses, dogs, and other ani- 
 mals. A two-year-old thoroughbred fiUy, experimented on by 
 Mr. Barron of ISTewmarket, was fully etherised in four minutes, 
 and continued so for about twenty-niae minutes, during which 
 time the operation of neurotoniy was performed on both fore- 
 Hmbs without the animal evincing any pain. A donkey was 
 fully affected in four minutes, another in five ' minutes, and a 
 third in three minutes and a half, the last remaining insensible 
 to pain for about half an hour. {Veterinarian for 1847.) 
 
 In veterinary practice ansesthesia, however, is not always 
 so rapidly and successfully effected; some well-bred horses 
 require to be cast before they can be got to inhale the anaes- 
 thetic; the preliminary stage of excitement is occasionally 
 prolonged for some minutes ; whilst, for many hours, and even 
 for a couple of days, some patients continue dull and off their 
 feed. Dropped upon the skin, especially when in the finely- 
 divided form of spray, it rapidly evaporates, abstracts heat, and 
 causes local blanching and ansesthesia. An ounce of ether 
 thus applied in about three minutes ansesthises a horse's limb 
 sufficiently for the painless performance of neurotomy. Ap- 
 plied with infriction, it causes redness and even vesication. 
 
 Ether closely resembles chloroform. Its vapour being half 
 the weight of that of chloroform, it is more rapidly diffusible, 
 but more transient in its effects. As an ansesthetic it requires 
 to be inhaled in somewhat larger quantity, and usually for a 
 
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A POWERFUL DIFFUSIBLE STIMULANT. 303 
 
 longer time. It develops rather more preliminary excitement, 
 has a less agreeable flavour, but is stated by American and 
 some English authorities to be safer than chloroform, as it does 
 not weaken or paralyse the action of the heart. Ether is more 
 diffusible and actively stimulant than sweet spirit of nitre, 
 acetic ether, or oil of turpentine, none of which are ansesthetic. 
 From alcohol it is distinguished by its ansesthetic properties, and 
 by the rapidity with which it is excreted, and which accounts 
 ' for its less notable restorative or nutrient action. It is hence 
 more suitable for combating sudden emergencies rather than 
 exerting, like alcohol, continuous restorative effects. Compared 
 with ammonia, it stimulates more notably the brain and cerebro- 
 spinal axis, has narcotic and ansesthetic properties, but is not 
 antacid. 
 
 Medicinal Doses.— -As a prompt and powerful diffusible 
 stimulant, ether often combats violent and dangerous depression. 
 It removes pain of the nervous and irritative type, especially 
 when unaccompanied by vascular excitement. It overcomes 
 those shiverings which so frequently usher in and accompany 
 attacks of disease. Eousing and steadyitig the action of the 
 heart, and stimulatuig capillary circulation, it often counteracts 
 congestion. In hard-worked horses, especially in towns, when 
 struck down by any of the forms of catarrhal fever, ether proves 
 serviceable ; it gives tone to the enfeebled heart, it equahses 
 the irregular circulation, promotes the imperfect action of the 
 skin and kidneys, and even helps to relieve cough. In such 
 cases it is usefully conjoined with alcohol, sometimes with 
 ammonia, gentian, or potassium salts. Overcoming nervous 
 derangement or torpidity, it relieves cramp, colic, tympanitis, 
 and stomach-staggers. In colic, asthma, and other spasmodic 
 affections, it is often combined with opium or belladonna. In 
 the later stages of inflammatory diseases, in many chronic or 
 subacute cases, where there is much prostration or irritability 
 depending on weakness, in contiaued and typhoid fevers, ether 
 is of service. Amongst cattle and sheep it may be given 
 even more freely than to horses or dogs. It may be safely 
 persisted with wherever it reduces the number and increases 
 the ' strength of' the pulsations, lowers excessive temperature, 
 and favours secretion. Ether is sometimes effectual in the ex- 
 pulsion of intestinal worms, and especially of ascarides, which 
 
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304 ETHEU AND SPIRITUS JETHEEIS. 
 
 may usually be dislodged from the rectum by giving it freely 
 diluted as a clyster. In this form it is also often useful in reHev- 
 iag spasmodic affections of the intestines. The administration of 
 ether inust be avoided where there is much vascular excitement, 
 iaflammatory fever, or sthenic inflammation. 
 
 As an ansesthetic it is used iu the same cases as chloroform 
 (p. 257). It is poured on a sponge placed, in the bottom of a 
 nose-bag perforated with holes for the admission of a sufficiency 
 of air, and attached to the patient's head. For local ansBsthesia, 
 ether is applied by a spray-producer ; an ounce suffices to 
 develop the requisite effect in horses or cattle ; pure ether is 
 necessary, as any watery contamination gets frozen, and blocks 
 the tube of the instrument. In this way it is occasionally 
 used for opening abscesses and fistulse, removing tumours, for 
 neurotomy, tenotomy, firing, and occasionally for castration, but 
 it must be applied with much caution ; for when the part has 
 been rapidly or deeply frozen, violent painful reaction some- 
 times ensues, and the healing of surgical and other wounds is 
 apt to be tardy and unsatisfactory. It proves an effectual but 
 expensive refrigerant for sprains and bruises, and is occasion- 
 ally employed for the reduction of hernise. It is a solvent 
 for oils, resins, balsams, crystalline organic bodies, and gun-cotton. 
 Like other substances of the alcohol series, it is an anti- 
 septic, and for several weeks preserves meat fresh and almost 
 unchanged. 
 
 Doses, etc. — The cheaper commercial ether, containing eight 
 per cent of alcohol and water, answers well enough as a stimu- 
 lant for veterinary patients, and for many pharmaceutic purposes. 
 As a stimulant, horses take f gi. to fgij. ; cattle, fgij. to fgiij. ; 
 sheep and pigs, f3ij. to f3iv. ; dogs, f3ss. to f3i. As an anaes- 
 thetic, the pure absolute ether must be used : the larger animals 
 take fgiij. to fgvi, ; the lesser, f3iv. to fgi. As a stimulant, 
 ether is usually given with water or diluted spirit, is sometimes 
 sweetened with sugar or treacle, or flavoured with aromatics, 
 whilst, to lessen volatilising, the menstrua must be cold. On 
 account of its transient effects, which pass away in about an 
 hour, it requires to be repeated at frequent short intervals, or 
 given in conjunction with alcohol and ammonia ; opium and 
 belladonna increase its antispasmodic and anodyne effects. 
 
 Spirit of ether, the spiritus eetheris of the Pharmacopoeia, ig 
 
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OOLLODIOlSr : A STIMULATING PROTECTIVE. 305 
 
 made by mixing one volume of ether with two of rectified spirit. 
 Eight ounces of this spirit of ether, mixed with a drachm of 
 ethereal oil, constitutes Hoffmann's Anodyne, frequently pre- 
 scribed in human medicine. 
 
 CoUodion is prepared by mixing one ounce of gun-cotton 
 with thirty-six fluid ounces of ether, and twelve fluid ounces of 
 rectified spirit. The solution, preserved m well-corked bottles, 
 is clear, colourless, inflammable, and evolves a strong ethereal 
 odour. As a substitute for sticking-plaster, it is applied with 
 a fine brush,' the ether evaporates, leaving a delicate film of 
 cotton, which, by repeated applications of the solution, at in- 
 tervals of a- few minutes, produces a protective covering, and 
 holds together the edges of slight wounds. The flexible collo- 
 dion adheres stiU more firmly, gives support without splitting 
 or cracking, and is made by mixing together six fluid ounces of 
 collodion, 120 grains Canada balsam, and one drachm of castor 
 on, and is kept in a weU-corked bottle. A styptic, antiseptic 
 protective is made by thoroughly mixing with 100. parts of col- 
 lodion flve parts each of carbolic tannic and benzoic acids. 
 Three or four drops of carbolic acid, two parts of glycerin, and 
 100 of collodion, form a useful application for fissured sore 
 teats in cows or ewes. CoUodion is occasionally used for coat- 
 ing boluses, but it is now greatly more important- in photography 
 than in pharmacy or surgery. 
 
 EUPHOEBIUM. 
 
 An acrid resin obtained from Euphorbia resinifera (Berg). 
 
 l^at. Ord. — Euphorbiacese. Sex. Syst. — Dodecandria Trigynia. 
 
 The natural family Euphorbiaceae includes the shrubs yield- 
 ing croton, castor oU, and cascarilla bark. The cactus-like 
 plants producing the medicinal euphorbium grow in the king- 
 dom of Morocco, and in the region skirting the Atlas range. 
 From incisions made into their angular, jointed, prickly stems 
 and branches, an acrid, milky, resinous juice exudes, and con- 
 cretes into irregular, dull-yeUow tears, which are gathered in 
 September, are about the size of a large pea, often hoUow, and 
 perforated with little holes. Euphorbium has an acrid and per- 
 sistent taste,- is without odour, but its minu^st particle in con- 
 
 X . 
 
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306 ' EUPHOEBIUM. 
 
 tact with the nostrils provokes immediate and violent sneezing. 
 Indeed, so irritating is the dust, that those who collect or work 
 amongst the acrid resin are obliged to cover their mouths and 
 nostrils with cloths. The powder is gray, and insoluble in 
 water; but its active resinous principle dissolves in alcohol, 
 ether, and oU. of turpentine. When heated, it melts, swells up, 
 and burns with a pale flame and an agreeable odour. It con- 
 tains about 3 8 per cent of an amorphous, burning, acrid-tasting 
 resin (Cg,, H32 O4) ; 22 of the colourless tasteless euphorbon 
 allied to lactucerin, a constituent of lettuce; 18 of mucilage, 
 1 2 of calcium and sodium malates ; and 1 of inorganic com- 
 pounds (Fliickiger and Hanbury, PharToacograpMa). 
 
 Actions and Uses. — Euphorbium is a violent irritant. In- 
 troduced into the stomach or areolar tissues, rubbed into the 
 skin, or inhaled iato the nostrils, it causes violent and sometimes 
 fatal inflammation. Two ounces given internally destroyed a 
 horse, with all the symptoms of gastro-enteritis ; four drachms 
 retained in the stomach of a large dog had the same effect 
 in twenty-six hours. Inflammation of the intestines, and occa- 
 sional patches of little ulcers, are the usual post-mortem appear- 
 ances. So intensely irritating, indeed, is euphorbium, that the 
 workmen employed in grinding it are obliged to wear masks or 
 handkerchiefs over their faces, and, in spite of all precautions, 
 often suffer severely from headache, inflammation of the eyes, 
 and sometimes even delirium. 
 
 Applied externally, it produces an abundant crop of pus- 
 tules. It is used to increase the potency of blisters, but is apt, 
 especially in horses and dogs, to injure the deep-seated parts of 
 the skin, prevent the future growth of hair, and induce slough- 
 ing and blemishing. On these accounts, if used at aU, it should 
 not amount to more than one-fourth part of the active ingredients 
 of any counter-irritant applied either to horses or dogs. For 
 cattle, however, it may with impunity be employed in rather 
 larger quantity. Unlike eantharides, it has no tendency to act 
 on the kidneys. 
 
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MALE SHIELD FEEN. 307 
 
 FEEN EO.OT. 
 
 Dried EMzome, with the bases of the footstalks and portions of 
 the root iihres of Male Shield Fern (Aspidium Filix mas). 
 Brit. Pilar. 
 
 Nat. Ord. — Filices. Sex. Syd. — Oryptogamia Filices. 
 
 ' The male fern grows wild throughout most parts of Europe, 
 on the sides of roads and in open woods, especiaRy where the 
 soil is light. Its annual bipinnate fronds reach to the height 
 of three feet ; a section of their bases, examined by a pocket 
 lens, discovers eight vascular bundles, whilst allied ferns contain 
 only two (Fliickiger). Its root stock is perennial, about a foot 
 long and two inches thick, is scaly, tufted, greenish-brown, and 
 firmly fixed^ in the ground by numerous black root fibres. The 
 dried root has a disagreeable odour, and a sweet, astringent, 
 nauseous taste. Besides the usual constituents of plants, it 
 contains about 4 per cent of resin, nearly 7 of a green fixed 
 oil, a smaU amount of a volatile oil, and prussic acid, with 
 about 8 of the colourless crystalline filieic acid, probably its 
 most active constituent. The root should be collected late in 
 autumn, preserved in stoppered bottles, and the supply renewed 
 annually; for, when long kept, its virtues are lost. This 
 deterioration from keeping, and the substitution of the roots of 
 inactive ferns, in great part explain the depreciatory accounts 
 sometimes given of its ef&cacy. 
 
 Actions, Uses, and Doses. — Dr. John Harley considers that 
 male shield fern resembles ergot in stimulating the involuntary 
 muscular fibre of any hollow viscus in which it is placed. 
 It is without topical irritant effect ; but an hour or two after 
 a full dose of liquid extract has been given, active gastric con- 
 tractions ensue, with vomiting, or increased movements of the 
 bowels ; similar contractions occur when it is injected into the 
 urinary bladder. The violent peristaltic movements, induced 
 when it is swallowed, detach and cast out adhering worms 
 (Eoyle's Mat. Med., 6th edition). It is given especially for 
 the removal of taenia. It is said to dislodge tapeworm in 
 dogs, sometimes within two or three hours. The discharges 
 should be examined to find the head, which, if expelled, or 
 
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308 GALLS 
 
 left -with only a small piece of neck adhering, does not develop 
 another worm. A pound of the powdered root is used for 
 horses and cattle ; §uj. to gv. for sheep ; §ii. for dogs and cats 
 (Gamgee's Vet. Vade Mecum). But the powder is incon- 
 veniently bulky, and less certain than the fluid extract or oil, 
 which the British Pharmacopceia thus directs to be made: "Pack 
 two pounds of the male fern in coarse powder closely in a per- 
 colator; and pass four pints or a sufficiency of ether slowly through 
 it until it passes colourless. Eecover the ether by distillation in 
 a water bath, and preserve the oily extract." These quantities 
 should yield three ounces of the oily extract, of which the dose 
 for horses or cattle is f 3i. to f 3ij. ; for sheep, TT1_xxv. ; for dogs 
 or cats, n]_v. to n|_xx. It is given in a little oil or gruel, when 
 the bowels have been emptied by a laxative and several hours' 
 fasting, and, if requisite, may, after a few hours, be followed 
 by a dose of physic. 
 
 GALLS. 
 
 Galla. Excrescences on Quercus infectoria, caused by the 
 punctures and deposited ova of Diplolepis Gallse tinctoriae. 
 Brit. Phar. 
 
 Nat. Ord. — Oupuliferse. Sex. Syst. — Moncecia Polyandria. 
 
 Galls, or gall-nuts, found on the young branches and 
 shoots of a shrubby species of oak, are caused by a small insect, 
 the female of a species of Cynips, which punctures the buds 
 with its ovipositors, and deposits its ova. Irritation follows, 
 the punctures become surrounded by woody matter, -and with- 
 in this globular abode the larva passes through the various 
 stages of growth, until about July it becomes a perfect fly, 
 perforates its cell, and escapes. Before this the gaUs ought 
 to be gathered. The best commercial variety, known as Levant 
 galls, is imported from Syria, Smyrna, and Constantinople ; the 
 light, hollow Chinese, Japanese, or East Indian galls are yielded 
 by the Ehus semialata; large Mecca galls, called Dead Sea 
 apples, are imported from Bussorah. Home-grown galls from 
 the common oak (Quercus pedunculata) are in some seasons 
 abundant throughout the southern and midland counties of 
 England, but seldom contain more than half the percentage of 
 tannic acid in the foreign nuts. GaUs vary from the size of a 
 
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ASTRINGENT AND STYPTIC. 309 
 
 bean to that of a hazel nut, are round, hard, and studded with 
 tubercles ; of a bluish-gray colour externally, and yeUow with- 
 in. The central hoUow, in which the insect may generally be 
 found, is sometimes empty, from the death of the larva, or its 
 escape ia a perfect form, when the small hole may be found, 
 through which the creature has liberated itseK. These white 
 galls have a smoother, duller appearance, a lower density, 
 lighter colour, and less astriagency, than the ordinary or blue 
 gaUs. GaUs are easily reduced to a yellow-gray powder devoid 
 of odour, but having a powerful astringent taste. They yield 
 their properties to water and proof spirit, forming with the 
 latter a dark red tinctuse. Iron persalts, added to a watery 
 solution, slowly precipitate the dark blue or black iron tannate, 
 the basis of writing ink. An aqueous solution of gelatin throws 
 down a gray flocculent precipitate of tanno-gelatin — the essential 
 principle of leather. These reactions, and the other important 
 properties of galls, depend on the presence of 60 to 70 per 
 cent of tannin or gallo-tannic acid, about 6 of gallic acid, with 
 about 10 of fibre, 11 of moisture, 5 of gum, sugar, and starch, 
 together with Ugnin, resin, chlorophyll, volatile oil, albumin, 
 and salts (Guibour). 
 
 Actions and Uses. — Galls are powerfully astringent, occupy- 
 ing, as regards activity, a mediate place between tannic acid 
 and oak-bark. Like other tannin-containing substances, they 
 coagulate albumin, are not readily absorbed, but where they 
 can be applied, they constringe mucous, muscular, and vascular 
 textures. They are prescribed to brace weak and relaxed 
 membranes, to dry chronic mucous discharges, to check passive 
 haemorrhages, and to form insoluble precipitates in poisoning 
 by tartar emetic and vegetable alkaloids. In relaxed sore 
 throat in horses, powdered galls are occasionally swallowed, 
 made into a draught with mucilage or cold linseed gruel. But 
 in such cases sprajdng with alum or zinc sulphate solutions is 
 usually more effective. They are used in prolapsus of the 
 uterus and rectum, for piles in dogs, and for the several pur- 
 poses of topical astringents and styptics. 
 
 ' Doses, etc. — ^For horses, 3iv. to 3vi.; for cattle, §i. or §ij. ; for 
 sheep and swine, 3ss. to 3i. ; for dogs, grs. v. to grs. x. ; for 
 cats, gr. i. to grs. iij. The powder is made into a bolus, or 
 dissolved in warm water or proof spirit. A tincture, much 
 
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310 GALLS — TANNIC acid: 
 
 iised as a chemical test, and diluted and sweetened as required 
 for internal administration, is made with 2-|- ounces powdered 
 galls and a pint of proof spirit, by maceration and subsequent 
 percolation. For external purposes there are used — the simple 
 powder, infusions of various strength, and an ointment made 
 with one part of powdered galls to six of lard, and to which 
 half a part of opium is sometimes advantageously added. 
 
 TAifNic Acid, or Tannin (Ca.^ Hjj Oj,.), is the principle to 
 which oak-bark, galls, logwood, and many vegetable astringents 
 owe their properties. The tannic acid from these several 
 sources has, however, somewhat different characteristics, and 
 generally receives such special designations as gallo-tannic, 
 cincho-tannie, catechu-tannic acids. GaUo-tannic acid is pre- 
 pared by softening powdered galls by keeping them for two 
 days in a damp place, mixing with ether, pressing the pasty 
 mixture ia a linen cloth; the residue rubbed to powder is 
 again mixed with ether, to which a little water has been added, 
 and pressed as before ; the expressed liquids are slowly 
 evaporated. The resulting tannic acid, when carefully dried, 
 is in pale yeUow vesicular masses, or thin glistening scales, 
 with a strongly astringent taste and an acid reaction ; readily 
 soluble in wat§r and dilute alcohol ; very sparingly soluble in 
 ether. The aqueous solution gives a yellow-white precipitate 
 with gelatin, white insoluble precipitates with lead and anti- 
 mony salts ; and blue-black precipitates with iron persalts. 
 Tannic acid is also precipitated by, and hence is incompatible 
 with, the alkahes and their carbonates, with most metallic salts, 
 the mineral acids, and the vegetable alkaloids. It leaves no 
 residue when burned with free access of air. Exposed to aix 
 and moisture, in the presence of a ferment, or boiled with 
 diluted sulphuric or hydrochloric acid, it is decomposed, yield- 
 ing gallic acid and glucose ; and hence is termed a glucoside. 
 
 Actions and Uses. — Tannic acid is the active principle of 
 most vegetable astringents ; it is more powerful than oak-bark, 
 gaUs, or any other vegetable astringent. It unites with albumin- 
 ous and gelatinous textures, constringing them, and forming 
 upon their surface insoluble protecting films. It contracts 
 capOlary blood-vessels, and thus relieves hyperaemia, and lessens 
 secretion ; it draws together muscular and membranous tissues. 
 These effects are most notable when tannic acid is topically 
 
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ASTRINGENT AND STYPTIC. 311 
 
 applied ; but when swallowed, it is absorbed probably in part 
 as gallic acid ; its astringency is thus more widely extended, 
 and is especially serviceable in combating fluxes and hsemor- 
 rbages. It is excreted by the intestinal canal and kidneys as 
 gallic and pyrogallic acids. Compared with gallic acid it has 
 more direct and powerful topical effects, but when absorbed, 
 it is in part converted into gallic acid, which is preferred 
 in albuminuria and hsematuria. In haemorrhage, tannic acid 
 is combined with ergot and digitalis, and alternated with 
 metallic salts or mineral acids. In diarrhoea and other ex- 
 cessive discharges, it is conjoined with chalk acids and opium. 
 Externally it is used eCs a stimulant and astringent in con- 
 junctivitis, in irritable relaxed sore mouth and throat, in 
 tender cracked teats in cows and ewes, in abating itching and 
 discharge in eczema and impetigo, in drying and healing flabby 
 ulcerations. 
 
 Doses, etc. — Horses take grs. xx. to 3ij. ; cattle, 3i. to 3iij- ; 
 sheep and pigs, grs. xv. to grs. xxx. ; dogs, grs. ij. to grs. xx. ; 
 prescribed in the form of pill, infusion, or tincture, as a draught, 
 clyster, or spray, with starch-gruel, opium, carboHc acid, or 
 glycerin. A drachm each of tannin and opium, with two 
 ounces of lard, makes an excellent ointment for piles in dogs. 
 Glycerin of tannin, a convenient form for keeping or prescrib- 
 ing tannic acid, is prepared by rubbing together in a mortar 
 one part of the acid with four of glycerin, and furthering com- 
 plete solution by gentle heat. Styptic colloid is usually pre- 
 pared with one of tannin and eight of alcohol, mixed with 
 about four of collodion. 
 
 Gallic Acid (H3 C7 H3 O5, Hg 0). — Tannic acid, when 
 boiled with diluted sulphuric or hydrochloric acid, or when 
 exposed during six weeks to air and moisture, undergoes a 
 species of fermentation, takes up water, and yields the tribasic 
 gaUic acid and glucose, thus : 
 
 Tannic acid -f- water = Glucose + GaUic acid. 
 C27 H22 Oi, -f 4 H2 = Ce Hi„ Oe -H 3 H3 C, H3 0,. 
 
 GaUic acid is crystaUine in acicular prisms, or silky needles, 
 sometimes nearly white, generally pale fawn. It rec[uires for 
 solution about 100 parts of cold water and 3 of boiling water; 
 is soluble in rectified spirit, and sparingly so in ether. Its 
 
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312 GAMBOGE 
 
 aqueous solution gives a blue -black precipitate with iron 
 persalts. From tannic acid it is distinguished by not pre- 
 cipitating solutions of albumin or gelatin, and by sulphuric 
 acid giving a crimson instead of a black solution. lime water 
 browns tannic acid slowly, browns gaUic acid immediately, and 
 with pyrogallie acid yields a purple red, which becomes brown 
 as it absorbs oxygen (Attfleld). 
 
 The actions, uses, and doses of gallic acid are the same as 
 those of tannic acid ; but it is scarcely so active as a topical 
 astringent, although usually preferred as a general astringent. 
 Solutions of gum or grape sugar increase its effects, probably 
 reconverting it into tannic acid. Three to sik grains, with 
 about half that amount of opium, form a useful pill for dogs 
 suffering from chronic diarrhoea or dysentery. A drachm each 
 of gallic acid and opium mixed with an ounce of lard soothes 
 and reduces irritable piles in dogs, and may often be advan- 
 tageously varied by a dressing of calomel ointment. 
 
 GAMBOGE. 
 
 Gambogia. Gamboge. A gum-resin obtained from Garcinia 
 Morella, var. pedicillata. Imported from Siam. — Brit. 
 Fhar. 
 
 Nat. Ord. — Guttiferse. Sex. Syst. — Monoecia Monadelphia. 
 
 Gamboge is the produce of a moderate-sized tropical tree ; is 
 imported from Singapore, Siam, and Ceylon ; is obtained from in- 
 cisions into the special vessels which run in the middle layer of the 
 bark, or by breaking the leaves and branchlets, when the yellow 
 milky juice exuding is collected in leaves of the tree, in cocoa- 
 nut shells, or in joints of bamboo, is transferred into flat earthen 
 vessels, and dried in the sun. It occurs in cylindrical yellow 
 pieces or roUs, four to eight inches long, two to three inches 
 in diameter, and in cakes ; breaks easily with a smooth con- 
 choidal glistening orange-yellow fracture, is odourless, has little 
 taste, but leaves, when chewed, acridity in the throat. It is 
 feebly soluble in water, but more so in alcohol and ether, 
 consists of about 20 per. cent of soluble gum, and about 80 of 
 an active orange-yellow resin, insoluble in water, but soluble in 
 alcohol, and still more so in ether and alkalies. 
 
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AN IRRITANT CATHARTIC. 313 
 
 Actions and Uses. — It is a powerful irritant and purgative, 
 inferior in activity only to croton and elaterium. It undergoes 
 solution in the alkaline intestinal juices, and in large doses 
 causes gastro-enteritis. Moiroud gave horses six to twelve 
 drachms, and found the dejections frequent and fluid, the pulse 
 irregular, the animal shivering and anxious. Two drachms 
 killed a sheep, two ounces and a half had little effect upon a 
 cow, but five , ounces caused dysentery, which continued for 
 seventeen days. G-amboge is too drastic and irregular to be 
 safely given either to horses or dogs. It causes profuse watery 
 discharges and increased peristalsis, and although Professor 
 Eutherford's experiments demonstrate that it has no special 
 stimulant action on the liver, it is, like aU purgatives acting on 
 the small intestines, a cholagogue, iu the sense that it promptly 
 moves onwards the bile in the duodenum, and thus prevents 
 its reabsorption. It has no direct vermicide effect, but is diu- 
 retic, especially when given in small doses dissolved in alkalies. 
 In ruminants it proves safe, speedy, and manageable when in 
 combination with other purgatives. With half a pound each 
 of Epsom and common salt, an ounce of gamboge proves a 
 prompt and effectual purgative in indigestion, fardel-bound, 
 and parturient apoplexy of cattle. Although neither gamboge nor 
 aloes is particularly certain when used by itself, an ounce of 
 each, rubbed down and given in solution, proves an effectual 
 purge for ordinary cattle cases. 
 
 Doses, etc. — For cattle, gss. to gj. ; for sheep, grs. xx. to 
 grs. XXX. ; given in combination with other purgatives, and in 
 solution. 
 
 GELATIN.— GLUE. 
 
 Mtrogenous matter extracted by the action of hot water from 
 bones, tendons, and animal membranes. (C41 Hg7 Ni^ Oig, 
 with Kme and magnesia phosphates.) 
 
 G;elatin is chiefly made from damaged hides and skins, and 
 from their parings ; also occasionally from bones, limed, cleaned, 
 and boiled to remove fatty matters, and then crushed and steamed 
 in a partial vacuum. Glue, a coarse variety of gelatin, is made 
 from similar materials less carefully purified ; size is an inferior, 
 weaker variety of glue ; isinglass, a natural colourless gelatin, 
 
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314 GELATIN' glue: 
 
 is the swimming bladder or sound of the sturgeon, and various 
 species of Accipenser, prepared and cut into shreds ; chondrin is 
 the gelatinous matter extracted from cartilage ; osseine the title 
 given to that obtained from bones. Gelatin, when dried, is 
 hard and tough ; varies in colour according to its purity ; forms 
 a viscid tremulous mass, even when one per cent is dissolved 
 in water and allowed to cool ; and is precipitated from watery- 
 solutions by tannic acid. 
 
 ActioTis and Uses. — Gelatin, although a product of the dis- 
 integration of albuminoid tissues, cannot build up the albumin- 
 oid or even the gelatiuous tissues ; but being tolerably easily 
 digested and broken up, it appears to economise the more valu- 
 able albumin. Men, dogs, and even horses, recovering from 
 exhausting disease, in which the breaking up and excretion of 
 albuminoids is great, exhibit the dietetic value of gelatin when 
 given as soup, and along with fats or hydrocarbons. As a de- 
 mulcent it has the disadvantage of becoming hard and dry, and 
 hence is not very suitable as a permanent sheathing for- irri- 
 table surfaces. 
 
 Glue is often employed in veterinary practice for securing 
 the broken horns of cattle, and occasionally for maldng adhesive 
 plasters. For the closing of wounds, two pieces of stout cloth 
 are cut so as to leave a number of tails with uncut margins of 
 several inches, and are smeared with melted glue, usually mixed 
 with pitch, and applied, one on either side of the wound, with 
 the uncut margins towards each other. When the plaster is 
 dry, these approximating uncut margins are sewed together ; 
 whilst, to prevent the plaster slipping with the movements of 
 the skin, a few narrow strips of calico may then be applied 
 with the glue in various directions over the injured spot. Large 
 wounds may be thus secured by non-professional persons who 
 cannot use sutures or needles ; and even where a serious wound 
 is properly sewed or sutured, such plasters immediately applied 
 are sometimes useful in keeping the parts in position, giving 
 support, and preventing the annoyance of flies ; a dependent 
 opening must, however, be left for the egress of discharges. 
 Glue plasters are often effectual in reducing and retaining um- 
 bilical hernia, both in calves and foals ; and in these, as in 
 other cases, the chief requisites for their successful application 
 are to cut the cloth into ribands or tails, to smear both the 
 
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NUTEIENT, DEMULCENT, ADHESIVE. 315 
 
 cloth- and skin with the melted glue, and to keep the plaster 
 smooth and firm until it is thoroughly dry : the admixture with 
 the glue of one-third or one-half of pitch greatly increases 
 adhesiveness. The familiar court sticking-plaster consists of a 
 strong solution of isinglass painted over thin silk. In phar- 
 macy, gelatin is used for clarifying or fining, and as a neat and 
 cleanly envelope for pOls and boluses. 
 
 GEIfTIAN BOOT. 
 
 G-entianse Eadix. The dried root of Gentiana lutea. Collected 
 in the mountainous districts of Central and Southern 
 Europe. — Brit. Phar. 
 
 Nat. Ord. — Gentianaoese. Sex. Syst. — Pentandria Digynia. 
 
 The Gentiana lutea, or yellow gentian, has a perennial, 
 often forked root, and an annual herbaceous stem, which rises 
 three or four feet .high, and bears spikes of yellow flowers. It 
 aboimds in most parts of temperate Europe, thrives best between 
 3000 and 5000 feet above the sea-level, and is extensively 
 cultivated in the mountainous districts of the Alps, Vosges, and 
 Pyrenees. All parts of the plant are bitter and tonic, but the 
 root alone is officinal. It is brought to this country in bales, 
 chiefly from Switzerland, the Tyrol, and Auvergne, usually by 
 way of MarseDles and other Mediterranean ports. It occurs in 
 cylindrical, usually more or less branched, often twisted, pieces, 
 marked by transverse annular wrinkles and longitudinal furrows, 
 varying in length from a few inches to a foot, and in thickness 
 from half an inch to an incL Externally the root is brown, 
 and yeUow within ; its texture is tough and spongy. It has a 
 pecuhar aromatic and rather disagreeable odour ; and a taste at 
 first sweet, but afterwards strongly and permanently bitter, but 
 without astringency. When moist, it is tough and flexible ; 
 when dry, brittle and easily pulverised. The powder is yellow, 
 with a shade of brown, and readily yields its bitterness to water, 
 alcohol, and ether. Gentian root contains 12 to 15 per cent 
 of uncrystallisable sugar, which, in Southern Bavaria and Swit- 
 zerland, is fermented into a drinking spirit, a large amount of 
 pectin, a little volatile oil and fat, and two crystalline bodies — 
 
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316 GENTIAN 
 
 gentianic acid, which is inert, and about O'l per cent of the 
 neutral gentian bitter or gentiopicrin (Cjo Hgo Oia)- 
 
 Boots of other Gentianse are frequently mixed with those 
 of Gr. lutea ; but this is not of much importance, since aU are 
 possessed of similar properties. Admixture, however, sometimes 
 occurs of poisonous roots, such as monkshood, belladonna, and 
 white hellebore, which may be distinguished by the- absence 
 of the pure bitter taste and bright yellow colour so characteristic 
 of true gentian. Gentian powder, especially that met with 
 abroad, is stated to be occasionally adulterated with yeUow 
 ochre, easily detected by heating the suspected specimen with 
 a Httle sulphuric acid, filtering, and testing for iron. 
 
 Actions and Uses. — Gentian is the type of a pure and 
 simple bitter, and is prescribed as a stomachic and tonic, pro- 
 moting salivary and gastric secretions. It resembles quassia, 
 calumba, chiretta, and the New England gold thread or Coptic. 
 As a tonic it has been considered little inferior to cinchona ; it 
 is devoid of astringency. 
 
 Gentian improves the appetite and general tone, and im- 
 parts a healthier condition, especially to the gastric mucous 
 membrane. Amongst horses suffering from febrUe catarrhal 
 attacks, no combination is more effectual than an ounce of 
 powdered gentian, two drachms nitre, with two ounces Epsom 
 salt, dissolved in a pint of water, linseed tea, or ale, and re- 
 peated night and morning. In most inflammatory complaints 
 such a prescription also proves serviceable, after the first acute 
 stage is passed. Where the bowels are constipated or irregular, 
 or febrile symptoms are insufficiently subdued, two drachms of 
 aloes may be advantageously united with the gentian and nitre. 
 Where a more decided tonic effect is desired, iron sulphate is 
 alternated with the gentian and salts. An ounce of gentian 
 with an ounce of ether or sweet spirit of nitre, given three or 
 four times daily in a bottle of ale, proves an excellent stomachic 
 and stimulating tonic in infiuenza, and many other epizootic 
 attacks. Such a combination hastens recovery from exhausting 
 disorders, and has an almost magical effect in restoring horses 
 that are jaded, overworked, or suffering from loss of appetite or 
 slight cold. In simple indigestion, especially in young animals, 
 it is frequently combined with antacids or aromatics. Half an 
 ounce each of gentian, ginger, and sodium carbonate constitutes a 
 
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BITTER, STOMACHIC, AND TONIC. 317 
 
 useful stomachic and carminative for horses or cattle, and may 
 be made either into a bolus with treacle, or into a drench with 
 gruel or ale.. In relaxed and irritable bowels, especially in 
 young animals, it is advantageously conjoined with opium. By 
 promoting a healthier state of the digestive mucous membrane 
 it prevents the development, of ■w'orms ; whilst its bitterness and 
 slight laxative tendency sometimes cause their expulsion. Its 
 supposed utility in jaundice is mainly owing to the laxatives 
 with which it is usually combined. For cattle the Etbove 
 formulae are as serviceable as for horses, but require to be 
 given in somewhat larger doses. For sheep, gentian is a most 
 useful stomachic and bitter tonic, and when prescribed with 
 salt arrests, 'for a time^ the progress of Liver-rot. Next after 
 quinine it is the best vegetable tonic for dogs prostrated by re- 
 ducing disorders. Like other tonics, gentian is contra-indicated 
 in irritation of the intestines, and in the earlier stages of acute 
 inflammatory diseases. As an infusion, it is occasionally ap- 
 plied externally as a mild stimulant and antiseptic. 
 
 Doses, etc. — For the horse, gss. to gi. ; for cattle, §i. to §ij. ; ■ 
 for sheep, 3i. to 3iij. ; for pigs, 3ss. to 3i. ; for dogs, grs. v. to 
 XX. repeated twice or thrice daily. The carefully-prepared 
 Pharmacopoeia extract infusions and tinctures, flavoured with 
 bitter orange peel and aromatics, are little required in veterinary 
 practice. The powdered gentian is. prescribed either as a bolus 
 made up with treacle, glycerin, and meal, or as an infusion 
 made by digesting the powder during several hours in hot 
 water and decanting off the clear fluid. A small addition of 
 proof spirit ensures more thorough solution and better keeping. 
 Gentian is often given with ginger, cardamoms, antacids, alcohol, 
 ether, and with mineral tonics. 
 
 GINGER 
 
 Zingiber. The scraped and dried rhizome, or underground stem, 
 
 of Zingiber ofacinale, from plants cultivated in India, in 
 
 the West Indies, and other countries. — Brit. Fhar. 
 
 Fat. Ord. — Zingiberacese. Sex. Syst. — Monandria Monogynia. 
 
 The Zingiber officinale, grown in many tropical countries, 
 
 has a biennial, creeping, fleshy, and nodulous rhizome, which 
 
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318 GINGEE 
 
 gives off numerous descending short radicles, with several 
 ascending annual stems, which reach to the height of three or 
 four feet, are invested with smooth sheathing leaves, and ter- 
 minated hy a spike of purple flowers. For making green or pre- 
 served ginger.therhizomes are gathered when about three months 
 old, and while still soft and juicy. For other purposes they 
 are taken up when about a year old, when the aerial stems have 
 withered down, but whUe the rhizome is still plump and soft. 
 They are scalded to check vegetation, usually scraped to remove 
 the dark-brown wrinkled epidermis, and dried in the sun. 
 
 Properties. — Several sorts are recognised : — The Jamaica in 
 large plump pieces or races, pale, stripped of epidermis, pro- 
 ducing a light-coloured powder, of superior quality; Malabar, 
 or Cochin China, a little darker, but usually good ; Bengal and 
 African, imported both coated and uncoated, many samples of 
 which are cheap and excellent ; Barbadoes, in short thick races, 
 retaining its brown corrugated epidermis. The unstripped 
 descriptions are sometimes termed black gingers. The several 
 varieties are met with in irregular lobed knotted zig-zagged 
 pieces or races, from two to four inches in length, with a 
 marbled soft resinous texture, a strong, agreeable aromatic 
 odour, a warm, pungent taste, and dissolving in water and alcohol. 
 To imitate the finer Jamaica ginger, inferior varieties are ex- 
 posed to sunlight, to sulphurous acid, or to calcium chloride ; 
 but such bleaching or whitewashing cannot impart the soft 
 resinous structure, short mealy fracture, aromatic odour, and hot 
 taste, which distinguish good specimens. Besides the usual 
 constituents of plants, ginger contains an acrid resin and 0'25 
 per cent of volatile oH (Cg Hg), concentrating the aroma taste 
 and properties of the medicine. These active principles are 
 chiefly located in the delicate felted layer of skin situated 
 between the starchy mealy parenchyma of the rhizome and the 
 brown homy external covering. As a condiment and medicine 
 nearly 2000 tons of ginger are annually imported. 
 
 Actions and Uses. — Ginger is slightly irritant, aromatic, and 
 stomachic. It stimulates the various mucous membranes with 
 which it comes in contact. ' Blown into the nostrils, it promotes 
 nasal discharge ; chewed, it augmeiits the flow of saliva ; ad- 
 ministered internally in repeated doses, it increases the gastric 
 secretions, facilitates digestion, and checks formation of flatus. 
 
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Jf^W'li, 
 
 t AROMATIC AND STOMACHIC. 319 
 
 From these stomacMc aad canninative properties, as well as 
 from its mild tonic effects, it proves serviceable during conva- 
 lescence from debilitating diseases, especially when accompanied 
 by atony of the digestive organs. It is, besides, a useful 
 adjunct to many medicines, is prescribed with tonics and 
 stimulants ; whilst, conjoined with purgatives, it diminishes 
 their tendency to nauseate and gripe, and also somewhat hastens 
 their effects. To fulfil these purposes, it is used for all the 
 domesticated animals, and especially for cattle and sheep. 
 
 Doses, etc. — For the horse, 3iv. to §i. ; for cattle, §i. to , 
 giij. ; for sheep, 3i. to 3ij. ; for pigs, 3ss. to 3i. ; for dogs, grs. 
 X. to grs. XXX. It is given in bolus made with any suitable 
 excipient, or iu draught, made with hot water, the solution be- 
 ing sometimes sweetened with treacle or sugar. The tincture 
 was highly spoken of by the late Mr. Morton, and ordered to 
 be made with two ounces of ginger to the pint of proof spirit. 
 The better-keeping Pharmacopoeia tincture is made with 2^ 
 ounces of coarsely powdered giuger to a pint of rectified spirit, 
 by the usual process of maceration and subsequent percolation. 
 
 GLYCEEIK 
 
 Glycerinum. Glyceryl hydrate. Glyceric alcohol. A sweet 
 principle, obtained from fats and oil, except spermaceti and 
 wax, by saponification. (Cg Hj, 3 HO or CgHgOg). 
 
 Glycerin was first discovered, in 1789, by Scheele as a pro- 
 duct in the manufacture of lead plaster; it occurs in small 
 amount during the fermentation of sugar ; it is the hydrate of 
 the basylous principle of all oUs and fats, and is obtained as a 
 by-product from soap and stearine candle-making. In saponi- 
 fication double decomposition occurs ; the fats, consisting of 
 glyceryl stearate, palmitate, or oleate, are broken up ; their 
 fatty acids unite with the metal ; the basylous radicle glyceryl 
 (Cg H5), thus liberated, being triatomic, unites with the three 
 atoms of water previously held by the -caustic soda, thus : — 
 
 Caustic soda -|- Vegetable oil = Hard soap -|- Glycerin. 
 3 Na, HO -I- C3H5, 3 CigHggO = 3 m, CigHggO + C3H5, 3 HO. 
 Into a distilling apparatus contaiaiag palm oil, steam at a 
 temperature of 550° or 600° is introduced, the oil and water 
 
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320 aLYCERIN. • 
 
 are decomposed ; and there distil over pure stearic acid and 
 glycerin, which, being the heavier, occupies the lower part of 
 the receiver. For most purposes it is redistilled, reaches a 
 specific gravity of 1'28, and contains 94 per cent of anhydrous 
 glycerin. It is viscid and colourless, odourless, has a sweet 
 taste ; strongly heated in a capsule, it should, if pure, leave no 
 residue ; it burns with a luminous flame, evolving irritating 
 vapours ; is freely soluble in water and alcohol ; is itself an 
 excellent solvent for vegetable acids and alkaloids, takes up 
 one-third of its weight of quinine sulphate, one-sixth of mor- 
 phine muriate, one-fifth of arsenic. 
 
 Actions and Uses. — Glycerin is nutrient, demulcent, emol- 
 lient, feebly antiseptic, and a convenient solvent for alkaloids, 
 tannic and gallic acids. 
 
 It has some of the nutrient properties of cod-liver oil and 
 other fats, and two or three drachms, repeated twice or thrice 
 daily, have been given to delicate dogs. It has recently been 
 stated that 150 grains act like alcohol, and kill small dogs. 
 Small doses are eliminated by the kidneys, large doses by the 
 bowels, producing laxative effects. It proves a capital emollient 
 for cracked heels, mud fever, bUstered or burnt surfaces — indeed, 
 wherever the skin is irritable, dry, rough, or scurfy. For tender 
 or abraded surfaces, when undiluted, it is too heating and irri- 
 tant, and is best used with water, spirit and water, any bland 
 oil, or as glycerin of starch made by heating an ounce of starch 
 with eight ounces of glycerin. This is a cleanly and useful 
 application for many purposes, notably for sore mouths amongst 
 calves and lambs. Greater antiseptic and astringent effects are 
 secured, as is desirable in bad cases of cracked heels, in harness 
 galls, or in noisome indolent wounds, by the use of glycerin of 
 carbolic acid, easUy made by rubbing together in a mortar one 
 part of carbolic acid and four of glycerin. Another soothing 
 and astringent dressing is improvised with equal parts of 
 glycerin and Goulard's extract, diluting it as required with 
 water. Soothing and astringent effects are also combined by 
 using glycerin of tannin, which is specially usefiil in eczema 
 of young and delicate dogs, in aphtha, and in relaxed sore 
 throat. Glycerin is used as a solvent for tannic and gallic 
 acids, and for alkaloids ; as a vehicle for their hypodermic 
 injection ; a useful addition for preserving boluses and masses 
 
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f GUMS ARABIC AND TRAGACANTH. 321 
 
 soft and sound; and a convenient and palatable menstruum 
 for giving nauseous medicines, especially to dogs and cats. 
 
 GUM ARABIC— GUM TEAGACANTH. 
 
 Gummi Acacise. Gum Arabic. A gummy exudation from 
 tbe stem of one or more undetermined species of Acacia. 
 
 Tragacanthse. Gum tragacanth. A gummy exudation from 
 tbe stems of Astragalus verus, and probably other species, 
 collected in Asia Minor. — £rit. Phar. 
 
 Nat. Ord. — LeguminossB. Sex. Syst. — ^Mbnodelphia Polyandria. 
 
 Gum is largely present in many plants, but for commercial 
 and mediciaal purposes is chiefly got from various species of 
 Acacia. These are stunted, withered-looking trees, usually of 
 medium size, with a gray bark, oblong linear leaflets arranged 
 along either side of the stalk, and a moniliform fruit resembling 
 the laburnum. They abound in dry, warm climates, especially 
 in Nubia and the valley of the Upper Nile, and are most pro- 
 lific when old and stunted, and during dry, hot seasons. In 
 the warm months of June and July a viscid juice exudes from 
 natural cracks or artificial incisions in the bark, and concretes 
 by the heat of the sun into round masses or tears, varying in 
 size from a pea to a walnut, brittle, usually shining, when in 
 small fragments of a yellow or brown coloiir, odourless, and of 
 a bland, sweet taste. Gum dissolves in water, forming an 
 adhesive, viscid fluid or mucilage. The colour and trans- 
 parency of gum are liable to many variations, being sometimes 
 different in specimens obtained from the same tree, and some- 
 times identical in those from different species. 
 
 Gum Acacia, or Gum Arabic, the most important medicinal 
 variety, does not come from'Arabia, as its name might indicate, 
 but is chiefly collected in Kordofan, ia Eastern Africa, and 
 imported from Alexandria. When imported, it is picked and 
 sorted, usually into three different qualities, distinguished by 
 the size, colour, and transparency of the tears. It is tough 
 and difScult to powder, but must not be triturated in iron 
 mortars, as it is apt thereby to become acid and discoloured. 
 When pure, it is soluble in its own weight alike of .hot and 
 cold water, is insoluble ia and incompatible with alcohol, ether, 
 
 Y 
 
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322 GUMS 
 
 oils, and most mineral salts. Boiled witli dilute sulphuric acid, it 
 is converted into sugar ; strong nitric acid converts it into oxalic 
 acid. Gum consists of arabin or Arabic acid, which is associated 
 with calcium, magnesium, ani potassium, and has the formula 
 Ci2 H22 On, 3 H2 0. It may be regarded as a calcium magnesium 
 and potassium salt of the feeble Arabic acid (Fliickiger). 
 
 Gum Senegal is similar to gum Arabic, but less brittle, and 
 dissolves only in four or five' parts of water. The East 
 Indian gums are generally dark-coloured, more difficult of 
 solution, .and less valuable. The gums of Australia and the 
 Cape, now imported in considerable quantity, are also iaferior 
 to gum Arabic in colour, transparency, and solubility. 
 
 Gum Tragacanth, derived from tangled spiny bushes, shrubs, 
 or small trees of the genus Astragalus^ is collected in Asia 
 Miuor, mostly exported from Smyrna, occurs in thin, semi- 
 transparent, tough, horny lamellae or plates of a white-gray or 
 yeUow colour, and marked with concentric ridges ; it is taste- 
 less and odourless. Cold water swells it into a jelly, which 
 readily diffuses through water, and which is tinged violet by 
 iodiae tincture, iudicating the presence of starch ; boOing water 
 readily dissolves it, forming a dense mucilage. Tragacanth is 
 composed of a soluble gum, resembling arabiu, and called tra- 
 gacanthin, and an insoluble neutral gum, bassorin (C4 Hiq O5), 
 which, gelatin-like, swells up, but is not dissolved either by 
 hot or cold water, but is soluble in alcohol. 
 
 British gum or dextrin (Cg Hjq O5), much used in calico- 
 printing, is made by heating staxch with dilute nitric acid, by 
 exposing it to a temperature of 400°, or by acting upon it by 
 diastase or other such ferment. 
 
 ActioTis and Uses. — Gums are the least nutritive of the 
 hydrocarbons ; when swallowed they are dissolved by the secre- 
 tions of the alimentary canal, absorbed, and probably converted 
 into sugar. They are' used occasionally as demulcents and 
 emoUients for ensheathing the mucous surfaces in catarrh and 
 diarrhoea, and for protecting injections in inflammation of the 
 bowels and bladder. Where there are tenderness and irritability, 
 mucilage is conjoined with opium or belladonna ; where there 
 is atony, with oak bark, catechu, or tannin. For veterinary 
 purposes mucilage is, however, usually superseded by weU- 
 boiled linseed or starch gruels. For making emulsions, electu- 
 
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ISrUTEITIVE AND DEMULCENT. 323 
 
 aries, and boluses, gums liav6 the disadvantage of speedily 
 drying and hardening. 
 
 Doses, etc. — Gums may be taken almost ad lihitim. Horses 
 and cattle may have Jij. to giij. ; foals, calves, and sheep §i. ; 
 and dogs grs. xx. to grs. xl. Mucilage is made by mixing, in a 
 covered earthen jar, four ounces of gum in. small pieces, and six 
 fluid ounces of distiUed water, stirring, and, if necessary, strain- 
 ing through musHn {SHt. Phar.) 
 
 HELLEBOEE. 
 
 Hellebori Niger Eadix. Black hellebore rhizome. Dried 
 
 root-stalk and radicles of Helleborus niger. 
 
 Nat. Ord. — Eanunculaceffi. Sex. Syst. — Polyandria Polygynia. 
 
 The HeUeborus niger, Christmas rose, or bear's foot, is culti- 
 vated it;! this country, is indigenous to many parts of conti- 
 nental Europe ; the chief supplies come from Germany. It is an 
 herbaceous plant, one to two feet high, with numerous digitated, . 
 dirty-green leaves, flowers which appear in January and February, 
 and a perennial, black, knotted, scaly rhizome or root-stalk, one 
 to three inches long and scarcely half an inch thick, from which 
 descend numerous dark-coloured radicles, about the thickness of 
 a goose-quill, having a faint, unpleasant odour, and an acrid, 
 bitter taste. The plant generally is acrid, but the rhizome and 
 rootlets are most active. The rhizomes of Helleborus viridis 
 and foetidus, often mixed with those of the niger, are very 
 similar in action. Hellebore owes its activity to two irritant 
 glucosides, heUeborin (Cgg H43 Og), and helleborein (Cje H44 Ou) 
 (Fliickiger). 
 
 Actions and Uses. — Black hellebore is an acrid irritant, but 
 scarcely so active as veratrum album or white heUebbre. It is 
 emetic, a drastic purgative, an anthelmintic, and an external 
 irritant. , Full doses produce in aU animals gastro -enteritis, with 
 cardiac depression. Two drachms swallowed by a medium-sized 
 dog killed him in a few hours, and smaller quantities have 
 proved fatal in a shorter time when applied to a wound (Chris- 
 tison). Two or three drachms produce m horses colic and 
 enteritis ; two or three ounces are invariably fatal in forty to 
 fifty hours ; one to three drachms induce similar effects among 
 
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324 HEMLOCK AND CONINE 
 
 sheep and goats (Hertwig). On account of its violence it is 
 very seldom ever prescribed in regular practice. Even for pro- 
 motiag discharges and as a constituent of blistering ointments 
 it must be used with caution, as it is liable to become absorbed, 
 act with unexpected violence, occasionally produce erysipelas, 
 and sometimes cause blemishing. An oimce of powdered helle- 
 bore and two ounces of alum, dissolved in a gallon of hot water, 
 destroy caterpillars infesting gooseberry, rose, or other trees. 
 
 HEMLOCK. 
 
 Hemlock leaves. Conii Folia. The fresh leaves and young 
 branches of Conium maculatum. Also the leaves sepa- 
 rated from the branches and carefully dried ; gathered 
 from wild British plants when the fruit begins to form. 
 Brit. Phar. 
 
 Hemlock fruit. Conii Eructus. The dried immature fruit of 
 Conium macidatum. 
 
 Nat. Ord. — Umbelliferae. Sex. Syst. — Pentandria Digynia. 
 
 Hemlock grows wild in hedges and waste places in most 
 parts of Europe. When one year old, it has a small slender 
 root, and a few leaves lying flat on the ground. During its 
 second year's growth, when it is collected for use, the root is 
 one or two feet long, an inch in diameter, white, and fusiform ; 
 the flowering stem two to five feet high, round, hollow, jointed, 
 smooth, branching towards the top, and covered with purple 
 spots ; the tripinnate leaves are large, smooth, have a dark 
 shining green colour, a nauseous, bitter taste, and a strong, 
 peculiar odour, which is characteristic of aU parts of the plant, 
 and aptly compared to that of mice or of cats' urine ; the 
 flowers are small, white, and, like those of the other plants of 
 the family, arranged in umbels or clusters ; the fruit resembles 
 that of the anise, is round, ridged, of a brown colour, devoid of 
 hairs, mostly imported from Germany ; should be gathered 
 before it is fully ripe, when it has attained its full size, but is 
 still soft and green: 9 lbs. of such fruit produce an ounce of 
 Conine, which is found stored in cubical eeUs in the endocarp. 
 Dried in thin layers in a warm shady room, at a temperature 
 of 80°, and kept in close-fitting tin canisters, the fruit preserves 
 
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MOTOR PAEALYSEES. 325 
 
 its virtues for a year. When fuUy ripened it contains less 
 Conine, and besides keeps badly. The leaves should be gathered 
 in July, when the fruit begins to form, should be rapidly dried 
 in stoves at about 120°, and preserved in tins, bottles, or jars, 
 excluded from light. By drying they lose three-fourths of 
 their weight, and, according to Dr. Harley, one half of their 
 volatile principle, of which scarcely a trace remains after they 
 are kept twelve months (Eoyle's Mout. Med) Their properties 
 are readily communicated to water, alcohol, fats, and oUs. 
 Exposed even for a short time to a temperature of 212°, their 
 active principle is decomposed, and to this cause, and the care- 
 lessness and long-keeping of the fruit and leaves, the inertness 
 of many hemlock preparations is owing. 
 
 All parts of the plant, especially the leaves, contain a bitter, 
 nauseous, oleo-resin, and a volatile oil. But the distinctive 
 active principle is a volatile oleaginous alkaloid called conine 
 or conia (Cg H^ N), most abundant in the green fruit, and 
 obtained by distilling any portion of the plant with diluted 
 caustic potash. It has the specific gravity -89, boils at 340°, 
 rapidly oxidises iato a brown semi-soUd, has an intense odour 
 of mice, a peculiar acrid taste, is sparingly soluble in water, 
 but readily dissolved by alcohol and ether. Nitric acid dropped 
 on conine produces a blood-red colour ; sulphuric acid, a purple 
 red passing to olive-green. Hemlock also contains a solid 
 crystaJlisable alkaloid of less activity called conhydriae, with 
 methyl-conine, and another allied alkaloid (Fliickiger and Eoyle). 
 
 The leaves and fruit of hemlock are distinguished from 
 other leaves and fruit, sometimes mixed with them, by their 
 characteristic appearance, and by triturating with diluted caustic 
 potash solution, which evolves the striking mousy odour. 
 The water hemlock (Cicuta mrosa), the fine-leaved T^ater hem- 
 lock {Phellandriwm aquatieum), the water parsnip {(EnantJia 
 crocata), are aUied to the conium maculatum, have similar 
 physiological effects, and when freely eaten have poisoned most 
 of the domestic animals (Professor Gamgee's Veterinarian's 
 Vade Mecum). 
 
 Actions and Uses. — Hemlock and its alkaloid conine para- 
 lyse the motor centres first of the corpora striata, afterwards 
 of the cord (Dr. Harley). Poisonous doses paralyse the 
 muscles of respiration, and kill by asphyxia. Medicinal doses 
 
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326 HEMLOCK AND CONINE 
 
 are motor depressants, qiiiet motor irritability, and hence are 
 antispasmodic and anodyne. Hemlock was the State poison 
 of the Athenians, the death potion of Socrates. 
 
 General Actions. — Dr. John Harley and Mr. Fred. Mavor 
 gave a two-year-old thoroughbred colt doses of six, eight, and 
 twelve ounces of suecus conii without appreciable effect. Six- 
 teen ounces, corresponding to a pound of the fresh leaves, pro- 
 duced in twenty-five minutes dulness and stupidity, drooping 
 and swollen eyelids, but no change in the pulse or pupils. A 
 few minutes later the colt went down upon his knees, appeared 
 to require special efforts to keep himself on his legs, stumbled, 
 and walked slowly when led, but in two hours the symptoms 
 had entirely disappeared {The Old Vegetable Newotics, -by Dr. 
 John Harley, 1869). Moiroud poisoned a horse with half a 
 pound of the dried leaves given as a decoction, and observed 
 nausea, spasmodic twitching of the muscles of the extremities, 
 cold sweats, dilatation of the pupils, and dulness. Asses in 
 Italy eating hemlock are sometimes so thoroughly paralysed 
 that, supposing them to be dead, the peasants have actually 
 begun to skin them (Matthiolus). Cattle poisoned lie as if 
 lifeless, with slow, feeble pulse, coldi extremities, and dilated 
 pupils (Holford, in VeteriTiarian's Vade /Mecum). Sheep 
 become giddy, listless, and sometimes die (Veterinarian for 
 1845). Even goats and ducks are recorcled to suffer from 
 eating hemlock. Fifteen grains suecus conii injected into the 
 blood-vessels of a full-grown mouse produced in half an hour 
 paralysis, continuing for five hours. Sir Robert Christison 
 found that an ounce of the extract swallowed by dogs proved 
 fatal in forty-five minutes ; ninety grains applied to a wound 
 had the same effect in an hour and a half ; whilst twenty- 
 eight grains poisoned in two minutes when injected into the 
 veins (Christison on Poisons). Mr. John Gerrard of Market- 
 Deeping records {Veterinarian, February 1873) that a lot of 
 pigs strayed into an orchard and ate growing hemlock. In 
 fifteen hours twQ died, and two others a few hours later. They 
 lay prostrate and unable to rise, no pulse perceptible, the body 
 cold, the eyes amaurotic, relapsing when left alone into a 
 comatose hypnotic state. There were no convulsions ; no pain 
 was apparent when the patients wei'e pricked with a pin. 
 Examination discovered the blood throughout the body dark 
 
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SOOTHE MOTOR IRRITABILITY. 327 
 
 and fluid, the intestines distended with gas ; the mucous coat 
 of the stomach, particularly its cardiac portion, was much con- 
 gested; similar spots of congestion were observed here and 
 there throughout the intestines. The Hver and spleen, as well 
 as the lungs, were distended with dark fluid blood. The fitting 
 antidotes are cold water to the head, ammonia to the nostrils, 
 stimulating enemata, the cautious exhibition of stimulants, 
 enforced exertion, and artificial respiration. 
 
 Dr. John Harley, experimenting on his own person, found 
 that the paralysis induced by full medicinal doses of hemlock 
 first involved the third pair of nerves, causing indistinct vision 
 and imperfect power of'focal adaptation. Listlessness, a drag- 
 ging feeUng when walking, and tottering about the knees fol- 
 lowed, evidencing paralysis of the nerves of the volimtary 
 muscles. Alike in men and animals the lower extremities are 
 affected before the upper. Neither in medicinal nor in 
 poisonous doses are the brain functions directly involved ; there 
 is no narcotism ; no action on the sensory or afferent nerves ; 
 no effect on circulation, secretion, or excretion ; temperature is 
 reduced owing to failure of respiration. Applied directly to 
 the nerves, it exerts no topical irritation, but' perhaps diminishes 
 the conductivity of the motor nerves. On the unbroken skin 
 it exerts no effect ; on wounds large quantities irritate, whilst 
 small quantities soothe and ease pain. Its effects on the blood 
 are not yet made out. Conine appears to undergo rapid 
 decomposition in the blood, for it cannot with certainty be 
 detected either in that fluid, in the urine, or in other secretions. 
 Hemlock is analogous to curare, which, however, does not poison 
 when swallowed, although it is very active when injected 
 underneath the skin or into the veins. It resembles Calabar 
 bean, which in addition has a paralysing effect on the heart, 
 and excites gastro-intestinal inflammation. It is also allied to 
 prussic acid, which is, however, a more general paralyser df the 
 cerebro-spinal system. Hemlock and conine are directly 
 antagonistic to nux vomica, strychnine, and other tetanisers. 
 
 Medicinal Uses. — Its physiological action demonstrates 
 that the special , value of hemlock lies in its soothing motor 
 excitability. It is serviceable in some cases of convulsions, 
 especially amongst young animals ; it quiets the jactitations of 
 chorea, occasionally checks the fits of epilepsy, abates the 
 
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328 HEMLOCK AND CONINE 
 
 spasms of tetanus and of strychnine poisoning ; but does not 
 justify the high expectations formed of it as a certain cure for 
 tetanus in horses. In spasmodic cough, such as sometimes 
 follows epizootic sore throat in horses, hemlock and opium ia 
 full, doses often prove effectual. In irritable conditions of the 
 respiratory organs in man, hemlock vapour, made by adding 
 any reliable preparation to hot water, is recommended. It 
 relieves the pain of some cases of rheumatism and neuralgia, 
 for which it is used both externally and internally ; it abates 
 the irritability and pain of specific ophthalmia in horses; 
 administered by the mouth and also as an injection, it allays 
 irritability of the uterus, bladder, and genital organs. 
 
 Doses, etc. — The dried leaves are never to be depended 
 upon. The fully-ripened dried fruit possesses little activity. 
 The green but nearly ripened fruit, and the preparations 
 promptly obtained from it without undue heat, are, however, 
 effective. Tinctures and extracts, even when made according 
 to the improved Pharmacopoeia processes, are not as active as 
 they should be (Dr. Harley). The most reliable preparation is 
 the succus or juice made from fresh plants coming into bloom, 
 which are pulped between iinely-ground iron rollers, subjected 
 to hydraulic pressure, and yield 75 per cent of juice. Three 
 parts of juice are mixed with one of rectified spirit, allowed to 
 stand for seven days, and then filtered and bottled. This 
 succus has a dark sherry colour, an agreeable odour, and acid 
 reaction; one fluid ounce yields 30 grains of soft extract, and 
 42 grains of cordne. For horses or cattle the dose of succus 
 is f gx. to f§xvi. ; for sheep and pigs, fgss. to f giij. ; for dogs, 
 f 3i. to f3iv. The medicine should be repeated twice daily, and 
 persisted with in quantity sufficiQpt to paralyse voluntary 
 motor power. Hemlock combined with opixim or hyoscyamus 
 'prolongs and intensifies their effects. Few more soothing or 
 effectual pain -relieving mixtures can be used than opium', 
 chloral hydrate, and henalock. Of the tincture, the. dose 
 generally prescribed for horses or cattle is f §ij. or fgiij. ; for 
 dogs, f3ij. or f3iij. ; of the extract, 3i. to 3ij. for the larger 
 animals, grs. i. to grs. v. for the lesser. But ^o faulty are most 
 tinctures and extracts, that they fail to produce the physio- 
 logical action without which curative effects cannot be expected. 
 
 Conine — ^the volatile oleaginous alkaloid of hemlock — ^is a 
 
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CAUSE SWIFT-SPREADIN'G PARALYSIS. 329 
 
 very powerful poison, scarcely inferior in activity to anhydrous 
 prussic acid. It causes at first local irritation, speedily super- 
 seded by swiftly-spreading paralysis, proving fatal by arresting 
 respiration. One drop applied to the eye of a rabbit caused 
 death in niae minutes ; three drops in the eye of a cat killed 
 it iu a minute and a half ; five drops swallowed by small dogs 
 began to operate in thirty seconds, and proved fatal in one 
 minute. Still smaller quantities rajected into the veias poisoned 
 even with greater rapidity (Christison on Poisons). Conhydrine 
 has similar, but hot such powerful, effects. The irregularity some- 
 times observed in the action of conine is explained by its bad 
 preparation, and its proneness to change into methyl-conine, 
 which Professors Crum-Brown and Fraser have shown acts on 
 the cord as well as on the motor nerves, sometimes causing 
 muscular twitchings, and, where in considerable amount, con- 
 vulsions. This change in composition Dr. Harley proposes to 
 obviate by converting the unstable conine, so soon as made, 
 into acetate or sulphate. Dr. Harley and Mr. F. Mavor found 
 that conine used hypodermically in horses produced local irrita- 
 tion and inflammation, which appeared to prevent its absorption. 
 
 HENBANE. 
 
 Henbane or Hyoscyamus leaves. The fresh leaves, with the 
 branches to which they are attached, of Hyoscyamus 
 niger ; also the leaves separated from the branches and 
 carefully dried ; gathered from wild or cultivated British 
 biennial plants, when about two-thirds of the flowers are 
 expanded. — Brit. Phar. 
 
 Nat. Ord. — ^Atropacese. Sex. Syst. — Peijtandria Monogynia. 
 
 Henbane grows wild in most parts of this country, is culti- 
 vated at Mitcham and Hitchin, and is successfully grown in 
 India. The yeUow-brown leaves, the principal officinal part, 
 are rough, hairy, and clammy, with a foetid narcotic odour, and 
 a nauseous, bitter taste. The small, round, yellow-gray seeds, 
 sometimes used, resemble the leaves in taste and odour, but are 
 difficult to coUect in quantity. The root is white, contains 
 much starch, and resembles the parsnip, for which it has occa- 
 sionally been mistaken. There are two varieties, an annual 
 
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330 HENBANE OR HYOSCYAMUS 
 
 and a biennial ; tlie latter, alone recognised by the Pharmacopoeia, 
 is larger, stronger, more branched, clammy, and active. The leaves 
 ■with the young branches are gathered when two-thirds of the 
 flowers are expanded, and are carefully dried. 100 lbs. of the 
 fresh herb, when dried, weigh 14 lbs., and yield about 4 lbs. of 
 extract. The active principle is an oily liquid — hyoscyamine 
 or hyoscyamia (Cu H23 IST Og), having a heavy tobacco-Hke 
 odour and taste, and losing its activity at temperatures over 
 200°, or when exposed to caustic alkalies. Baryta, in an 
 aqueous solution, resolves it into a volatile alkaloid, hyosgine 
 (Og Hi3 N), and the crystalline hyoscinic acid (Fliickiger and 
 Eoyle). 
 
 Actions and Uses. — Henbane closely resembles the other 
 Atropacese, belladonna and stramonium. It first stimulates and 
 subsequently exhausts and paralyses the sympathetic nervous 
 system. Compared with belladonna, poisonous doses have a 
 more marked sedative effect, a greater deranging action on the 
 cerebrum and motor centres, but like it kUl by respiratory ar- 
 rest (Harley). Medicinal doses are cardiac tonics and sedatives, 
 give steadiness to excited irregular heart action, stimulate and 
 contract arterioles, and usually quicken respiration. ' During 
 their excretion by the kidneys they exert specially on the urino- 
 genital organs their power of relaxing voluntary muscles and 
 the occluding fibres of hollow viscera. Whether given inter- 
 nally, or applied directly to the eye, henbane stimulates the ' 
 sympathetic ganglia and dilates the pupil. 
 
 It first increases and then depresses the force and number 
 of the heart beats ; it causes dryness of the mouth and throat. 
 Excessive doses notably affect the cerebrum and motor centres, 
 causing giddiness, reeling, dilated pupils, and delirium. It is 
 rapidly excreted unchanged in the urine (Dr. John Harley, Old 
 Vegetable Neurotics). Compared with opium, it acts less on 
 the brain and more on the heart and circulation, does not 
 diminish the secretion of the bowels or kidneys, dilates instead 
 of contracts the pupU, and is less effective either as an anodyne 
 or antispasmodic. Dr. Harley states that its effects closely re- 
 semble those of hemlock and opium given together. On cattle 
 and sheep it acts less powerfully than on horses, in which three 
 or four ounces of the infused leaves cause dilatation of the pupils, 
 spasmodic movements of the lips, acceleration and subsequently 
 
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QUIETS CARDIAC EXCITEMENT, 331 
 
 depression of the heart beats, but no symptoms of acute poison- 
 ing. Dogs are acted on exactly as by belladonna. Cats be- 
 come duU and drowsy, the mouth and nose rough and dry, the 
 pulse accelerated, the pupils dilated, the power of walking or 
 springing impaired (Harley). 
 
 Medicinal Uses. — Hyoscyamus is occasionally prescribed to 
 quiet excited tumultuous action of the heart, occurring especi- 
 ally in valvular disease. In such cases it will sometimes reduce 
 the pulse of the horse from 60 to 40 beats per minute. Ee- 
 laxing muscular fibre, and antagonising capillary congestion, it 
 relieves the pain of rheumatism and neuralgia. Given inter- 
 nally, as well as by injection, it abates irritability and spasm, 
 of the uterus, bladder, and intestines. As a calmative, antispas- 
 modic, and substitute for opium, Mr. Mayhew prescribes it for 
 dogs suffering from distemper, giving half a drachm of the 
 tincture with a drachm of ether it. cold soup. Combined with 
 drastic cathartics, it prevents griping without diminishing pur- 
 gation. French veterinarians use it in epilepsy, chorea, and 
 amaurosis (Delaford and Lassaigne). As an external anodyne, 
 belladonna or opium is generally preferred. 
 
 Doses, etc. — ^From collecting the plant at unsuitable seasons, 
 from their being long kept before being used, or from exposure 
 to high temperatures, many preparations of henbane are almost 
 inert. The succus or juice should be extracted under 200° 
 from freshly-gathered plants; the tincture obtained by ma- 
 ceration and percolation from two and a half ounces of coarsely 
 powdered leaves and one pint of proof spirit ; the extract made 
 'by the cautious evaporation of the expressed juice. f§jss. of 
 succus corresponds with about fJiLj. of tincture, f3j. of extract, 
 or grain j. of hyoscyamine. These are suitable doses for horses 
 or cattle; sheep and pigs take about one-eighth, dogs, one- 
 twelfth, of these quantities. The effects of full medicinal doses are 
 usually developed in an hour, and are intensified and prolonged 
 by combination with opium. It is occasionally prescribed with 
 belladonna, camphor, and chloral hydrate. 
 
 Hyoscyamine, conveniently used as a sulphate, Kke atropine 
 and daturine, stimulates, shortly exhausts, and paralyses the 
 sympathetic system. After a brief stage of preliminary excite- 
 ment, it lowers the force and frequency of the circulation ; large 
 doses cause paralysis of the capillary vessels and respiratory 
 
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332 HYDEOCHLOEIO ACID 
 
 arrest ; it dilates the pupil, and parches the tongue and mouth. 
 Small doses accelerate, large doses diminish, the movements of 
 the intestines ; small doses augment, large doses lower, temper- 
 ature ; results are not modified by section of the pneumogastric 
 nerve ; excretion takes place "wholly by the kidneys, and as it 
 is excreted, it exerts its relaxing anodyne effect on the urinary 
 passages (MM. Oulmont and Laurent in BartJwloutfs Mat. Med. 
 and Therapeutics). 
 
 HYDEOCHLOEIC ACID. 
 
 Acidum Hydrochloricum. Muriatic Acid. Spirit of Salt. 
 Hydrochloric Acid Gas (H 01) dissolved in water, and 
 forming 31 '8 per cent by weight of the solution. — Brit, 
 Fhar. . ' 
 
 When one volume each of hydrogen and chlorine are mixed 
 in simlight or flame, combination occurs with explosive violence, 
 and there result two volumes of pungent, acrid, irritating, hydro- 
 chloric acid gas. Water at 40° dissolves about its own weight, 
 480 volumes, or 43 per cent, of this gas, and forms a definite 
 compound of one equivalent of acid and three of water. The 
 acid of commerce and medicine is mostly got as a by-product in 
 the manufacture of sodium carbonate from common salt. The 
 Pharmacopoeia orders the distilling together of about equal weights 
 of sodium chloride, sulphuric acid, and' water. Acid sodium 
 sulphate remains in the retorts ; hydrochloric acid, distils over. 
 It is colourless, intensely sour and acrid, emits white pungent 
 fumes, has the spec. grav. 1-160, and contains 31'8 per cent of 
 gaseous acid. The diluted hydrochloric acid is made by mixing 
 eight fluid ounces of the stronger acid with water until the 
 mixture at 40° measures 26^ fluid ounces. It has the spec, 
 grav. 1'062, and contains 10'58 per cent of real gaseous acid. 
 Hydrochloric acid is distinguished by yielding with silver nit- 
 rate a curdy white precipitate (Ag CI), insoluble in nitric acid, 
 but soluble in ammonia. From careless preparation, it some- 
 times contains sulphuric and sulphurous acids, nitrous com- 
 pounds, chlorine, iron, occasionally with traces of arsenic. 
 
 Actions and Uses. — Concentrated doses are corrosive and 
 irritant; medicinal doses are astringent, antiseptic, tonic, and 
 
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CORROSIVE, ASTRINGENT, AND TONIC. 333 
 
 antidotes for poisoning by alkalies; externally, it is used as a 
 stimulant, astringent, antiseptic, and caustic. 
 
 Like tlie other mineral acids, and strong acetic acid, in concen- 
 trated solution, it has a strong affinity for the "water bases, and 
 even for the albuminoids of the tissues, and hence is a corrosive 
 irritant poison, inducing gastro-enteritis when swallowed. The 
 fitting antidotes are alkaline bicarbonafes, magnesian carbonates, 
 nulk, white of egg, and other demulcents. 
 
 By administration of acids, acid secretions are checked, al- 
 kaline secretions increased. Salivary and mucous secretions 
 are thus promoted, and thirst abated, especially when the acid 
 is conjoined with gentian or other bitters, which, like acids, 
 stimulate salivary secretion. Half an oimce gentian, with 
 twenty drops medicinal hydrochloric acid, dissolved in a pint 
 of water or of cold linseed gruel, and given several times daily, 
 relieves thirst, moistens the dry clammy mouth, aids digestion, 
 checks diarrhoea, and in relaxed chronic sore throat exerts 
 beneficial astringent and antiseptic effects. Where the acid 
 treatment of indigestion is appropriate, hydrochloric acid is 
 specially suitable, on account of its antiseptic properties, and 
 its aiding the solution of albuminoids, which are precipitated 
 by sulphuric acid (Einger). Small .doses, conjoined with bitters, 
 given along with the food, or shortly after eating, are particu- 
 larly suitable for those cases of atonic indigestion and acidity 
 depending upon undue secretion of gastric juice, or the irregular 
 excessive formation of acetic, lactic, or butyric acids — conditions 
 frequently occurring in lambs and calves, especially whilst feed- 
 ing on milk. Given alone, or with ferric chloride, it promotes 
 a healthier state of the bowels in animals troubled with worms. 
 In its passage through the digestive canal it becomes neutralised, 
 but probably sets free bihary and other acids (Einger). It has 
 a remarkably high diffusion power, diminishes the alkalinity of 
 the blood, exerts in all animals tonic and astringent effects, and 
 is advantageously prescribed, especially in convalescence from 
 acute inflammatory attacks, in febrile and exhausting diseases, 
 and in haemorrhages. 
 
 Externally it is used for the destruction of warts, as a 
 caustic and antiseptic dressing for cancerous and poisoned 
 wounds, for foot-rot in sheep, and occasionally as a styptic. 
 Dr. Angus Smith {Caitle Plague Beports) testifies to its being 
 
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334 INDIAN HEMP. 
 
 " a very efficient, cheap, and penetrating disinfectant." It is 
 suitable for saturating carcases infected with contagious disease, 
 and as it destroys effectually contagious germs, it enables such 
 remains to be safely Utilised for plant food. 
 
 Doses, etc. — Of diluted or medicinal acid horses take f3ss. 
 to f3ij. ; cattle, f 3ij. to f3iv. ; sheep and pigs, TT|_xv. to HLxx. ; 
 dogs, iTLiij. to TT^x., usually prescribed with forty or iifty times 
 its'TDulk of water ; often given along with bitters and ferric 
 chloride. 
 
 INDIAN HEMP. 
 
 Cannabis Indica. The dried flowering tops of the female plants 
 of Cannabis sativa, grown in India, from which the resin 
 has not been removed. — Brit. Thar. 
 Nat. Ord. — Urticacese. Sex. Syst. — Pentandria Digynia. 
 Most good authorities consider that, Indian hemp is derived 
 from Cannabis sativa or common hemp, modified by climate, 
 and secreting a larger amount of the special resinous juice. 
 The plant and its resinous exudate are used in India and Arabia 
 as intoxicants and narcotics in the various forms of churrus 
 ganjah bang and hashish. The dusky, green aromatic masses, 
 measuring about two inches long, are made up of the dark- 
 green peculiar-smelling tops, bearing the remains of the flowers 
 with the small leaves- and ripe fruit. Eectified spirit extracts 
 an amorphous brown resin, distillation separates a volatile oil, 
 which has been resolved into an odourless liquid — Cannabene 
 (Cjg H20), and its solid hydrate (Cjg H22). 
 
 Actions and Uses. — It is narcotic, anodyne, and antispasmodic. 
 Its effects on men and dogs are more notable than on horses and 
 cattle, to which I have repeatedly given a drachm of the extract 
 without observing any alteration in pulse, respiration, or tem- 
 perature. It nearly resembles opium, and Sir Robert Christison 
 states that he " has been long convinced that for energy, cer- 
 tainty, and convenience, Indian hemp is the next anodyne, hyp- 
 notic, and antispasmodic to opium, and often equals it" (Chris- 
 tison's Dis^etisatory).- Conjoined with hemlock and chloral 
 hydrate, promising results have been obtained in abating the 
 spasms of tetanus in horses. It is prescribed either as an ex- 
 tract or a tincture, the doses being the same as for solid opium 
 and laudanum. 
 
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PEEPAKATION AND PROPERTIES OF IODINE. 335 
 
 IODINE. 
 
 lodum. A non-metaUic element, obtained principally from the 
 ashes of seaweeds. — Brit. Phar. 
 
 Iodine is chieily found in sea-water, and thence passes into 
 the textures of sea plants and animals. It is mostly prepared 
 in Glasgow by breaking kelp — the semi-vitrified ashes of sea- 
 weeds — into small pieces, and dissolving in water, when sodium 
 chloride, carbonate, and sulphate, with potassium chloride, crys- 
 tallise out. The dense dark-brown iodine ley is decanted off, 
 contains the iodine chiefly in combination with sodium and 
 magnesium, and is generally mixed with one-eighth of its bulk 
 of sulphuric acid, which precipitates sulphur and more sodium 
 sulphate, and drives off carbonic, sulphurous, and hydrogen 
 sulphide gases. The acid fluid is transferred to leaden retorts, 
 heated to 140°, and mixed with manganese binoxide, when the 
 iodine volatilises in violet vapour, and condenses in spherical 
 glass vessels in gray lustrous scales, resembling black lead. In 
 the retorts there remain sodium and manganese sulphates and 
 water. A drier and purer iodine is sometimes obtained by 
 adding to the iodine ley a solution containing one part of copper 
 sulphat6 and two and a half of iron sulphate ; the whole of the 
 iodine is thrown down as copper diniodide, afterwards decom- 
 posed by sulphuric acid and manganese binoxide. By a recent 
 patent process, the dry seaweed is at once economically sub- 
 jected to distillation in iron retorts, and yields iodine as well as 
 other products. From the mother waters of the Peruvian salt- 
 petre mines, large quantities of pure iodine are now obtained. 
 
 Properties. — Iodine usually occurs in soft friable black or 
 blue-black laminar crystals of a metaUic lustre. Its spec.grav. 
 is 4'95. It has an acrid,' disagreeable taste, and a pungent, 
 unpleasant odour, resembling that of chlorine or sea-water. 
 Applied to the skin, it produces a yellow stain, readily removed 
 by alkalies. At ordinary temperatures it slowly evaporates ; 
 at 239° it melts; at 39-2° it boUs, volatilising entirely in dis- 
 tinctive, violet-coloured, irritating, antiseptic vapours, nine times 
 as heavy as air. "With water it forms a brownish-yellow solu- 
 tion, which contains, however, only one seven-thousandth part 
 of iodine. It is entirely dissolved by twelve parts of rectified 
 
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336 IODINE 
 
 spirit, and by still smaller quantities of ether, volatile oils, and 
 many saline solutions, of whicli the most commonly used is 
 solution of potassium iodide, with which iodine forms a red- 
 brown fluid. It is also readily soluble in chloroform and car- 
 bon bisulphide, with which it forms Yiolet solutions. It readily 
 unites with bases, and forms many mediciaal compounds. 
 Iodides of the alkalies closely resemble iodine in their actions ; 
 iodides of the heavy metals partake chiefly of the properties of 
 the base. Iodine is easily distinguished by its characteristic 
 odour, by the brown stain it leaves on the fingers, by the violet 
 coloured vapour it evolves when heated, and by the blue com- 
 pound it forms with a cold solution of starch. This starch test 
 is inapplicable when iodine is in combination, from which, how- 
 ever, it is readily set free by a drop of weak chlorine solution 
 or of diluted nitric acid. 
 
 Impurities. — On account of its extensive use and high 
 price, iodine is apt to contain intentional adulterations as 
 well as accidental impurities. Black lead, and other such 
 fixed substances, remain as a residue when the sophisticated 
 article is heated. Water, sometimes present in the proportion 
 of fifteen or twenty per cent, adheres in minute drops to the 
 iodine scales ; which, if rolled in bibulous paper, moisten it, or, 
 if shaken in a dry phial, stick to its sides. The purity tests 
 of the British Pharmacopoeia are as follows : — " It sublimes 
 without leaving any residue, and the portion that first comes over 
 does not include any slender colourless prisms (of cyanogen 
 iodide) emitting a pungent odour. 12-7 grains dissolved in an 
 ounce of water containing 1 5 grains of potassium iodide, require, 
 for complete decoloration, 1000 grain measures of the volumetric 
 solution of sodium hyposulphite." 
 
 Actions and Uses. — Large doses are irritant and corrosive. 
 The vapour inhaled causes irritation, cough, and spasm of the 
 glottis. Medicinal doses stimulate the secreting glands and 
 vessels, are alterative and deobstruent, arrest thirst and exces- 
 sive secretion of urine, and have a specific effect in checking 
 polyuria in horses. Given for a lengthened period, it produces 
 wasteful tissue-change, with a debilitated, depraved state, termed 
 iodism. Externally it is used as a stimulant, antiseptic, counter- 
 irritant, and deobstruent. It is a feeble antiseptic, but an 
 effectual deodoriser and disinfectant. 
 
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IRRITANT, ALTERATIVE, AND DEOBSTRUENT. 337 
 
 General Actions. — Applied to the skin or mucous surfaces, 
 it causes an orange-yellow stain, redness, and irritation; placed 
 in the areolar textures, it induces inflammation and ahscesses ; 
 inhaled as vapour, it excites cough and bronchial irritation. 
 Two or three drachms of solid iodine, given to dogs, are speedily 
 evacuated by vomiting ; but when the oesophagus is tied, they 
 cause fatal gastro-enteritis in two to seven days, leaving nume- 
 rous yellow spots and little ulcers in the stomach, and a 
 peculiar rose tint of the Uver (Cogswell). Hertwig found 
 that such doses killed every dog to which they were given, 
 inducing sero-sanguineous exudation and hsematuria. Horses 
 and cattle are less susceptible, both of the local irritant and 
 general constitutional effects of iodine, probably depending on 
 the presence in their alimentary canal of large quantities of 
 starch, which convert the iodine into the mild, insoluble starch 
 iodide. Hertwig mentions that doses of forty to sixty grains, 
 given to horses twice daily for fourteen days continuously, 
 caused merely slight diarrhoea, with black evacuations and, in- 
 creasing emaciation. Professor Dick repeatedly gave horses 
 large quantities for several weeks, without observing any other 
 symptom than the total refusal of water. In one case, he gave 
 for three weeks doses averaging two drachms per day, and 
 amounting, towards the end of the experiment, to two ounces 
 daily. Several ounces have also been given to cattle with the 
 like negative results. In many of these cases the iodine, having 
 been given in the solid form, must have been slowly, perhaps 
 only partially, dissolved and absorbed. In horses and cattle, 
 as well as in other patients, iodine in a properly soluble form 
 stimulates secretion of nasal mucus and saliva, and of the 
 digestive, biliary, and pancreatic fluids ; it increases tissue-change 
 and the removal of waste products ; it improves the appetite. 
 Under its influence various morbid processes are checked, 
 excessive thirst and inordina!te excretion of urine are arrested, 
 and glandular enlargements absorbed. 
 
 The condition of iodism produced by prolonged administra- 
 tion is accompanied by loss of appetite, irritation of the mucous 
 membrane of the nostrils, eyes, throat, and digestive organs, a 
 vesicular skin eruption, abstinence from water, languor, inap- 
 titude for exertion, and elevation of temperature. In human 
 patients wasting of the testicles and mammse has been ob- 
 
 <7. 
 
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338 IODINE 
 
 served ; and in the bull, atrophy of the testicles, with loss of 
 sexual desire (Morton). But aKke in man and the lower 
 animals iodism is now exceedingly rare. Where it occurs, it is 
 arrested by withholding the medicine ; exhibiting starch, so as 
 ■ to convert any unabsorbed iodine into the innocuous starch 
 iodide ; and giving mineral tonics, bitters, and nutritive diet. 
 
 Iodine produces its effects by whatever channel it enters the 
 body. Mingled with alkaline secretions it becomes dissolved ; 
 as an iodide, or occasionally as an iodate, it is readily absorbed ; 
 even after a single dose it may be detected in many of the 
 secretions, in the blood, sweat, saliva, milk, and especially in 
 the urine, by adding to them a cold solution of starch, and then 
 a little chlorine or a few drops of nitric acid, when the blue 
 starch iodide is formed. It leaves the body chiefly in the 
 urine. It is closely allied to chlorine and bromine in physiologi- 
 cal, as well as in chemical characters. It resembles mercury in 
 its alterative and antiseptic properties, its stimulating secretion, 
 and producing specific blood-poisoning. It is, however, less 
 powerful than mercury, more limited in its antiphlogistic 
 functions, and more suitable for chronic than acute cases. 
 Iodine is not cumulative ; it has been given to man in small 
 doses for many months continuously, and even for more than a 
 year, without deleterious consequences, whilst its effects, unlike 
 those of mercury and lead, cease whenever its administration 
 is discontinued. The potassium and sodiuiii iodides retain the 
 chief properties of iodine, only being less powerful, and more 
 apt to act on the kidneys. The iodides of iron, copper, lead, 
 and mercury, exhibit, however, mainly the actions of theu 
 powerful bases. 
 
 Medicinal Uses. — Iodine is prescribed as an alterative and 
 resolvent in the second stages of inflammation, after acute 
 symptoms are subdued. It aids the removal of hydrothorax 
 and ascites, of recent exudations on mucous membranes, and oj 
 glandular enlargements, as is well Ulustrated in its curative 
 effect in diseased thyroid gland — a complaint occasionally met 
 with in human patients, and known as goitre, or Derbyshire 
 neck. Amongst the lower animals it is given in enlargements 
 of the liver and udder, in rheumatism, especially of a chronic 
 nature, and amongst cattle, in disease of the mesenteric glands 
 pulmonary consumption, enlarged joints, and other scrofulous 
 
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ARRESTS POLYURIA IN HORSES. 339 
 
 affections. But in no veterinary cases is iodine of such decided 
 and unfailing advantage, as in that variety of diabetes inspidus 
 or polyuria which affects horses. In this disease, twenty to 
 thirty pints of urine are often evacuated daily, the animal 
 suffers from intense and insatiable thirst, and rapidly loses 
 strength and flesh. The symptoms, however, even when very 
 aggravated, yield almost immediately to the use of iodine ; the 
 thirst disappears, the urine is reduced to its normal quantity, 
 and the animal is restored to perfect health, often within two 
 or three days. The modus operandi of iodiae in curing this 
 polyuria is not very evident, the removal of thirst being the 
 only apparent physiological action capable of exerting any 
 curative influence. Neither iron, quinine, arsenic, nor other 
 effective alterative or tonic is to be depended upon in such cases. 
 Potassium iodide is not neady so effectual as the crude iodine. 
 Iron iodide answers very fairly, but is more expensive and 
 difficult to procure and preserve. Mr. Thomas A. DoUar, of 
 New Bond Street, iafoims me that although he has experi- 
 mented in these polyuria cases with various more correct 
 chemical conibiuations, he finds nothing more reliable than the 
 following old-fashioned formula : — Iodine, half a drachm ; iron 
 sulphate, two drachms ; powdered gentian, half an~ ounce; — 
 made into bolus with treacle, syrup, or meal and water. This 
 is repeated once, in bad cases twice, daily ; rarely are more 
 than six doses reqidred to effect a perfect cure. In allaying 
 the cough and irritability of catarrh, sore throat, and bronchitis 
 of an epizootic type amongst horses, a useful combination con- 
 sists of half a drachm each of iodine, potassium iodide, camphor, 
 and belladonna extract. Inhaled in vapour largely diluted 
 with steam and air it soothes the irritable respiratory surfaces 
 in catarrh in horses, and abates hoose in calves. In chorea 
 and epilepsy in dogs, iodine is of little value. 
 
 It is seldom applied directly for irritant or caustic purposes, 
 but is much used as - a stimulant and resolvent, iu chronic 
 swelliiigs of joints, bursal enlargements, strains of tendons, 
 thickening of the periosteum, scrofulous and other tumours, and 
 indurations of the udder. It is occasionally applied in sore 
 throat in horses ; whilst it is rubbed into the chest in 
 pleurisy to arrest the formation of exudate, and hasten the 
 removal of what may have been outpoured. To act as a 
 
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340 IODINE : 
 
 stiimilating antiseptic and promote adhesion, it is injected into 
 cysts and abscesses from which serum or pus has been withdrawn. 
 It proves useful in such skin eruptions as eczema, psoriasis, 
 and lupus, as also in scab, mange, and ringworm ; often being 
 mixed with sulphur or mercurial preparations, or alternated 
 with them. For the cure of indolent ulcers, the raw surface is 
 sometimes covered by a piece of lint, spread with Simple cerate; 
 this is sprinkled with one to five grains of iodine ; over this 
 again is placed a piece of oiled silk or tinfoil. Excess of 
 iodine must be avoided, otherwise a corrosive instead of a heal- 
 ing action is produced. For stimulating and deodorising 
 unhealthy and malignant wounds. Professor Spence uses the 
 diluted tincture. Iodine is an expensive but effective deodor- 
 iser and disinfectant, decomposing noisome organic compounds 
 by uniting chiefly with their hydrogen, and also destroying the 
 lower forms of vegetable and animal life. It is contra-indicated 
 in high fever, acute inflammation, and derangement of the 
 bowels ; and Hertwig considers that in most affections of the 
 eyes, even in those, of a chronic kind, it does more harm than good. 
 Doses, etc. — For horses, grs. xx. to 3i- ; for .cattle, 3ss. to 
 3iss ; for sheep, grs. xv. to grs. xl. ; for pigs, grs. x. to grs. xx. ; 
 for dogs, grs. iij. to grs. viij. Such doses are repeated once 
 or. twice daily; given some considerable time after eating, so as 
 to prevent their conversion into the mild, insoluble starch iodide; 
 continued for a week or ten days, withheld for a day or two, 
 and, if necessary, again resumed. Larger doses are often given 
 with impunity, but usually without increased curative result. 
 Iodine is often given in bolus ; but handy although this form 
 undoubtedly is for horses and dogs, it is less certain than a good 
 fluid preparation, such as is obtainedby shaking two parts of iodine 
 and one of potassium iodide in six or eight parts of water. The 
 potassium iodide ensures the perfect solution and fuU action of 
 the iodine. This concentrated solution is diluted with water as 
 required ; the dose is easily ascertained, for the iodide is about 
 half as powerful as the iodine itself. Tinctures have nothiQg 
 to recommend them in preference to the cheaper watery solu- 
 tions, and, like them, should be made with potassium iodide, 
 otherwise they do not bear dilution. For external purposes, 
 the compound aqueous solution is usually suitable. As a 
 counter-irritant, about one part of iodine, with one half of 
 
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DRESSINGS FOR MANGE. 341 
 
 potassium iodide to ensure solution, is used with eight of water 
 or of fatty matters ; but where a gentle stimulant effect is de- 
 sired, with absorption of the iodine, the preparations should be 
 used of half this strength. For dressing wounds, ten grains 
 each of iodine and potassium iodide to an ounce of water 
 usually suffice. Half an ounce of iodine, a quarter of an ounce 
 of potassium iodide, an ounce of tar, and eight ounces lard or 
 oil, make a serviceable mange dressing. 
 
 Sulphur iodide, useful for stm diseases, is prepared by mix- 
 ing, in a Wedgwood ware mortar, four ounces of iodine with one 
 of sublimed sulphur, and gently heating the mixture until it 
 liquefies. The red-brown liquid, as it cools, becomes a gray- 
 black crystalline mass, insoluble in water, but soluble in 
 •glycerin and fats, with eight or ten parts of which it is 
 mixed for ointments or liniments. Such preparations are par- 
 ticularly suitable for itchy skin complaints ; and not being 
 poisonous, are used for mangy dogs, without risk of injury from 
 the dressing being licked or absorbed. 
 
 IPECACUAK 
 
 Ipecacuanba. The dried root of Cephaelis Ipecacuanha. 
 Imported from Brazil.— 5ri^. Phar. 
 
 Nat. Ord. — Cinchoiiaceae. Sex. Syst. — Pentandria Monogynia. 
 
 The Cephaelis Ipecacuania is a Brazilian shrub, two to 
 three feet high., The root, the only of&cinal part, is usually 
 collected during the first three months of the year. It occurs 
 in twisted, knotted, annulated pieces, three or four inches in 
 length, of the thickness of a qmll, and covered with a brittle 
 brown bark, which constitutes fully three-fourths of the root, 
 and is of greater medicinal value than the toiigh, white, internal 
 woody matter. The powder is gray-brown, has an acrid, bitter 
 taste, a faint nauseous odour, and communicates its properties 
 to hot water, alcohol, and weak acid solutions. Besides 30 
 per cent of starch, a large amount of pectin, and a little resin, 
 fat, albumin, and gum, it contains an odorous volatile oil, the 
 amorphous, red-brown, bitter astringent ipecacuanhic or cephaelic 
 acid, and, in combination with it, about one per cent of a colour- 
 less, uncrystaUisable, slightly bitter, irritant alkaloid called eme- 
 
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342 IPECACUAlir AND EMETINE 
 
 tine or emetia (Cjo H30 Ng O5). Emetine is also present in the 
 striated and undulated ipecacuans, neither of which is, how- 
 ever, recognised by the PhannaeopcEia. 
 
 Actions and Uses. — Ipecacuan is an irritant. Howsoever 
 introduced into the hody of camivora, it stimulates the vomiting 
 centre, cauBiQg emesis. Full or repeated doses paralyse the 
 nervous centres, lower the action of the heart and the animal 
 temperature, and arrest respiratory movement (Dr. OmeUas). 
 It is excreted through the bronchial and gastro-intestinal mucous 
 membranes and skin, and to a less extent through the kidneys, 
 irritates during its elimination these excretory channels, and, in 
 properly regulated doses, acts as an expectorant, diaphoretic, and 
 in larger amounts, as a cathartic. "Whilst full doses stimulate 
 the special nervous centre and induce vomiting, smaU and 
 repeated doses impart tone to the perverted centre, and often 
 arrest vomiting. 
 
 The powdered root or alkaloid applied to a mucous surface, 
 or rubbed into the skin, causes irritation and pustular eruption. 
 Full doses induce, in dogs and cats, vomiting, muscular relax- 
 ation, failure of the heart's action, reduction of temperature, 
 albuminous urine, and collapse in twenty-four or thirty-six 
 hours. After death, dark-coloured blood is found to fill both 
 sides of the heart, the respiratory and digestive mucous mem- 
 branes are inflamed, the lungs are congested (Dr. Dyce Duck- 
 worth, St. Bartholomew's Hospital Reports, vols. v. and vii.) Pro- 
 fessor Eutherford found that 60 grains ipecacuan powerfully 
 stimulated the liver of dogs ; even three grains had an effect on 
 a dog weighing 1 7 lbs. ; no purgative effect was produced, but 
 an increased amount of mucus was secreted from the small 
 intestine {Journal of Anatomy and Physiology, October 1876). 
 As an emetic for dogs, cats, and pigs, ipecacuan acts more slowly 
 and gently than zinc or copper sulphates ; whilst it produces 
 less nausea but more direct depression of the heart than tartar 
 emetic. In emetic and expectorant effects it resembles squill. 
 Bracy Clark states that three ounces will kill a horse. 
 
 Ipecacuan is prescribed to empty the stomach of dogs and 
 other carniVora of undigested food and irritants. Promptly to 
 remove poisons, mustard or zinc sulphate is preferable. Along 
 with the contents of the stomach, which usually is evacuated 
 in ten or fifteen minutes after the emetic has been swallowed. 
 
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EMETICS AND EXPECTORANTS. 343 
 
 there is outpoiired a profuse secretion from the respiratory 
 mucous membrane, which often gives great relief in the early- 
 dry stages of catarrh, and also proves useful in cutting short 
 inflammatory attacks, especially of the eyes, train, and air-pass- 
 ages. Moreover, from the liver and portal system the fuU 
 action of the emetic also removes morbid matters (p. 45). Even 
 "where doses insufiicient to cause emesis are used, and in patients 
 where emesis never occurs, ipecacuan freq[uently promotes salu- 
 tary discharges from the dry congested respiratory membrane. 
 In mucous catarrh and sore throat amongst horses, where the 
 patient is feverish, the buccal and Schneiderian membranes hot 
 and dry, Mr. Thomas A. Dollar, of New Bond Street, sometimes 
 gives a drachm of powdered ipecacuan, with an ounce of medi- 
 cinal ammonia acetate solution, in a pint of water, repeating 
 the dose several times daily. Delaford and other French 
 veterinarians, believing that it gently stimulates the bowels 
 and allays irritation, prescribe half-drachm doses ia diarrhoea and 
 dysentery in cattle. Following Dr. Einger's practice with human 
 patients, drop doses of ipecacuan wine are given at half-hourly 
 intervals to arrest vomiting in weakly dogs, and for this purpose 
 it is advantageously conjoined with mix vomica or morphine. 
 
 Doses, etc. — Of the powder, as an emetic, dogs take grs. xv. 
 to grs. XXX. ; cats, grs. v. to grs. xij. ; pigs, grs. xx. to grs. xxx., 
 given in tepid water, either alone or with half a grain to a grain 
 of tartar emetic. Mr. Mayhew recommends for the dog four 
 grains ipecacuan, quarter of a grain tartar emetic, with a dessert- 
 spoonful of antimonial wine, dissolved in an ounce of tepid 
 water, and repeated every haK-hour until vomiting takes place. 
 Some practitioners use the celebrated Dover's powder, or its 
 pharmaceutical imitation, made by triturating together one part 
 each of ipecacuan and opium, and eight parts of potash sulphate.' 
 Of this useful expectorant and diaphoretic horses and cattle 
 take 3i. to 3iij. ; sheep, grs. xxx. to 3L ; dogs, grs. x. to grs, 
 XV. ; cats, grs. ii. to grs. v. ; repeated four or five times daily, 
 the patient supplied with plenty of diluents, and kept in a warm 
 atmosphere or comfortably clothed. The ipecacuan wine of the 
 Pharmacopoeia is prepared by macerating an ounce of bruised root 
 with a pint of sherry. The acetum is more active and cheaper than 
 the vinum, and is made by macerating 2^ ounces of the coarsely- 
 powdered root for seven days in a pint of diluted acetic acid. 
 
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344 IRON SALTS 
 
 Emetine, -when mhaled even in minute amount, irritates 
 the mucous surfaces of the head and air-passages, and induces 
 symptoms analogous to hay fever. Two grains swallowed by a 
 dog caused violent vomiting, inflammation of the stomach and 
 intestines;^ stupor, and death in twenty-four hours (Majendie). 
 It irritates the mucous membranes and denuded skin, is ehmi- 
 nated by the mucous surfaces and liver, causiag vomiting and 
 alvine evacuations, it paralyses respiration, lowers temper- 
 ature, and relaxes voluntary muscles (Dr. A. E. D. Ornellas, 
 Pharmaceutical Journal, January 1874). 
 
 lEON AND ITS MEDICINAL COMPOUNDS. 
 Iron. Perrum. Ferrum redactum. Pulvis ferri. Fe. 
 
 Iron is a lustrous, gray metal, tenacious, malleable, ductile, 
 readily welded at a white heat, and with a specific gravity of 
 7"84. It is attracted by the magnet, and becomes itself mag- 
 netic. It is a normal constituent of plants and animals. It 
 occurs in small quantities uncombined, and probably of meteoric 
 origia, and exists abundantly in the form of oxide carbonate and 
 sulphide. The metal is extracted by roasting the ore, when the 
 iron is reduced to an impure ferric oxide. In the blast furnace, 
 in contact with burning coal, limestone, and sand, the impurities 
 are transferred to the fusible slag, whilst the metal, retaining 
 four or five per cent of carbon and silicon, is drawn out as pig 
 or cast iron. In the manufacture of bar or wrought iron, thfe 
 cast-iron is exposed to hot air on the refining hearth, to a high 
 temperature in the puddling furnace, and to squeezing under 
 the steam hammer ; the most of the carbon, silicon, sulphur, 
 and phosphorus is thus removed; whilst .by subsequent pressure 
 under heavy rollers, greater tenacity and more fibrous texture 
 are imparted. Steel is made by heating wrought-iron in con- 
 tact with charcoal, of which it takes up 1 to 1"5 per cent. 
 
 With other elements and radicals, iron unites in two 
 proportions : it forms the lower proto or ferrous salts, in which 
 it is diatomic and magnetic ; and the higher per or ferric salts, 
 in which it is triatomic and non-magnetic. 
 
 The ferrous salts are usually green, and in solution give. 
 
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IRRITANT, ASTRINGENT, AND TONIC. 345 
 
 with liydrocHoric acid and hydrogen sulphide, negative results ; 
 with ammonium hydrosulphide, a black precipitate of hydrated 
 sulphide (Fe S, H^ 0) ; with caustic alkalies, white or gray 
 precipitates of hydrated protoxide (Fe 0, Hj 0) ; with potas- 
 sium ferrocyanide, a Light-blue precipitate, gradually becom- 
 ing darker by oxidation (re4 Feyg, Hg 0); with potassium 
 ferridcyanide, a precipitate dark blue from the first (Fcg 
 Fdcy^, HgO). 
 
 The ferric salts are mcjstly brown or red, and in solution 
 exhibit with hydrochloric acid, a negative reaction ; with 
 hydrogen sulphide, give a white precipitate of sulphur ; with 
 ammonium hydrosulphide, the black hydrated sesqui-sulphide 
 (Feg Sg, Hj 0) J with caustic alkalies, a brown-red precipitate of 
 ferric hydrate (Fcj Og, H^ 0) ; with potassium ferrocyanide, a 
 deep-blue precipitate of Prussian blue at once goes down (Fe4 
 Feyg, H2 0) ; with potassium ferridcyanide, no precipitate, but a 
 green or olive decoloration ; with solution of galls, neutral iron 
 solutions yield a blue-black precipitate — the basis of writing- 
 ink. 
 
 Actions and Uses. — Iron appears to have been the first 
 mineral substance used in medicine, and some of its compounds 
 have been administered for three thousand years. As filings 
 or pulvis ferri it is occasionally given in poisoning by soluble 
 salts of mercury and copper. Iron salts are astringent, styptic, 
 and tonic ; large doses of the more soluble per-salts are also 
 irritant and corrosive. Although exerting little effect on the 
 unbroken skin, the soluble preparations applied to mucous or 
 skin abraded surfaces eombitie with albumin, coagulate blood, 
 and are powerful astringents. The metal in a finely divided 
 state and the insoluble salts, when swallowed, are dissolved by 
 the gastric fluids. Ferrous salts are converted in the stomach 
 and duodenum into the corresponding ferric ; organic com- 
 pounds are reduced to the carbonate. The salts are probably 
 absorbed as albuminates. In anaemic cases, when iron has 
 been iasuf&cient in the food, or wasted by haemorrhage or 
 disease, iron salts are direct restoratives. They supply the 
 iron requisite for the formation of the haematin, and the pro- 
 duction and nutrition of the blood globules, which contain about 
 ■g^th part of iron. But besides restoratives, iron salts are also 
 general tonics and astringents. Any excess not required for 
 
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346 IRON OAEBONATE. 
 
 nutrition, reduced in great part to the condition of sulphide, is 
 eliminated in the bile, with the intestinal mucus, and in the 
 urine, often communicating its dark colour to the excreta. When 
 iron salts are administered for several weeks to rabbits the 
 blood and tissues gradually become saturated, and excretion with 
 scarcely any loss occurs in the urine (Brlicke). In Pereira's 
 and other works on human materia medica, upwards of forty 
 iron salts are enumerated ; but as they differ only in the degree 
 of their action, the ferrous carbonate, sulphate, and iodide, with 
 the ferric oxide and chloride, suffice for veterinary purposes. 
 Iron arsenite has recently been prescribed in squamous and 
 herpetic skin diseases, ia about the same doses as arsenic, and 
 is also applied externally. Citrate of iron and quinine, con- 
 joining the tonic properties of its components, is occasionally 
 prescribed ia dog practice, in doses of four to ten grains. The 
 phosphate is a mild chalybeate, recommended on account of 
 its being the form in which iron occurs in the blood, supposed 
 to be particularly assimilable, and specially suitable in strumous 
 diseases of the bones. 
 
 Iron Carbonate. Ferri carbonas. Ferrous Carbonate. Fe CO3. 
 Saccharated Carbonate of Iron. Ferri Carbonas Saccharata. 
 
 , The lower or ferrous carbonate occurs in the clay iron ore, 
 and ia many mineral waters. It is prepared by decomposiag a 
 solution of iron sulphate by solution of ammonium carbonate. 
 It is grayish-green, has a chalybeate iaky taste, and dissolves 
 with brisk effervescence in hydrochloric acid. Exposed to the 
 air, it rapidly absorbs oxygen, gives off carbonic acid, and be- 
 comes converted into ferric oxyhydrate — a change constantly 
 taking place along the banks of chalybeate streams. To pre- 
 serve it in a stable form, the saccharated carbonate has been 
 iatroduced. It is made by rubbing the freshly.-prepared car- 
 bonate with sugar in a porcelain mortar. It occurs in small 
 coherent gray lumps, has a sweet, very feeble chalybeate taste, 
 and should contain at least fifty-seven per cent of carbonate 
 (British Pharmacopceia). 
 
 Actions and Uses. — On account of its iastabDity, the car- 
 bonate itself is not used. Its saccharated form is readily 
 soluble ; is a mild chalybeate ; especially convenient in canine 
 
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IRON SULPHATE. 347 
 
 practice, and administered for the same purposes and in the 
 same doses as the sulphate. 
 
 Iron Sulphate. Ferri Sulphas. Ferrous Sulphate. Green 
 Vitriol. Copperas. Fe, SO^, 7 Hg 0. 
 
 Iron sulphate may be got by dissolving iron in sulphuric 
 acid ; it is the by-product in the making of hydrogen sulphide ; 
 but the large supplies required in the arts and in medicine are 
 obtained from a clay shale or alum schist, highly impregnated 
 with iron pyrites or bisulphide (Fe S2). Such schists yield 
 both iron sulphate and alum (p. 148). Broken iato fragments, 
 they are placed in large heaps, frequently wetted, and exposed 
 to the air for several months. By oxidation and cheitiical 
 combination are formed iron and aluminum sulphates. Water 
 is freely added, and the solution evaporated, when the iron 
 sulphate crystallises out, leaving in solution the more soluble 
 aluminum sulphate. 
 
 Properties. — Iron sulphate occurs in bluish-green, oblique 
 rhombic prisms, which, on exposure to the air, gradually 
 oxidise, becoming opaque, and covered with a brown coating 
 of oxysulphate ; an excess of sulphuric acid retards this oxida- 
 tion. Its specific gravity is 1"82. It has an intensely inky, 
 metallic taste ; is insoluble in rectified spirit, but soluble in 
 one-third of its weight of boiling water and twice its weight 
 of cold water. Heated, it fuses, readily parts with six atoms 
 of water of crystallisation, retaining, however, the seventh more 
 tenaciously. Its distinguishing tests are those of other ferrous 
 salts detailed above (p. 345). 
 
 Actions and Uses. — ^When swallowed it is restorative, tonic, 
 and astringent, and in large doses irritant. Applied externally, 
 it is stimulant, astringent, styptic, and antiseptic. 
 
 General Actions. — Two drachms introduced into the 
 stomach of dogs occasioned vomiting and death in twenty-four 
 hours, with redness of the alimentary mucous membrane, and 
 the formation of a thick layer of tough mucus ; the same 
 quantity applied to a wound, proved fatal in twelve hours 
 (Ghristison on Poisons). These irritant effects are less notable 
 amongst horses and cattle. They are counteracted by solutions 
 of galls, alkaline carbonates, and demulcents. Supplying the 
 iron so essential to the heematin, the ferrous sulphate proves a 
 
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348 IKON SULPHATE 
 
 direct restorative. In rapidly-growing weakly subjects, in 
 scrofulous cases, during recovery from debOitatiag disease, the 
 blood globules are sometimes notably deficient ; tbey are often 
 reduced to half, and even sometimes to one-sixth, of their 
 normal amount. Iron salts cause their gradual increase, and 
 hence impart to the pallid weakly tissues the ruddy hue and 
 vigour of robust health. Eestoriag iron to faulty haematin 
 does not, however, explain all the curative virtues of iron. 
 Copper, zinc, and silver salts, with quinine and cod-liver oil, 
 although supplying no iron to faulty hsematin, produce 
 analogous tonic effects. Like these metallic salts and vege- 
 table tonics, in addition to restorative or nutrient powers, iron 
 sulphate exerts chemical astringent and vital invigorating 
 effects, and has besides antiseptic properties. To such influ- 
 ences are due its arresting irritation and inflammation of 
 lymphatic glands, and its diminishing the size and increasing 
 the firmness of the spleen, mentioned by Weinhold as the 
 common effect of its continued exhibition to dogs (Pereira's 
 Mements, 3d edit.) Iron sulphate is the cheapest and most 
 convenient preparation of iron, is more soluble and active than 
 the metal or oxides, but less corrosive and astringent than the 
 ferric chloride and nitrate. It is not so irritant or corrosive 
 as the corresponding salts of copper or zinc. 
 
 Medicinal Uses. — Iron sulphate is beneficially administered 
 to all veterinary patients in ansemia, and the various disorders 
 connected with it. No remedy is more effectual in dysentery, 
 consumption, and other forms of scrofula ; in relaxed conditions 
 of the mucous membranes ; in wasteful serous or bloody dis- 
 charges, as in diabetes, red-water in cattle, purpura, and other 
 haemorrhages ; in indigestion and diarrhoea depending upon 
 local atony or general weakness ; in antagonising erdargements 
 of the spleen and hver (CruveUler) ; in chorea and epilepsy in 
 delicate anaemic patients, and in convalescence from most acute 
 debilitating diseases. In conjunction with readily assimilable 
 nutritive food no remedy is so valuable in those anaemic cases 
 which affect young cattle and sheep kept late in autunm on 
 grass which has lost its nutritive value. With a bottle or two 
 of ale, two drachms are given twice daily to horses to improve 
 the appetite and check the progress of farcy, nasal gleet, and 
 chronic relaxed conditions of the mucous membranes. Full doses 
 
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RESTOKATIVE, TONIC, AND ASTRINGENT. 349 
 
 of the powder or strong solution shrivel and destroy intestinal 
 worms, and, farther, impart a healthier condition of the bowels 
 unfavourable to the development of parasites ; whilst as an in- 
 jection it brings away ascarides lodged in the rectum. Although 
 itself devoid of purgative effect, it increases the activity of 
 most cathartics with which it is combined. It is applied for 
 the ordinary purposes of a stimulant, astriagent, and styptic, 
 usually in the form of powder or watery solution. As an anti- 
 septic it is much inferior to ferric or zinc chlorides. Iron sul- 
 phate is contra-indicated where there is fever, active inflammation, 
 or irritability of the bowels. During early convalescence from 
 inflammatoiy complaints, milder tonics are often preferable. 
 
 Doses, etc. — Horses take. 3i- to 3iij. ; cattle, 3ij. to 3iv. ; 
 sheep, grs. xx. to grs. xxx. ; pigs, grs. x. to grs. xx. ; and dogs, 
 grs. V. to grs. x. These doses are made into bolus with linseed 
 meal and treacle, dissolved in water, or mixed with soft food, 
 and repeated two or three times a day. They are often con- 
 joined with other medicines. Thus, in want of tone and tor- 
 pidity of the bowels, and for removing worms in horses, a 
 drachm is given daily, with one or two drachms of aloes. A 
 useful tonic bolus for horses is prepared with -two drachms of 
 green vitriol and half an ounce each of ginger and gentian, 
 made up with treacle or Canada balsam, and repeated twice or 
 thrice daily. The same ingredients dissolved in a pint of ale or 
 gruel prove a valuable tonic for cattle. These quantities make 
 three doses for sheep, and eight or ten for dogs. Thirty grains, 
 with a drachm each of common salt and nitre, are recommended 
 to arrest the progress of sheep-rot. After iron sulphate has 
 been used for several days, it is advisable to withhold it alto- 
 gether for a day or two, or replace it during that time by some 
 other tonic. This prevents gastric derangement, and also main- 
 tains the continued efi&cacy of the medicine. Care should fur- 
 ther be taken that, during its use, the bowels be kept open by 
 the occasional exhibition of laxatives, which are especially 
 necessary in horses and dogs, on account of their liability to 
 suffer from the astringent and constipating action of iron salts. 
 The dark colour and disagreeable odour which the faeces usually 
 acquire during a chalybeate course, depend on the production, 
 in the intestines, of the sulphide, and generally indicate that 
 the medicine is being given in unnecessarily large doses. 
 
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350 IRON IODIDE AND PEROXIDES. 
 
 Iron Iodide. Ferri lodidum. Ferrous Iodide. Fe l2,4 Hj 0. 
 
 When iodine, iron wire, and distilled water are gradually 
 heated together', combination occurs ; and the solution, filtered 
 and evaporated, yields flat green crystals with a brown tinge, 
 inodorous, having a styptic metallic taste, and soluble in about 
 their own weight of water and alcohol. ' The solid iodide con- 
 tains about 1 8 per cent of water of crystallisation, with a little 
 oxide ; when heated, it gives off violet-coloured fumes of iodine : 
 when exposed to the air it deliquesces and acquires a red-brown 
 colour. This oxidation is retarded by keeping the solution 
 secluded from light, and in well-stoppered bottles containing 
 portions of fresh iron wire ; by boiling the freshly-prepared 
 solution in syrup ; or by casting the iodide into small plates or 
 cylinders, and at once dipping it in pure stearin, which can be 
 scraped off when the salt is required for use. 
 
 Actions and Uses. — ^It is tonic, alterative, and astringent. 
 Poisonous doses are irritant, and produce the effects of iron 
 rather than of iodine. Thus, Dr. Cogswell found that three 
 drachms caused in dogs purging and vomiting; whilst one 
 drachm iu concentrated solution killed a rabbit in three hours 
 and a half, with the symptoms and post-mortem appearances of 
 poisoning with other soluble salts of iron. It may be used for 
 the same purposes and in the same doses as the cheaper sul- 
 phate. Mr. Morton specially noted its ef&cacy in polyuria, and 
 in nasal gleet accompanied by debility. It is also serviceable 
 in glandular enlargements, especially in young or weakly 
 animals. Besides being used in powder and solution, the syrup 
 is prescribed in human, and also occasionally in canine 
 practice. 
 
 Iron, Ked, Per- or Sesqui-Oxide. Ferric Oxide. Ferrugo. 
 
 Eust of Iron. Fcj Og, H2O. 
 Iron Peroxide Moist. Ferri Peroxidum Humidum. Moist 
 
 ferric oxide. Fej O3, Hg 0, with about 86 per cent of uncom- 
 
 bined water. 
 
 The red or ferric oxide is found native in the several varieties 
 of haematite, ochre, red chalk, and specular ore. It is prepared 
 
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IRON PERCHLOEIDE SOLUTION. 351 
 
 in the hydrated form, by boiling a solution of ferrous sulphate 
 with a few drops of nitric acid, and as much sulphuric acid as 
 it already contains ; decomposing this solution of ferric sidphate 
 (Fej 3 SO4) by an alkali, — the British Pharmacopoeia orders 
 solution of soda, — and washing the soft red-brown magma thrown 
 down. This moist ferric oxide is the best antidote for arsenic, 
 but requires to be used freshly prepared, as it gradually loses its 
 efl&cacy by keeping. Dried on a plate over hot water, the 
 oxyhydrate remains ; heated to ' redness, there is left about 14 
 per cent of the red-brown, tasteless ferric oxide. 
 
 Actions and Uses. — Ferric oxide and the oxyhydrates are 
 not used medicinally. ' The hydrate moist and freshly prepared 
 as an antidote for arsenic mechanically entangles the particles 
 of the poison, and further converts it into an insoluble iron 
 arsenite (Peg 2As O4). In human patients, doses of a table- 
 spoonful are given every five or ten minutes. Professor Douglas 
 Maclagan states that 12 parts of this hydrate are sufficient to 
 neutralise one part of arsenious acid. 
 
 Iron Per- or Sesqui-Chloeide. Perri perchloridum. Perric 
 Chloride. Pe2 Clg. 
 
 Iron perchloride is prepared by heating the metal in excess 
 of chlorine gas, or dissolviag it ia hydrochloric acid with a little 
 nitric acid added to ensure the production of the higher chloride. 
 The strong watery solution of the Pharmacopoeia, the Liquor 
 Perri Perchloridi Portior, is orange-brown, odourless, inky-tasted, 
 has a specific gravity of 1'44, and mixes with water and alcohol. 
 Diluted with three measures of water it constitutes the medi- 
 cinal solution, which, for ordinary veterinary purposes, is as 
 effective and much cheaper than the Tinctura Perri Perchloridi, 
 known as tincture of steel, or steel drops, and made by mixing 
 one measure of the strong watery solution with three of rectified 
 spirit. This tinctTire has a red-brown colour, an ethereal odour, 
 an acid chalybeate taste, and a specific gravity of 0'922. 
 
 Actions and Uses. — ^Whether in the form of watery solution 
 or tincture, the perchloride is one of the most soluble, irritant, 
 and corrosive preparations of iron ; whilst in properly-regulated 
 doses, it is a valuable restorative, tonic, antiseptic, astringent, 
 and styptic. Eepeated every two or three hours, I have found 
 
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352 IRON PERCHLOEIDB SOLUTIONS. 
 
 it especially serviceable in red-water in cattle, in farcy, purpura, 
 and other typhoid complaints in horses, and ia distemper in 
 sickly dogs. It is also useful in loss of appetite and indigestion 
 depending on want of tone, where intestinal worms have been 
 troublesome, ia checking h^semorrhage from the alimentary canal, 
 and as an astringent and stimulant of the urino-genital mucous 
 membrane — the tincture, on account of its greater tendency to 
 be excreted by the kidneys, being preferable to the watery solu- 
 tion for this last class of cases. Its general tonic and topical 
 astringent effects, recommend it in relaxed sore throats, such as 
 accompany and follow catarrhal fever in horses. In such cases 
 the medicinal solution is repeated every two hours in half- 
 drachm doses dissolved in six or eight ounces of water, and 
 given slowly, so as to act as much as possible as a gargle ; or, 
 better stiE, the solution is applied several times daily vnth an 
 atomiser. Externally it is used as a caustic, astringent, styptic, 
 and stimulant. Diluted according to circumstances, it is one of 
 the best dressings for erysipelas. Injected into the rectum, in 
 the proportion of two drachms of the medicinal solution to a 
 piat of water, it destroys and brings away ascarides. I have 
 with good effect injected it into the uterus in dangerous post- 
 partum heemorrhage in cows. French surgeons have used it 
 with some success in reducing erectile and aneurismal tumours, 
 a few drops injected into the sac coagulating its contents. The 
 watery solution was found by Dr. Angus Smith {Third Beport 
 on Cattle Plague) to preserve blood and other such compounds 
 more effectually than any other substance experimented on, 
 with the single exception of zinc chloride. These chlorides, 
 when used in concentrated solution, have, however, the disad- 
 vantage of developing in decomposing organic matters disagree- 
 able fatty acids. Devoid of volatility, the ferric chloride,, 
 although so effective as an antiseptic, has little value as a dis- 
 infectant or deodoriser. 
 
 Doses, etc. — Of the weaker watery, or spirituous, solutions, 
 horses and cattle take fgi. to fgij.; sheep, TH_xx. to tt\_xxx.; pigs, 
 n|_x. to TT\^xx. ; dogs, TiLiij. to ii^x. Either solution is prescribed 
 with water, ale, or gruel, is often conjoined with hydrochloric 
 acidj gentian, and other tonics, but cannot be used with am- 
 monia, alkalies, or their carbonates, or with tannin-containing 
 substances. 
 
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JABORANDI A SIA;L0G0GTJE AND SUDORIFIC. 353 
 
 JABOEANDI. 
 
 Leaves and small branches of Pilocarpus pinnatifolius and 
 other species. — (Lemaire.) 
 Nat. Ord. — Eutaeese. Sex. Syst. — Pentandria Pentagynia 
 The shrubs yielding jaborandi are natives- of Brazil j the 
 leaves and bark are aromatic and acrid, with a bitter, hot, pun- 
 gent taste, and contain an acrid resin, a volatile oil, tannic 
 acid, and an active crystalline alkaloid, pilocarpine or pilocarpia. 
 Dr. William Craig of Edinburgh has carefully investigated the 
 properties of jaborandi, and shown that hot water extracts all, 
 or nearly all, the active principles, and an infusion is hence the 
 most handy preparation. 
 
 ' Actions and Uses. — Jaborandi is sialogogue and sudorific : 
 large doses, especially when including portipns 'of the fibrous 
 stems, are irritant, and induce nausea and vomiting. It directly 
 stimulates the vaso-dilator nerves of the salivary glands and 
 skin, in this respect being antagonised by atropine which para- 
 lyses them (Eoyle's Mat. Med. 6th, edit.) In three men 
 perspiration and salivation, caused by 60 grains, were arrested 
 by subcutaneous injection of xJ^th grain of atropine (Bartho- 
 low). Thirty to sixty grains, given as an infusion to human 
 patients, in ten to fifteen minutes cause profuse salivation and 
 perspiration ; upwards of a pint of saliva, and the like quantity 
 of sweat, have been collected ; the pulse rises, but arterial ten- 
 sion is diminished, and temperature lowered ; the pupils contract ; 
 the symptoms continue four or five hours. Elimination takes 
 place through the salivary glands and skin, which excretes an 
 unusual amount of urea. Mr. Thomas Dollar junior and Mr. 
 I. Print gave horses two to four drachms infused in hot water : 
 in fifteen to twenty minutes profuse salivation occurred, con- 
 tinuing for 'nearly three hours, but without notable diaphoresis, 
 altered circulation or temperature. In several carriage horses 
 to which I have given two to four drachms, diaphoresis occurred 
 after twenty minutes, but was never so abundant as in human 
 patients ; the breathing was accelerated, but no change occurred 
 in the pulse, temperature, or quantity of the urine ; in aU cases 
 abundant salivation contiaued for two or three hours. Half a 
 drachm to a drachm caused in English terriers, 15 to 20 lbs. 
 
 2 A 
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354 JALAP 
 
 weight, profuse salivation, but no diaphoresis or other notable 
 effects. The physiological actions of jaborandi specially iudicate 
 its use to promote salivary and skin secretion in febrile cases, 
 to eliminate morbid or poisonous matters where the action of 
 the kidneys is impaired, to get rid of urea in chronic rheu- 
 matism, and to drain away fluid in dropsies. 
 
 Doses, etc. — Horses or cattle take 3ij. to 3iv. ; sheep, pigs, 
 or dogs, 3ss. to 3i. given as an infusion. 
 
 JAI.AP. 
 
 Jalapa. The dried tubercles of Exogonium purga. — (Bentham.) 
 Imported from Mexico. — Brit. Phar. 
 
 Nat. Ord. — Convolvulacese. Sex. Syst. — Pentandria Monogynia. 
 
 Jalap derives its name from Xalapa, or Jalapa, a town in 
 Mexico, whence it was first obtained, and from the neighbour- 
 hood of which it is stUl exported. The Exogonium purga is a 
 hardy climber, found on the temperate heights of the Andes, 
 6000 feet above the sea level. In this country it thrives well, 
 flowers, and comes to maturity, in the open air. It has a 
 smooth, round, brown, twining, annual stem ; long-stalked, cor- 
 date, and somewhat hastate leaves; crimson or light-red flowers; 
 and a fleshy pereimial root-stock, with numerous pear-shaped 
 tubercles, varyiag in size from a walnut to an orange, round 
 or pear-shaped, and invested with a thin, brown, wrinkled 
 cuticle. These tubercles are gathered about March or AprU, 
 just before the young shoots spring, and dried by suspending 
 them in nets over or near the fire. Sections or slices of the. 
 tubercles are also met with ; are hard and compact, marked and. 
 marbled with concentric rings and pieces of shining resin. 
 Jalap is triturated with difficulty, unless mixed with some hard 
 salt, as potassium tartrate or sulphate. In powder, it has a 
 pale-brown colour, a faint disagreeable odour, and a taste at 
 first sweet, but afterwards acrid and nauseous. Water dissolves 
 the sugar and mucilage without the cathartic resinous prin- 
 ciples, which are, however, readily soluble in rectified spirit. 
 
 Along with about 20 per cent of sugar, starch, and cellulin, 
 and 10 of gum, jalap contains nearly 18 per cent of a brown 
 brittle resin easily soluble in rectified spirit, but distinguished 
 
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IRRITANT AND CATHARTIC. 355 
 
 from ordinary resin by its solubility in oil of turpentine. It 
 consists of about equal proportions of the colourless, amorphous 
 translucent jalapin (0^4, Hj,, Oja), which resembles the resin of 
 scammony, and the less soluble but more active convolvulin 
 (^81 Hjo O10). Jalap of good quality is dark-coloured, dry, 
 heavy, compact, and not worm-eaten. The square or spindle- 
 shaped pieces of the larger-rooted male jalap, or Orizaba root, 
 possess the same properties as the ordinary jalap. Similar 
 cathartic properties also belong to the smaller elongated, corky, 
 paler, wrinkled tubercles of the Tampico jalap, sometimes sub- 
 stituted for the officiaal jalap. 
 
 Actions and Uses. — Jalap is irritant, cathartic, and feebly 
 vermifuge. Full doses given to dogs or cats usually cause 
 nausea and vomiting, as well as catharsis. When the oesopha- 
 gus is tied to prevent vomiting, two drachms excite fatal gastro- 
 enteritis in small dogs. Freely rubbed into the skin, or appKed 
 to mucous surfaces, it excites inflammation. Its cathartic action 
 is slight either on horses or cattle. Two or three ounces given 
 to the horse have no effect on the bowels, but act slightly on 
 the kidneys (Moiroud), White reports administering half a 
 pound without purgidg. I have repeatedly given cows four 
 ounces without perceptible effect. It is, however, a good purge 
 for dogs and. pigs. Professors Eutherford and Vignall, experi- 
 menting upon dogs, found that jalap stimulates the secretion of 
 bile, and acts still more notably on the intestinal glands (Jour- 
 nal of Anatomy and Physiology, Oct. 1876). For dogs it is 
 prescribed for most purgative purposes, acts tolerably speedily 
 and certainly, produces full watery discharges, and is especially 
 effective when conjoined with a grain or two of calomel. It is 
 identical in its effects with scammony, the dried root of Con- 
 volvulus scammonia ; is more active than senna, the leaves of 
 Cassia acutifolia ; is less powerful and less irritant than gam- 
 boge, podophyllum, elaterium, or colocynth ; as a purgative for 
 horses it is neither so certain nor effective as aloes ; as a ptirga- 
 tive for cattle it is superseded by salines and oils. 
 
 Doses, etc. — Dogs take 3i. to 3ij.; cats, 3ss.; pigs, 3i. to 3iv. 
 It is best given in combination with calomel. Dogs, if fasted 
 for SIX hours, are effectively physicked in two or three hours 
 by 3ss. to 3i. of jalap, with two or three grains of calomel, 
 made into a bolus with any convenient excipient. 
 
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356 JDNIPEE 
 
 . JUNIPER TOPS, FEUIT, AND OIL. 
 
 Juniperi Cacumina, Fructus et Oleum. Dried tops and fruit 
 of the Juniperus comniunis. Oil distilled from the imripe 
 fruit. 
 
 Nat. Ord. — Coniferse. Sex. Syst. — Dioecia Monadelphia. 
 
 The common juniper is a shrubby, evergreen tree, growing 
 in most temperate countries. The leaves are dark gxeen, 
 linear, and arranged three in a whorl. The fruit or berries are 
 chiefly brought from the shores of the Mediterranean and the 
 Baltic ; are bluish -purple, furrowed, of the size and appearance 
 of currants ; take two seasons to come to maturity ; have an 
 aromatic, terebinthinate odour, and a warm, sweetish taste, 
 foUowed by bitterness. For, flavouring geneva about 2 lbs. are 
 added to the 100 gallons of spirit. They contain 30 per cent 
 of sugar, and yield, when distilled with water, one to two per 
 cent of two volatile oils, one of which is isomeric with oil of 
 turpentine (Ok, H;^^). From the wood of the Juniperus oxy- 
 cedrus, the brown, empyreumatic oil of cade is got by dry 
 distillation ; is used in France and other continental countries 
 for most of the purposes of oil of tar, and is especially recom- 
 mended in cutaneous diseases. 
 
 Actions and Uses. — The tops, fruit, and oil of juniper are 
 mildly stimulant, stomachic, carminative, and diuretic. They 
 are allied to other substances containing volatile oils, such 
 as anise, caraway, and coriander, the balsams of Canada, Co- 
 paiba, and Peru ; they resemble the turpentines, but are less 
 active. Two ounces of the berries given to horses and cattle 
 act only on the digestive organs ; but three or four ounces 
 induce diuresis, and also slight diaphoresis. The fruit and oil 
 are given as stomachics and carminatives in indigestion and 
 flatulence ; are stated to diminish the evil effects of bad fodder 
 and marshy pastures ; and to aid alike the prevention and cure 
 of sheep-rot. As diuretics they are seldom prescribed. They 
 have iDeen employed for fumigating stables and cow-houses ; and 
 their vapour was recommended for the destruction of filaria in 
 the bronchial tubes of calves and lambs. But for both these 
 purposes juniper has been superseded by more effectual remedies. 
 
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STIMULANT, STOMACHIC, AND DIURETIC. 357 
 
 Doses, etc. — -Of the fruit as a stomacMc, horses and cattle 
 take gi. to Biij. ; sheep, 3ij. to 3iv. ; dogs, grs. xx. to grs. xl.; 
 repeated several times a day, and usually given coarsely powdered 
 and mixed with fodder. They are readily eaten by most 
 animals, especially by sheep. A decoction, made either from 
 the fruit or tops, is occasionally prescribed, and also used as an 
 external stimulant. !A.s a diuretic, the oil is the best form- 
 Horses and cattle take" 3i. to 3ij. ; dogs, TTl_v. to HLx., repeated 
 at short intervals tUl diuresis is induced. 
 
 LEAD AND ITS MEDICINAL COMPOUNDS. 
 Lead. Plumbum. Pb. 
 
 Lead is chiefly obtained by roasting galena, the sulphide 
 (Pb S). It has a bluish-gray colour, and a peculiar odour 
 when rubbed ; is soft and malleable, readily cut or scratched, 
 and has the specific gravity 11 "4. Exposed to the air it 
 oxidises, loses its metallic lustre, and becomes dull and opaque. 
 It fuses at 617°. In ordinary water, with access of air, a 
 hydrated oxide and carbonate is gradually formed. Lead is 
 sometimes quadratomic, but most of its medicinal compounds 
 are diatomic. 
 
 Poisonous and Medicinal Actions. — Metallic lead appears 
 to be devoid of medicinal or poisonous action. Shot, an alloy 
 of lead and arsenic, is occasionally used by the lower order of 
 dealers, temporarily to relieve the distressed breathing of 
 broken-winded horses. Four ounces of metallic lead were 
 given to a dog at the veterinary school of Lyons without effect. 
 The metal in frequent doses is apt, however, to be oxidised, 
 dissolved, and exert its characteristic effects. - Such soluble 
 compounds as t^e nitrate and acetates are corrosive and irri- 
 tant, but not so powerful as corresponding zinc or copper salts. 
 The insoluble oxides and carbonates are feebly irritant. All 
 lead compounds, in continuously repeated doses, become absorbed 
 and deposited in the areolar and parenchjrmatous textures ; 
 nerve force is impaired; the voluntary and involuntary muscles 
 are paralysed and wasted ; the extremities are enfeebled and 
 bent, for the extensors suffer before the flexors ; the bowels are 
 torpid from a like paralysis of the involuntary muscles of the 
 
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358 LEAD POTSOKING 
 
 intestines. Professor John Harley concludes that "the whole of 
 the effects of lead upon the body may be traced to the enfeeble- 
 ment of the nerve currents, from impairment of the isolating 
 power of the nerve fibres ; the presence of lead in the tissues, 
 by increasing their conductiag power, tends to cause a lateral 
 diversion of the nerve force, and thus exhausts the currents in 
 their to and fro passage" (Eoyle's Mat. Med., 6th edition). 
 
 Lead poisoning or plumbism occurs not unfrequently in the 
 lower animals. In the end of 1851 Mr. Shenton, a Veterinary 
 Surgeon practising in Derbyshire, had eleven fatal cases among 
 horses, and several among cattle ; and, about the same time, 
 Mr. Mayor, V.S., of Penrith, had two horses that died near the 
 head of Ullswater, in Westmoreland {Monthly Journal of 
 Medical Science, May 1852). The symptoms of lead poisoniag 
 among the lower animals are analogous to those in man. They 
 usually contiuue, in more or less aggravated form, for several 
 weeks or even months. The digestive functions are unpaired, 
 the appetite becomes capricious, is sometimes entirely gone, at 
 other times is morbidly increased. Along the margins of the 
 gums a gray or blue hne appears — the result of the lead 
 deposited in the connective tissue being blackened by the 
 hydrogen sulphide present in the mouth, or of sulphur in the 
 food. Constipation and colic are not so invariably present as 
 in human patients. Paralysis and wasting are not confined to 
 the muscles of the extremities and bowels, but also affect the 
 involuntary muscles of the blood-vessels. The blood contains 
 an excess of water, the conversion of urea into uric acid is 
 interfered with, and urate of soda is deposited in the joints of 
 animals as well as of men (Dr. Garrod). Nutrition generally 
 is impaired, and epilepsy convulsions or coma are added to the 
 paralysis. In a letter received from Mr. Shenton, he thus 
 describes the conditions which came under his observation : — 
 " There was a rough staring coat, a tucked-up appearance of the 
 abdomen, and a slightly accelerated pulse ; in fact, symptoms 
 of febrile excitement, which usually, however, passed away in 
 about a week. About this time large quantities of gray- 
 coloured matter were discharged from the nostrils, and saliva 
 from the mouth ; but at no time was there any enlargement of 
 the sub-maxiUary, Ijonphatic, or salivary glands. Neither was 
 there constipation of the bowels, which appears to be nearly 
 
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PARALYSES INVOLUNTARY MUSCLES. 359 
 
 always present in lead poisoning in raan. Fits and partial 
 paralysis came on at intervals; and wlien the animals got 
 down, they often struggled, for a long time iileffectually, to get 
 up again. The breathing up till this period was pretty 
 tranquil, but now became so difficult and laboured that the 
 patients appeared ia danger of suffocation. The pulse was in 
 no case above sixty or seventy ; and I ascribed the difficulty of 
 respiration to a paralysed state of the respiratory apparatus. 
 The animals did not live more than' two or three days after 
 these symptoms appeared. The post-mortem appearances 
 varied but little. The lungs and trachea were inflamed ; the 
 lungs engorged with large quantities of black blood; the trachea 
 and bronchi filled with frothy spume. In all cases but two, 
 the villous part of the stomach presented isolated patches of 
 increased vascularity ; and in all cases the intestines, and 
 especially the large ones, were inflamed. The blind pouch of 
 the caecum was nearly gangrenous. There was nothing remark- 
 able about the liver, spleen, or kidneys, except that they were 
 of a siagularly blue appearance. The brain and spinal cord 
 were not examined." It may further be observed, that in dogs 
 destroyed in about three weeks by lead poisoning the muscular 
 system was flaccid, pale", and bloodless (Schwepfer). 
 
 Mr. Cartwright of Whitchiirch, Salop, records in the JEdin- 
 hurgh Veterinary Beview for August 1863, three cases of milch 
 cows poisoned by eating sheet lead which had been used for 
 lining tea-chests, had been carelessly thrown on the manure 
 heap, and thence been spread on the clover fields. Besides 
 failure of milk and' appetite, grinding of the teeth, and dulness, 
 several curious symptoms are mentioned. The head was 
 rested against any convenient object as if the animal were 
 asleep ; whilst the pupils were nearly closed, and were Ettle 
 sensitive to light or to the movements of the finger. The gait 
 was weak and tottering ; whilst for an hour or twd at a time, 
 the cows, although persistently standing on their hind limbs, 
 went down on their knees, propping themselves against the 
 wall. The cases survived four or five days. From the fourth 
 stomach of one a pound of the fragments of the sheet lead was 
 removed ; the lining membrane was thickened, and of a brown 
 colour. The mucous membrane, both of the stomachs and 
 bowels, was unnaturally vascular, and exhibited in places 
 
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360 LEAD POISONING 
 
 patches of ecchymosis. The liver was pale, clay-coloured, 
 compact, and contained little blood. There was nothing amiss 
 with the urinary organs. Mr. "W. Watson, Rugby, records the 
 poisoning of three cows, which languished for several months, 
 and died from the eating of grass on which the bullet spray 
 from the Eugby rifle butts had fallen. Fragments of the lead 
 were found adhering to the coats of the stomachs, and the 
 poison was also detected by Professor Tuson of the Veterinary 
 College in the intestines, liver, and kidneys (Veterinarian for 
 May and August 1864). 
 
 Mr. Broad of Bath {Veterinarian for April 1865) also 
 records cases of cattle poisoned by picking up bullet spray. 
 The anima-ls axe described as dull and tucked up, the eyes 
 ■staring, the gait unsteady, the appetite good, but the bowels 
 ■constipated; emaciation and oedema under the jaw making 
 rapid progress. Portions of bullet spray were found in the 
 second and third stomachs ; both large and small intestines 
 were pale blue and bloodless. Professor Tuson records similar 
 symptoms from licking red paint, which he found retained for 
 twenty-eight weeks in a cow's stomach. Mr. Cox of Hendon 
 had several sheep become emaciated and paralysed from eating 
 the splashes of the lead bullets, which were found in the 
 stomachs in thin flakes readily soluble in the gastric fluids 
 ^(Taylor on Poisons). As in the human female, lead poisoning 
 proves an occasional cause of abortion amongst cattle. 
 
 Mr. Herapath reports, in The Chemist for 1855, some in- 
 teresting cases of lead poisoning which followed the erection of 
 •smelting furnaces on the Mendip HUls in 1853. The injury- 
 appeared to commence half a mile from the chimney, and 
 to extend for half a mile farther. Lead oxides, car- 
 bonate, and sulphate were found on the herbage, hedges, and 
 hay. On the live stock "the efiects of the metal were, a 
 stunted growth ; a leanness ; shortness of breathing ; paralysis 
 -of the extremities, particularly the hinder ones ; the flexor 
 muscles of the fore-legs affected, so that they stood upon their 
 toes ; swelling of the knees ; but no constipation or colic, as in 
 the human species : in a few months death followed. If the 
 -injured beasts were removed to another farm, they never throve. 
 In the young the symptoms were more conspicuous and the 
 imortality greater. Lambs were yeaned paralytic ; when three 
 
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FEOM BULLET SPRAY AND SMELTING FURNACES. 361 
 
 weeks old they could not stand, although they made great 
 efforts to do so ; in attempting to feed them from a bottlej they 
 ■were nearly suffocated from paralysis of the glottis ; twenty-one 
 died early, out of twenty-three. > Colts also died, and those that 
 lived could not be trotted 150 yards without distressed breath- 
 ing. Pigs confined to the sty were not injured, but if allowed 
 to roam were soon affected. The milk- of coWs and sheep was 
 reduced in quality and quantity, and cheese made from the 
 former had less fat in it. I found ia the niilk of both minute 
 traces of lead. The dead subjects showed the mucous surfaces 
 to be paler than natural ; the lungs had large portions of a 
 dark-red colour, with dircumscribed edges, not like ordinary 
 inflammation, but evidently surcharged with fluid. This 
 accounted for the shortness of breathing, as only portions of 
 the lungs were fit to perform their functions. In some parts 
 there appeared bluish spots, where the powder had been stopp'fed 
 by the bifurcation of the air-passages. A blue line appeared 
 in the gum of the lower jaw, which. Dr. Taylor said in court, 
 was not caused by lead poison, as it did not occur, as in the 
 human subject, on the upper edge of the gum, but where the 
 gums first come into contact with the teeth, about 3-16ths of 
 an inch below the top edge. I therefore dissected out this line, 
 which was about three-quarters of an inch in length, and the 
 thickness of sewing cotton ; and, by aid of carbonate of soda 
 and the blow-pipe, reduced a spangle of lead from it, quite 
 visible to the jury without the aid of a microscope. I was 
 agreeably surprised at this result, as I expected^ the mark arose 
 only from altered blood ; but it will now become, in the hands 
 of a good blow-pipe manipulator, the most ready m6ans of 
 detecting lead ia the dead subject. It will be observed that, 
 of the symptoms, those of emaciation, paralysis, and the blue 
 line, are similar to those of the human subject ; that constipa- 
 tion and colic are absent;' and we get two new ones, shortness 
 of breathing and swelled knees. I will merely add that the 
 Company agreed, without calling witnesses, to pay £500 
 damages, and to buy the estate at full value.'"' 
 
 When animals are killed while labouring under the saturniae 
 malady, or die from its effects, lead can usually be found iu 
 most parts of the body. It has been detected in the blood, the' 
 contents of the stomach and intestines, the brain and spinal 
 
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362 LEAD POISONING 
 
 cord, the muscles, lungs, and liver. The late Professor George 
 Wilson discovered it in especially large amount in the spleen, 
 — an organ which can always be speedily and easily examined, 
 on account of " its small size, loose spongy texture, and com- 
 parative freedom from fatty matter '' {Monthly Jmiryial of Med. 
 Science, May 1852). To prepare the organs for analysis they 
 are digested in aqua regia, over a slow iire, until soluble mat- 
 ters are separated. The liquid, which should then be clear and 
 pale brown, is cooled, filtered through calico, and evaporated. 
 The dried residue is charred in a Hessian crucible, boiled with 
 diluted nitric acid, filtered, and when dried should yield crystals 
 of lead nitrate. In solution lead salts give with hydrochloric 
 acid a white crystalline precipitate (Pb Clj) freely soluble in 
 caustic potash, with hydrogen sulphide and ammonium hydrosul- 
 phide, the black hydrated sulphide Pb S, Hj ; with sulphuric 
 acid and soluble sulphates, the white sulphate, freely soluble in 
 ammonia acetate solution; with potassium iodide and bichromate, 
 bright gamboge-yellow precipitates of iodide and chromate. 
 
 Lead usually enters the bodies of the lower animals in 
 their food or water, or in minute particles licked or picked from 
 paint or portions of lead left in the animal's way. Water 
 sometimes gets contaminated by conveyance through leaden 
 pipes, or long keeping in faulty leaden cisterns. The hounds 
 at the Eoyal Keimels at Ascot some years ago suffered from 
 paralysis from driaking water contaminated by passing through 
 new lead pipes. At Claremont the late Louis Philippe and his 
 suite had symptoms of lead poisoning, although the amount of 
 lead did not reach one grain to the gallon. Sir Eobert Christi- 
 son states that any amount beyond one grain in fifteen gallons 
 is dangerous. On lead pipes or vessels the conjoined action of 
 air and moisture is apt to produce a crust of hydrated oxycar- 
 bonate, which crumbles away as a crystalline powder, partly 
 dissolved and partly suspended in the fluid. Leaden vessels 
 or vessels soldered with lead, must therefore be used with 
 caution for holding, especially for any length of time, water or 
 other fluids likely to effect a solvent action on the metal. This 
 caution is especially applicable to soft waters, and to those rich 
 in chlorides, nitrites, nitrates, and nitrogenous matters yield-- 
 iag ammonia. Hard waters, abounding in carbonates, sulphates, 
 or phosphates, are less liable to contamination, as their acid, 
 
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FROM IMPREGNATION OP WATER SUPPLY. 363 
 
 uniting with the lead, forms an insoluble crust, which protects 
 the metal from Jurther action of air or water. But even 
 such hard waters are not absolutely safe from lead contamina- 
 tion. A piece of iron, a patch of soft solder, or a few carbon- 
 aceous or other impurities in the lead, are liable to set up 
 galvanic action, and thus dissolve the metal. Great care should 
 therefore be taken to prevent hme, mortar, nails, or in fact any- 
 foreign body, gettiag into leaden cisterns, which should further 
 be emptied and cleaned out occasionally, especially when new. 
 In acute poisoning an emetic or the stomach-pump should 
 be promptly used. The most convenient chemical antidote is 
 diluted sulphuric acid or a soluble sulphate which converts the 
 lead salt into the insoluble white sulphate. Potassium iodide, 
 besides producing an insoluble salt, also hastens elimination 
 by the kidneys. These antidotes should be given dissolved in 
 such diluents as milk, mucilage, or egg, which have the further 
 advantage of forming insoluble albuminates with the lead salts. 
 The bowels, which are apt to be torpid, should be opened by 
 saline purgatives, nothing being better than magnesium sul- 
 phate. Where there is much pain, opium is prescribed ; and in 
 all cases good feeding and tomes are necessary to perfect a cure. 
 
 Lead Oxides. Plumbi Oxidii. Litharge. Eed Lead. 
 
 Lead Carbonate. Plumbi Carbonas. "White Lead. Cerusse. 
 
 Melted lead exposed to a current of air oxidises, forming a 
 yellow, semi-crystalline powder called massicot (Pbj 0). This, 
 when fused at a red heat, acquires a fohaceous or scaly struc- 
 ture, a variable gray or yellow-red colour, and is known as 
 litharge (Pb 0). At higher temperatures litharge is further 
 oxidised, and produces red lead or minium, one of the varieties 
 haviag the formula 2 Pb 0, Pb Og. Mtric acid breaks up 
 this complex oxide, leaving undissolved the puce-coloui?ed in- 
 soluble peroxide Pb Og. White lead, so extensively used in 
 the arts, is a soft heavy powder, a mixture of carbonate and 
 hydrate 2 Pb CO3, Pb 0, H^ 0, and is usually prepared by 
 exposing for several weeks .coils of lead in pots, wetted with 
 crude acetic acid, and exposed besides to the action of carbonic 
 acid, evolved from spent tan, stable manure, or other such decay- 
 ing organic matters ranged round the coils. 
 
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364 LEAD PLASTEK, 
 
 Actions and Uses. — Litharge and white lead are irritant, 
 desiccant, and astringent ; frecLuently repeated doses exert the 
 usual constitutional effects of lead compounds ; their liability 
 to hecome absorbed iaduces a preference for the harmless zinc 
 oxide and carbonate. Litharge decolorises most coloured vege- 
 table fluids with which it is shaken. 
 
 Lead Oleate. Lead Plaster. Emplastrum Lithargi vel Plumbi. 
 
 The common sticking or diachylon plaster is thus directed 
 to be prepared : Boil together gently 4 pounds of litharge in 
 fine powder, one gallon olive oil, d^ pints of water, by the heat 
 of a steam bath, and keep simmering for four or five hours, stir- 
 ring constantly until the product acquires a proper consistence 
 for a plaster, adding more water if necessary {Brit Thar.) In 
 this process the fatty matter, which is an oleate of glycerin, 
 undergoes a change similar to what occurs in soap-making ; its 
 oleic acid unites with the lead, forming lead oleate (Pb 2 C^g H33 
 O2) ; its sweet basic principle, glycerin, remains in solution (p. 
 3 1 9). Lead plaster is sold in rolls, about a foot in length, 
 of a yellow-white colour, and a faint, sweet, soapy odour. 
 Although brittle when cold, it becomes soft and adhesive when 
 heated. 
 
 Actions and Uses. — Lead plaster is adhesive, free from irri- 
 tant properties, nor in this form is the lead liable to absorption. 
 For bringing together the edges of wounds it is generally used 
 spread on linen or calico, when the strapping besides affords 
 protection, healthful pressure, and support. Lead plasters are 
 rendered more adhesive, and consequently better adapted for 
 most veterinary purposes, by melting with every pound four 
 ounces of pitch or resin and two ounces of hard soap. 
 
 Lead Iodide. Plumbi lodium. Pb I^. 
 
 When equal parts of lead nitrate and potalSsium iodide are 
 dissolved, and the solutions mixed, double decomposition occurs, 
 potassium nitrate remains in solution, and lead iodide is pre- 
 cipitated in brilliant, golden-yellow crystalline scales, or in a 
 fine, bright yellow, heavy powder. It is tasteless, colourless, 
 sparingly soluble in cold water, but readily dissolved by boOing 
 water. 
 
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. ■ SUGAR OP LEAD. 365 
 
 Actions and Uses. — It resembles the other salts of lead ; 
 has been prescribed in scrofula, and applied externally in in- 
 dolent tumours ia the form of oiatment or plaster. 
 
 Lead Acetate. Plumbi Acetas. Sugar of Lead. Pb 2 Cg 
 
 Hg O2 ; 3 HO. 
 
 Lead Sub-Acetate. Plumbi Subacetas. Lead Oxyacetate. 
 
 Goulard's Extract. Pb Cg Hg Oj, dissolved iu -water. 
 
 Of the four acetates, only two are of medicinal value, — the 
 neutral acetate, or sugar of lead ; and the subacetate, which 
 occurs in Goulard's Extract. 
 
 Sugar of lead is obtained by dissolving litharge in acetic 
 acid ; or commonly, on the large scale, by immersing sheets of 
 lead in dilute acetic acid, scraping off the crust of subacetate 
 and subcarbonate, which accumulates, dissolving in acetic acid 
 and evaporating. Lead acetate is sold in minute needle-like 
 crystals, which are slightly efflorescent, have an acetous odour, 
 and a sweet astringent taste ; it is soluble in about twice 
 its weight of water at 60°, and in solution unites with 
 different proportions of the oxides, forming subsalts. The 
 officinal liquor plumbi subacetatis, in imitation of G'dulard's 
 Extract, is prepared by. boiling 5 ounces of acetate of lead, and 
 3-J ounces of oxide of lead, in a pint of water, for half an hour, 
 constantly stirring, filtering, and, when cold, adding more dis- 
 tilled water, until the product measures twenty fluid ounces. 
 Preserve in stoppered bottles (Brit. Phar.) It is a colourless, 
 transparent, alkaline liquid, has a sweet astringent taste, and 
 becomes turbid on exposure. From a solution of the neutral 
 acetate it is distinguished by its alkalinity, by the copious white 
 precipitate thrown down when a stream of carbonic acid is 
 passed through it, and by its producing an opaque white jelly 
 when mixed with gum arable mucilage. 
 
 Actions and Uses. — Like other soluble lead salts, the ace- 
 tates in excessive doses cause gastric irritation, often with con- 
 vulsions and other evidences of nervous derangement. Con- 
 tinued repeated doses develop the special symptoms, of plumbism 
 (p. 358). Medicinal doses are astringent, styptic, and anti- 
 septic ; and they check the escape of albimiuioids in the urine, 
 in which they are mainly excreted. Externally they are as- 
 tringent, styptic, and sedative. On skin-abraded or mucous- 
 
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366 LEAD ACETATES 
 
 surfaces they combine with albumin, leaving a protectiag cover- 
 ing. They diminish the calibre of capillary vessels, and thus 
 exert a so-called sedative effect. The several lead acetates are 
 less corrosive and astringent, but more soothing, than zinc or 
 ■copper acetates. The greater solubUity of the subacetates ren- 
 ders them more active than the neutral acetate, and preferable 
 especially for external applications, on account of their not dry- 
 ing up or crystallising. 
 
 Hertwig exhibited a pound of sugar of lead to horses, and 
 observed nausea, colic, a quick, small, hard pulse, stiffness of 
 the limbs, paralysis of the optic nerve, and sometimes of other 
 parts, insensibility, and often death. Even more energetic 
 effects occur in cattle. Prinz observed that half an ounce 
 given daily for three days produced in cows fever, with a quick 
 throbbing pulse, colic, and other symptoms of abdominal pain, 
 in one case mania, but in none death. Mecke found that eight 
 ounces, dissolved in water, and given in divided doses during 
 two days, destroyed nine cattle ; the first on the second, the 
 last on the fourteenth day after the poison had been given. 
 Early in 1857 a farmer near Glasgow lost eight cows from 
 their boiled food having been prepared in a large tub obtained 
 from a chemical manufactory, and impregnated with sugar of lead. 
 The symptoms were similar to those above recorded. Half an 
 ounce, administered to dogs, and retained in the stomach by a 
 ligature round the oesophagus, produced intense intestinal irrita- 
 tion, and death occasionally in nine hours, but sometimes only 
 after two or three days (Orfila). Owing to chemical action, the 
 membrane of the stomach is gray, of a macerated appearance, 
 and sometimes vascular, especially in cases that survive long. 
 Similar symptoms and appearances are observed when sugar of 
 lead is absorbed frotn a wound, or injected into the veins. 
 
 Medicinal Uses. — Lead acetate is administered to check 
 haemorrhages, especially from the lungs, and profuse dis- 
 charges. In purpura in horses and red water in cattle it is 
 often effectual in staying bleeding and wasteful excretion of 
 albumin in the urine. In chronic diarrhoea and dysentery, 
 especially when conjoined with opium, it abates profuse dis- 
 charges, and quiets violent vermicular movements. Half -drachm 
 doses of sugar of lead and opium, given daily, frequently 
 arrest the dangerous diarrhoea which attacks badly-managed 
 
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ASTRINGENT, ANTISEPTIC, AND SEDATIVE. 367 
 
 anaemic calves and young cattle in autumn and early winter. 
 Scouring lambs are equally benefited by eight or ten grains 
 each of lead acetate and opium. In many of these cases, 
 besides beiag given by the mouth, it is also added to starch 
 injections. It is used to check superficial circumscribed in- 
 flammation, to soothe and heal burns, bruises, and irritable 
 moist ulcers, to cool and relieve strained, inflamed tendons and 
 joints, to dry and abate the irritation and excessive weeping of 
 eczema, nettle-rash, and other cracked, painful, or itching skin 
 complaints. For eye cases it is unsuitable, as the lead albumi- 
 nate is apt to form a film over the cornea. 
 
 Doses, etc. — Of the lead acetates, horses and cattle take 3i. ; 
 calves and sheep, grs. xv. to grs. xx. ; pigs, grs. vi. to grs. xij. ; 
 dogs, grs. ij. to grs. vj., given in bolus or solution, repeated once 
 or twice a day. Cumulative and constitutional effects must be 
 guarded against, and the medicine withdrawn whenever the 
 appetite becomes impaired, the gums discoloured, or the bowels 
 constipated or cramped. For external application, sugar of lead 
 is used in powder, as an ointment, or more commonly dissolved 
 in forty or fifty parts of water, with a little vinegar, to increase 
 its solubility. The Pharmacopoeia Goulard's Extract, diluted with 
 four parts of linseed or olive oil, is recommended as a cooling 
 application for blistered or contused surfaces (Morton). With 
 equal parts of spirit, and diluted with eight or ten parts of 
 water, it is a mild refrigerant astringent. Equal quantities of 
 lead acetate and zinc sulphate, dissolved in thirty' or forty parts 
 of water, constitute the familiar white lotion of veterinary prac- 
 tice, and, although the preparation is not chemically a correct 
 one, every-day experience proves it to be a valuable astringent, 
 sedative, and antiseptic. 
 
 LIlSrSEED. 
 
 Linseed Oil. Oleum Lini. The oil expressed without heat 
 
 from linseed. 
 Linseed Meal. Farina Lini. The cake of linseed, from which 
 the oil has been pressed, reduced to powder. — Brit. Fhar. 
 Nat. Ord. — Linacese. Sex Syst. — Pentandria Pentagynia. 
 ■ The Linum usitatissimum, or common flax, cultivated in 
 Britain and other European countries, yields several important 
 
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368 LINSEED MEAL, OIL, AND CAKE, 
 
 articles of the materia medica. The stem affords lint and tow ; 
 the seeds, crushed, ground, and subjected to hydraulic pressure, 
 yield linseed oil ; the residual cake is a valuable feeding stuff, 
 and when reduced to powder constitutes linseed meal. 
 
 To utOise the fibrous stem, the plant is steeped in water, 
 which is generally used hot : starch and cellular matters are 
 got rid of by scutching ; the fibres are hackled and carded, the 
 shorter coarser portions forming tow, the finer, when bleached, 
 are made into Linen. Soft loosely woven linen, when scarified, 
 and the cut fibres scraped, into a downy layer, constitutes the 
 familiar surgeon's lint. Both Unt and tow are used for pro- 
 tecting wounds ; and, when saturated with hot or cold water, 
 prove cleanly substitutes for poultices, and, being little liable 
 to be used a second time, are greatly preferable for the cleansing 
 of wounds to sponges, which are very apt to retain and dis- 
 tribute septic germs. Oakum, consisting of detached fibres of 
 old ropes, when treated with Stockholm tar, has recently been 
 recommended as an antiseptic dressing for wounds. 
 
 Flax or Unt seeds are about two lines long, smooth, and 
 shining, of a brown colour and oval shape, flattened laterally, 
 and pointed at one extremity. They are inodorous, but have 
 an oUy mucilaguious taste. They consist of 1 5 per cent of 
 althea mucilage or bassorin (G^^ ^20 Oio)> "wholly present in the 
 envelope of the seed ; and hence only properly extracted by 
 prolonged steeping or slow boiling; 25 of albumin and legimiin; 
 a little sugar, 30 of oil contained in the albumin and embryo ; 
 8 of mineral matters, chiefly phosphates, mostly stored in the 
 husk, and about 9 of water. The seeds ground and pressed 
 without the aid of heat produce about 20 per cent of oil of the 
 best q[uality; steam heat of 200° extracts 23 to 27 per cent 
 of oil of somewhat lower quality ; 1 to 13 per cent of oil 
 remains in the residual hnseed-cake or oil-cake. 
 
 Linseed oil, carefully prepared from tolerably sound seed, 
 has a pale yellow colour, a mild but nauseous taste, and a 
 specific gravity of about -902. It remains liquid at 0°. Ex- 
 posed to the air it speedily becomes rancid ; but a thin stratum 
 quickly dries up, forming a hard transparent varnish, hence its 
 extensive use in the arts as a drying oil. This oxidation and 
 drying property is greatly increased when the oil is boiled 
 either alone or with lead oxide. It is insoluble in water, 
 
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NUTRIENT, LAXATIVE, AND EMOLLIENT. 369 
 
 soluble in five times its weiglit of boiling alcohol, in forty parts 
 of cold alcohol, and one and a half of ether. Boiled with 
 alkaline solutions, it forms soaps ; and is resolved into glycerin 
 and linoleic acid (Cig Hgg 0^ : Mulder) associated with small 
 amounts of oleic, palmitic, and myristic acids. Exposed in the 
 air linoleic acid is converted into a colourless resiuoid substance; 
 Mixed with an equal quantity of lime water, it forms Carron 
 oil, once much used for burns and scalds. Exposed for some 
 hours to a high temperature, it becomes a dark tenacious mass, 
 which, when mixed with lampblack, constitutes printer's ink. It 
 is sometimes adulterated with rapeseed oil ; but is more com- 
 monly of inferior quality from rancidity, from preparation at 
 high temperatures, or from presence of impurities.. 
 
 Actions and Uses. — Linseed and linseed cakes are valuable 
 feeding stuffs; they are palatable, digestible, and nutritive. 
 As producers of fat, such oleaginous substances are generally 
 regarded as two and a half times more effective than starch or 
 sugar. Their digestion is aided by the pancreatic and biliary 
 fluids ; they are absorbed mainly by the lacteals ; they are 
 essential to the repair and growth of every tissue ; their com- 
 bustion develops heat and force. In moderate amount they 
 favour the assimilation alike of the starchy and nitrogenous 
 food with which they are given. Well-boiled linseed gruel, or 
 bruised linseed cake digested in hot water, is a most valuable 
 nutrient for horses, cattle, and sheep, not only during health, 
 but also during the progress of acute disease, in scrofula/, 
 rheumatism, chronic skin complaints, and during convalescence 
 from reducing disorders. In aU such cases it proves both food 
 and medicine. Horses that are bad grubbers, have harsh scurfy 
 skins, or are affected with roaring or thick wind, are usually 
 much benefited, especially i£ living mostly on oats and hay, by 
 about a pound daily of bruised linseed cake. A daily mess of 
 linseed gruel, or a few ounces of bruised cake, given daily to 
 calves or lambs, as soon as they will eat it, not only economically 
 favours growth and early maturity, but is tolerably effectual in 
 warding off attacks of diarrhoea, dysentery, anaemia, and black- 
 quarter. In the state of gruel or decoction, linseed is in every- 
 day use as a mucilaginous demulcent in irritable conditions of 
 the throat, alimentary canal, kidneys, and bladder ; in poisoning 
 with irritants and corrosives ; and as a convenient vehicle for 
 
 2 B , 
 
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370 LINSEED OIL 
 
 the administratioii of nauseous or acrid medicines. Ground 
 linseed makes good poultices, especially when mixed with an 
 equal quantity of bran and oatmeal ; but the bruised ILoseed 
 cake is cheaper, less apt to become rancid, and equally 
 effectual in retaining heat and moisture. The common mass 
 employed for making up balls and piUs usually consists of 
 equal quantities of linseed flour and treacle. Linseed flour, 
 made into a paste with water, forms a good luting for distilling 
 apparatus. 
 
 Linseed oil has been highly lauded dietetically ; but neither 
 for cattle nor sheep does it answer so well as properly pre- 
 pared linseed or linseed cake. It has the disadvantage of being 
 too laxative, and it increases rather than diminishes the 
 quantity of ordinary food consumed. As an adjuvant feeding 
 stuff for animals in health I have found it inferior to linseed 
 cake, beans, or oats. As a nutrient and restorative, two ounce 
 doses repeated daily are, however, often beneficial in sore throat 
 and bronchitis in horses, and especially for subjects that will 
 not take linseed gruel or mashes. 
 
 Linseed oil in amounts too large to be digested acts as a 
 cathartic ; it is also emollient. It closely resembles rapeseed, 
 almond, and other fixed oils ; it is not so actively cathartic as 
 castor oU. Bland and unirritating, it is specially indicated 
 where laxatives are required in irritability of the intestinal 
 canal, in diarrhoea, in irritant poisoning, in young and weakly 
 subjects, where saline or other active purgatives have been 
 given, and their repetition is deemed inexpedient, and as a 
 convenient menstruum for the administration of croton and oil 
 of turpentine. Unless conjoined with other purgatives, it is 
 not a very prompt or effectual cathartic for horses. For dogs, 
 calves, and lambs it is a safe and reliable laxative, especially 
 when given with an equal amount of castor oil. In colic it is 
 usually combiaed with stimulants and anodynes. One of the 
 coUc draughts of the Edinburgh Veterinary College for horses 
 consists of one pint of linseed oil with one or two ounces each 
 of laudanum and oil of turpentine. On account of its lubricant 
 and emollient properties, linseed oil often relieves choking in 
 cattle ; mixed with well-boiled starch -gruel and injected into 
 the rectum or bladder, it aUays irritation. As a soothing 
 dressing, it is applied to hard, dry, irritable surfaces. From 
 
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CATHAETIC AND EMOLLIENT. 371 
 
 its drying properties, which it has in common with poppy, 
 walnut, and cod-liver oils, it is less suitable than olive, ahnond, 
 rape, or colza oils, or than lard, for making ointments or hni- 
 ments. 
 
 Doses, etc. — As a cathartic, horses take Oss. to Oj. ; cattle, 
 Oi. to Oij. ; sheep and pigs, fgvj. to fgviij. ; dogs, f§i. to f§ij. ; 
 cats, f3i. ; administered shaken up with liaseed gruel, mucilage, 
 milk, or spirit and water. 
 
 LIQUOEICE EOOT. 
 
 Glycyrrhizse Eadix. The root, or underground stem, fresh and 
 dried, of Glycyrrhiza glabra, cultivated in England. — Brit. 
 Fhar. 
 
 Nat. Ord. — Leguminosse. Sex. Syst. — Diadelphia Decandria. 
 
 Liquorice grows in most countries of continental Europe, 
 thriviag on dry, light, sandy soils. The best qualities are 
 grown in England, or imported from Spain and Italy. The 
 perennial herbaceous plants vary from two to four feet in 
 height, and have large, irregular, yeUow-green leaves ; papilion- 
 aceous, pale-blue flowers ; and long, creeping, fibro-fleshy, 
 branched, perennial roots, or underground stems, which are 
 smooth, brown, cylindrical, and about the thickness of the 
 thumb, arrive at perfection about ' the third year, have a 
 peculiar sweet and somewhat sickly taste, and constitute the 
 officinal part of the plant. To preserve them from moisture, 
 they are generally kept in sand. The powder has a yellow 
 colour, a strong sweet taste, and is soluble ia water, and to a 
 less extent ia alcohol. Besides ordiaary vegetable constituents, 
 it contains asparagin and malic acid, a resinous oil, to which it 
 owes its sub-acrid taste, and a sweet, yellow, uncrystaUisable 
 sugar, termed glycyrrhizin (C24 Hgg O9). The natural juice or 
 watery infusion, concentrated until it becomes solid, forms the 
 well-known extract of liquorice or black sugar. 
 
 ' Actions and Uses. — Liquorice resembles sugar in its dietetic 
 and medicinal uses. It is serviceable as a demulcent and 
 emollient, m irritation of the pulmonary mucous membrane in 
 man. It is largely used in the manufacture of tobacco, for 
 
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3^2 MAGNESIUM OXIDES 
 
 making up boluses, and covering the disagreeable taste and 
 odour of various drugs ; but in veterinary practice is generally- 
 superseded by treacle. 
 
 MAGNESIUM AND ITS MEDICINAL COMPOUNDS. 
 Magnesium Oxide. Magnesia. Calcined Magnesia. Mg 0. 
 
 Magnesia is usually prepared by heating the carbonate to 
 redness, in partially covered crucibles, until its water and car- 
 bonic acid are expelled. It is also got by mixing solutions of 
 caustic potash and of any magnesian salt. 
 
 It is a white odourless powder, with a slightly earthy taste; 
 is very sparingly soluble in water ; has much affinity for mois- 
 ture, but little for carbonic acid. Its density varies according 
 to the temperature at which it is prepared ; the light or mag- 
 nesia levis of the Pharmacopoeia is produced at the lower tem- 
 peratures, and from the light carbonate, and is three and a half 
 times the bulk of the heavy. It is sometimes impure from the 
 presence of lime, silica, or magnesium carbonate. Magnesian 
 salts give negative results with hydrogen sulphide and ammonium 
 hydro-sulphide. Like other salts of the alkaline earths, they pro- 
 duce with potassium carbonate a white precipitate of carbonates, 
 which, unlike the carbonate of calcium or of barium, is soluble 
 in ammonium chloride solution. This depends upon the tend- 
 ency of magnesium to form double salts with the alkalies. 
 
 Actions and Uses. — Magnesia is antacid and laxative. As 
 an antacid, it resembles potash, soda, and their carbonates, but 
 lacks their diffusive, solvent, and diuretic properties. Its laxa- 
 tive effect and absence of causticity distinguish it from lime. 
 It is not sufficiently active to purge either horses or cattle ; it 
 is a gentle laxative for dogs and cats ; and is occasionally pre- 
 scribed with calomel, jalap, or buckthorn. Its laxative effects 
 are increased when the bowels contain acid secretions. For 
 foals and calves with acidity and flatulence, acids are usually 
 the appropriate treatment, but if magnesia is prescribed it must 
 not be too freely or continuously used, as it is apt to concrete 
 and accumulate in the bowels. It is an antidote for poisoning 
 by oxalic and the mineral acids. It removes arsenic from solu- 
 tion, and for this purpose is most effective in the form of the 
 
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ANTACID AND LAXATIVE. 373 
 
 gelatinous hydrate made by adding caustic potash to a solution 
 of the, sulphate. It is occasionally applied as a desiccant. 
 
 Doses, etc. — Foals and calves, three or four months old, 
 take, as an antacid, 3ii. to gi. ; dogs and cats, 3ss. to 3i. It 
 is given suspended in milk or gruel, and conjoined with car- 
 minatives. 
 
 Magnesium Carbonate. Magnesia alba. 
 3 Mg CO3, Mg 0, 5 H2 0. 
 
 When sodium carbonate is mixed with bittern or with a 
 solution of magnesium sulphate, double decomposition ensues, 
 and the precipitated magnesium carbonate, with a little mag- 
 nesium hydrate, is collected, washed, and dried. . The solutions, 
 tolerably concentrated and mixed without heat, yield a heavy, 
 when diluted and boiled they produce a light, carbonate. The 
 former is dense, loose, and granular ; the latter lighter and more 
 starchy, and under the microscope is found to be partly amor- 
 phous, with intermixture of numerous slender prisms. Both 
 varieties are white, odourless, and tasteless, sparingly soluble in 
 water, but more easily dissolved in hot than in cold water. Muid 
 magnesia usually contains 13 grains of carbonate dissolved in 
 water charged with carbonic acid gas. 
 
 The action, uses, and doses of the carbonates are the same 
 as those of the oxides ; but in contact with the acid gastric 
 juice, full doses are apt to evolve much gas, and cause disten- 
 sion and discomfort. 
 
 Magnesium Sulphate. Magnesias Sulphas. Epsom Salt. 
 Mg SO,, 7 H,0. 
 
 This important magnesium salt is found in various rocks 
 and soils, in sea water in the proportion of 15 to 20 grains ia 
 the pint, and in some mineral springs. From its presence 
 in the miueral streams of Epsom, it derives its vernacular 
 name. 
 
 Preparati(m.-^-lt is generally prepared from magnesite, the 
 native carbonate, by saturating it with sulphuric acid, and 
 crystallisiag ; from magnesian limestone, or dolomite, or from 
 bittern, the oily-looking liquid left when sea water is concen- 
 trated for the separation of common salt. The magnesian lime- 
 
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374 MAGNESIA SULPHATE 
 
 stone, a double carbonate of calcium and magnesium, is calcined 
 to expel water and carbonic acid ; the caustic lime and mag- 
 nesia, so formed, are slaked witli water ; hydrochloric acid is 
 added in sufficient quantity to convert the lime into calcium 
 chloride, which is separated in solution, leaving the insoluble 
 magnesia, which is treated with sulphuric acid, and the mag- 
 nesium sulphate thus produced crystaUised out. Bittern, when 
 concentrated, yields an abundant crop of crystals of magnesium 
 sulphate, and stUl larger quantities are obtainable by first add- 
 ing sulphuric acid to convert the chloride and other salts into 
 sulphate. These two processes are sometimes conjoined, the 
 calcined dolonaite being added to the bittern, the mixture heated 
 with diluted sulphuric acid, and the solution concentrated until 
 crystals separate on cooling. 
 
 Properties. — Epsom salt is usually sold in transparent, 
 colourless, minute, right rhombic prisms ; but by slow crystal- 
 lisation it is got in large prisms. It has a cooling, saline, 
 nauseous, bitter taste ; is insoluble in alcohol, but soluble in its 
 own weight of temperate water, and in three-fourths of boiling 
 water. When heated, it fuses in its water of crystallisation ; 
 but, as the temperature is raised, the water volatilises, and a 
 colourless glass remains. In solution, it gives a copious white 
 precipitate of barium sulphate, with barium chloride ; and the 
 white magnesia ammonia phosphate, with a mixed solution of 
 ammonia, chloride of ammonium, and phosphate of soda. Its 
 aqueous solution at ordinary temperatures is not precipitated 
 by oxalate of ammonia (showing absence of lime), nor should 
 it give a brown precipitate with chlorinated lime or soda (tes- 
 tifying absence of iron and manganese) {Brit. Phar^ It is 
 isomorphous with zinc sulphate, from which it is readily distin- 
 guished by its saline bitter taste, by the absence of metaUic 
 astringency, and by its neutral solution giving no precipitate 
 with hydrogen sulphide. Epsom salt is distinguished from 
 Glauber salt by its neither efflorescing when exposed to the 
 air, nor communicating any yeUow coloiir to the flame of alco- 
 hol. From oxalic acid, for which it has been sometimes mis- 
 'taken, it is easily distinguished by its finer and more needle- 
 like crystals, its bitter taste devoid of acidity, and its precipi- 
 tating alkaline carbonates without effervescence. 
 
 Actions and Uses. — Epsom salt is purgative, alterative. 
 
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PURGATIVE, ALTERATIVE, AND FEBRIFUGE. 375 
 
 febrifuge, and antiphlogistic. It closely resembles common 
 and Glauber salts, and is a more active cathartic than potas- 
 sium bitartrate or sodium phosphate. 
 
 General Actions. — It has a low diffusion power, passes tardily- 
 through animal membranes, retards absorption of fluid from the 
 canal, and is itself absorbed chiefly from the stomach and duo- 
 denum. Whilst in the blood, it is believed to diminish the 
 cohesive tendency of the red corpuscles, to remove fibria and 
 retard coagulation (Dr. John Harley, Eoyle's Mat. Med., 6th 
 edition). It is shortly excreted through the intestinal glands 
 and vessels iato the large bowels, along with a large amount of 
 serum and flbrin in solution. This excretory process has been 
 admirably illustrated by Dr. Lauder Brunton {The Tractitioner, 
 May and June 1874), who placed four ligatures round the in- 
 testines of a cat, so as to make three separate closed sacs from 
 five to seven iuches, long, iato the centre one of which he in- 
 jected seven grains Epsom salt dissolved iu 105 minims of 
 water. The cat was killed four hours later, and although the 
 two outside sacs were quite empty, the middle one, into which 
 the purgative had been injected, contaiued 320 minims of pale 
 amber fluid, of the nature of a secretion rather than an albu- 
 minous exudation. In two similar experiments, 425 and 250 
 minims of fluid were found four or five hours after the injection 
 of 85 and 90 minims of saturated solution of Epsom salt. The 
 loops on either side were empty ; no congestion or inflammation 
 was noticed. Croton oil, elaterium, and gamboge, tested by 
 like experiment, aU caused similar copious secretion, but none 
 so abundant as Epsom salt, which yielded 42 and 56 minims 
 per square inch of iatestiue acted on by the purgative. This 
 free secretion and osmosis from the intestinal walls is the chief 
 specialty of Epsom salt, adapts it for softening dry hard faeces, 
 a result often safely effected by small, freely diluted, repeated 
 doses, secures the free washing out of the alimentary canal, 
 whilst the removal of so much fluid and dissolved fibrin further 
 develops marked febrifuge and antiphlogistic properties. Pro- 
 fessor Eutherford's experiments on dogs iudicate that magnesium 
 sulphate, unlike sodium and potassium sulphates, has no stimu- 
 lant action on the liver (British Medical and Surgical Journal, 
 November 1875). But it nevertheless notably counteracts 
 " biliousness," alike in men and animals, by sweeping away un- 
 
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376 MAGliTESIA SULPHATE 
 
 absorbed bile, generally present in the duodenum, and which, 
 unless removed, becomes reabsorbed. Like other salines, it is 
 an uncertain and sometimes violent cathartic for horses, 
 often acts unexpectedly on the kidneys, but in repeated doses 
 of two or three ounces proves a valuable alterative and febri- 
 fuge. On dogs its purgative effect is irregular, and often ac- 
 companied by nausea and vomiting. For cattle and sheep it is 
 a most convenient and effectual cathartic, equalled only by 
 common salt in rapidity and fulness of action. On cattle, full 
 doses generally take effect in twelve or fifteen hours, and cause 
 very fluid evacuations. Besides causing purgation, it diminishes 
 blood pressure and abates fever and plethora; whilst moderate, 
 frequently repeated doses, in all animals, also augment the 
 secretions of the skin and kidneys. 
 
 Medicinal Uses. — To ruminating animals it is given for all 
 the ordinary purposes of a purgative — ^to evacuate the bowels 
 in indigestion, constipation, and the earlier stages of diarrhoea ; 
 to remove noxious matters from the blood, as in febrile and 
 inflammatory affections ; and to induce extensive counter- 
 irritation, as in inflammation of the brain, eye, and most other 
 organs, except the intestines. ' Although not a desirable purga- 
 tive for horses, it is a very useful febrifuge. One to three 
 ounces, given in influenza, pneumonia, and indeed in most 
 febrile and inflammatory disorders, improve the appetite, abate 
 noisome clamminess of the mouth, lessen fever, lower blood 
 pressure and excessive temperature, and help to establish and 
 maintain a healthy and regular action of the bowels. For 
 such febrifuge purposes, whether in horses or cattle, it is given 
 once or twice daily, but should be withheld or diminished in 
 amount whenever the bowels become unduly relaxed, or where 
 flatulence or spasm follows its use. It acts more certainly and 
 regularly when given in solution than ia bolus. It is often 
 conjoined with nitre and other salines, and in convalescence 
 from acute disorders, with powdered gentian and other carmina- 
 tives. Epsom salt is one of the best antidotes for poisoning by 
 lead or barium ; it converts them into insoluble sulphates ; and 
 further evokes the action of the bowels, which, in lead poison- 
 ing, is apt to be impaired and tardy. In smaller and repeated 
 doses it acts as a diuretic, but is seldom specially used for" that 
 purpose. It is frequently added to laxative clysters. 
 
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A GOOD CATHARTIC FOE RUMINANTS. 377 
 
 Doses, etc. — ^As a cathartic, adult cattle take Ibj. to Ibij. ; 
 calves of two to three months giij. or §iv. ; sheep and pigs, 
 giv. to §vi. ; dogs, 3ii. to 3iv. One-fourth or one-sixth of 
 these doses are often effectual in removing indigestion, keeping 
 up the action of other cathartics, and as febrifuges and altera- 
 tives. Epsom salt is given dissolved in ten or iifteen parts of 
 "water. To conceal its nauseously bitter taste, it is administiered 
 with treacle or with sulphuric acid, in the proportion of about 
 ten drops to every ounce of salt. To expedite its purgative 
 action, and prevent nausea and griping, there is usually added 
 some carminative, such as a drachm of ginger to the ounce of 
 salt. Where prompt and full purgation is desired in cattle .or 
 sheep, equal weight of Epsom and common salt is preferable to 
 either given alone ; a like quantity of treacle and fuU dose of 
 ginger are added ; and aU dissolved in a liberal amount of 
 tepid water. In obstinate constipation and torpidity of the 
 bowels among cattle, it is sometimes requisite to add to such 
 saline purges twelve or fifteen croton beans, a drachm of 
 calomel, or haK an ounce of gamboge, and to follow this up 
 with repeated doses of treacle and ginger. For febrifuge and 
 alterative purposes, Epsom salt is conjoined with nitrei mineral 
 acids, gentian, and other bitters. 
 
 MAESH MALLOW EOOT. 
 
 Althese Eadix. Dried Eoot of Althea officinalis. 
 
 Nat. Ord. — Malvaceae. Sex. Syst. — Monadelphia Polyandria. 
 
 The plants of the natural family Malvaceae are rich in 
 mucilage, and most of them yield tenacious fibres, from which 
 cordage is obtained. The seeds of the several species Gos- 
 sypium are surrounded by delicate, flattened, twisted hairs, 
 which constitute raw cotton. The marsh mallow grows both 
 in this country and on the Continent, generally in the neigh- 
 bourhood of rivers and salt marshes. The flowers, stem, and 
 leaves yield mucilage, but in lesser proportion than the biennial 
 root of the cultivated plant, which is sold in light-coloured, 
 fibrous, cylindrical pieces, several inches long, and about an 
 inch in circumference. Its sweet taste depends on the presence 
 of uncrystaUisable sugar; it further contains twenty-five to 
 
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378 MERCURY : 
 
 thirty per cent of starch, about t-wenty-five of bassorin (C12 Hj, 
 Oio) identical with that of linseed, one to two of asparagin, and a 
 crystalline neutral inert principle. 
 
 Actions and Uses. — The common and marsh mallow roots are 
 employed both internally and externally for the several purposes 
 of demulcents and emollients, nearly resemble linseed, and are 
 used for drenches and poultices, and for making up boluses and 
 emulsions. 
 
 MEECUEY AND ITS MEDICINAL COMPOUNDS. 
 
 Meecuey. Hydrargyrum. Quicksilver. Hg. 
 
 From its mobility and volatility, this metal is aptly named 
 after the messenger of the gods ; to its silvery appearance it 
 owes its synonym hydrargyrum ; to its mobility and metallic 
 lustre such appellations as ac^ua argentum, ac[ua metallica, and 
 quicksilver. Although occasionally found in metallic globules, 
 its most important source is the sulphide or cinnabar, chiefly 
 obtained from Idria in Carniola, and Almaden in Spain, from 
 Peru, California, and latterly from China and Japan. When 
 the ore is roasted or heated with iron or lime, sulphur is got 
 rid of, and mercury distUs over, and is exported in cylindrical 
 wrought-iron bottles, holding from 60 to 112 lbs. 
 
 Mercury is easily distinguished by its mobUity, liquidity, 
 and silvery-white lustre. It is tasteless and odourless ; freezes 
 at —40°, forming octahedral crystals ; slowly volatilises at all 
 temperatures; and boils at 662°, forming a dense colourless 
 gas. Its specific gravity at 60° is 13'6, its atomic weight 200. 
 It is diatomic, forming, like copper, two series of salts, the lower 
 or mercurous, the higher or mercuric. When pure, its globules 
 roU readily over a sheet of white paper without losing their 
 spherical shape, or leaving a stain. It readily forms amalgams 
 with other metals ; with about four parts of tin the sHveriag 
 is made for looking-glasses. Triturated with fatty or saccharine 
 substances,, as in the preparation of mercurial ointments, lini- 
 ments, and pOls, the metal loses its fluidity and globular 
 structure, is reduced to the condition of a dark gray powder, 
 whilst a small portion is oxidised. 
 
 Chemical Tests. — ^Metallic mercury is identified by the 
 characters already mentioned ; its several compounds are dis- 
 
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CHEMICAL TESTS. 379 
 
 tinguishable by the foUowing tests ;; — (a) Slightly heated in a 
 quarter-inch test-tube with dry sodium carbonate, they under- 
 go decomposition, their metallic portion volatilising, and con- 
 densing in the cool part of the tube in minute metallic globules. ' 
 (&) Prom a neutral solution, whether organic or inorganic, 
 whether containing a mercurous or mercuric salt, the metal 
 may be extracted by heating in it a slip of clean copper, on 
 which the mercury condenses, (c) When a drop of a solution 
 of a mercury salt is placed upon a sovereign, and a key or 
 other convenient piece of iron applied so as to touch at the 
 same time the gold and the solution, a current of electricity is 
 evolved, which decomposes the salt and precipitates its mercury 
 on the gold as a dark-gray staia, easily removable by heat. 
 ((?) In solution, if a mercurous salt is present hydrochloric acid 
 produces a white precipitate. Silver and lead have similar 
 white insoluble chlorides ; and the three are distinguished by 
 their behaviour with solution of ammonia, which blackens the 
 mercurous chloride, dissolves the silver chloride, but leaves the 
 lead chloride unaltered, (e) Hydrogen sulphide and ammonia 
 hydro-sulphide give a black sulphide, insoluble in nitric acid. 
 There are numerous confirmatory tests. (/) Alkalies and lime- 
 water with mercurous salts yield gray or black precipitates of 
 the lower oxide ; with mercuric salts, the yellow, red, or higher 
 oxide, {g) Potassium iodide, added to mercurous solutions, gives 
 the green unstable mercurous iodide ; added to mercuric solu- 
 tions, it gives the red or scarlet mercuric iodide, which is 
 soluble in excess either of the mercury or potassium salt. 
 
 Actions and Uses. — Mercury, so long as it remains uncom- 
 bined, like other metals, is devoid of physiological" action. 
 Several pounds given to human patients for the purpose of 
 removing obstruction of the bowels, exert only mechanical 
 effects. In a state of fine division it is, however, readily oxi- 
 dised or dissolved, and thus acquires active properties. In this 
 way mercurial vapours speedily become poisonous, and exert 
 their effects on water-gilders, barometer, thermometer, and look- 
 ing-glass makers, who work with the metal. The volatility and 
 poisonous action of mercury were seriously illustrated in the case 
 of the Triumph man-of-war and Phipps schooner, which received 
 on board several tons of quicksilver, saved from the wreck of a 
 vessel near Cadiz in 1809. From the rotting of the bags, the 
 
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380 MERCURIALISM : 
 
 mercury escaped, and the whole of the crews became more or 
 less affected. In the space of three weeks two hundred -men 
 were salivated, two died, and aU the animals — cats, dogs, sheep, 
 fowls, a canary bird, nay, even the rats, mice, and cockroaches 
 — were destroyed (Pereira). Out of 516 workmen variously 
 employed at the Quicksilver Works at Idria, 122 were, in 
 1856, affected with dyspepsia, scrofula, anaemia, neuralgia, 
 mercurial gout, tremor, and caries. The finely-divided mercury 
 so pervades the atmosphere, that cows feeding in the neighbour- 
 hood of the furnaces suffer from excessive secretion of saliva, 
 become unthrifty, and abort ; the calves are also often ailing ; 
 whilst trout in the adjacent reservoirs, contaminated by the 
 waste products of the furnaces, lose their red spots and become 
 sickly. 
 
 With the exception of the sulphides, which, according to 
 Orfila, are inert, all mercurials are absorbed and enter the 
 blood; they are irritant and alterative; they are specially 
 attracted to, and tend to accumulate in, the lymphatic glandular 
 system; they promptly stimulate the salivary and intestinal 
 glands ; fuU or frequent doses disintegrate the blood and soft 
 solids, and produce the specific condition of mercurialism ; 
 they are excreted by the mucous and glandular surfaces, and 
 notably by the kidneys. The nitrates, red iodide, and higher 
 chloride, better known as corrosive sublimate, are powerfully 
 irritant and corrosive. The higher per, or mercuric salts, are 
 more active and corrosive than the corresponding lower, or 
 mercurous. The most convenient alteratives and cathartics are 
 calomel, gray powder, and blue piU. Mercury salts resemble 
 those of antimony in increasing waste, but are slower and more 
 permanent in their antiphlogistic effects, and act on the 
 lymphatic glandular organs, rather than on the skin and mucous 
 membranes. They resemble iodine in increasing waste, and 
 producing blood-poisoning, but have a wider range of action, 
 and stimulate more directly the glands and lymphatic system. 
 
 Mercurials produce a specific condition called mercurialism, 
 of which the symptoms are tolerably uniform in aU animals. 
 Secretion and excretion are increased. The abundant flow of 
 saliva, so notable in man, is not observed to the same extent 
 amongst the lower animals ; large quantities of faeces are 
 passed, containing much mucus; the kidneys and skin are 
 
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ANTIPHLOGISTIC AND DEOBSTRUENT EFFECTS. 381 
 
 unusually active; the mouth becomes tender, the gums red, 
 soft, and swoUen, the breath foetid ; the pulse usually some- 
 what accelerated. There is impaired appetite, with nausea, 
 gradual loss of condition, and general weakness. In man, there 
 results a peculiar trembling paralysis, depending upon irritation 
 and debility of the motor centres (Dr. Harley). The blood 
 forms a soft friable clot, loses in man one-third of its fibrin, 
 one-seventh of its albumin, one-sixth of its globules, and is 
 loaded with a foetid oU. Mercury remains a considerable time 
 in the body. In rabbits which received a single dose of corro- 
 sive sublimate, the poison was detected in half an hour in aU 
 the tissues, and continmed to be excreted during four days. It 
 has been detected in the urine of man four weeks after its 
 administration ceased (Schneider). Years after its use, globules 
 have been found in the cancellous structure of the bones. 
 It is excreted by the mucous membrane of the intestines, and 
 also by the kidneys. It gets into the milk of nursing females, 
 and Gasparin has seen lambs die from mercurialism when the 
 ewes have been freely dressed with ointment. 
 
 Mercurials exert various curative actions. Glandular en- 
 largements or indurations are diminished ; acute iaflanmiation 
 is mitigated or subdued ; exudation of lymph is checked. Such 
 beneficial effects are stated to be especially observable in iufiam- 
 mation of serous and parenchymatous textures, as in pleurisy, 
 liver complaint, and ophthalmia. Mercurialism is producible 
 in any of the lower animals, but with most difficulty in horses, 
 which, like other animals, manifest, however, various degrees of 
 susceptibility. Thus Mr. PercivaU, ia his Effects of MediciTies., 
 mentions that ten grains of calomel, given daily to a four-year- 
 old horse, made the mouth so sore by the fifth day, that he 
 " cudded " his hay ; whilst a mare had six drachms of calomel, 
 two ounces of blue pUl, and mercurial ointment well rubbed 
 into her thighs, without suffering either from sore mouth or 
 salivation. Mercurialism occasionally results from one large 
 dose, when it is apt to be violent and difiicult to control ; but 
 is induced more certainly and safely, by small and repeated 
 doses of calomel, or any mild mercurial, and its production is 
 hastened by using the medicine both externally and iatemaUy, 
 and by blood-lettiag, nauseating medicines, or other means 
 which diminish vascular tension and favour absorption. In 
 
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382 MERCUEIAL OINTMENT 
 
 the lower animals, I do not, however, believe that any good 
 results are obtained from mercurialism, which are not more 
 readily and safely secured by salines , and other " remedies. 
 Whilst mercurialism continues, the patient must be carefully 
 protected from cold and wet. When it is to be arrested, the 
 admiiiistration of the mercurial must be suspended, a saline 
 purge exhibited, the mouth, if sore, repeatedly washed with 
 solution of chloriaated lime or alum, and the removal of chronic 
 effects hastened by sulphurous fumigation or baths, potassium 
 iodide, and small doses of opium. 
 
 Mercueial Ointment. Unguentum Hydrargyri. 
 
 Mercurial or blue ointment, of good quality, cannot be 
 made on the small scale without immense labour and loss of 
 time. The wholesale manufacturer prepares it in the following 
 manner : — The materials, consisting of equal weights of mercury 
 and hog's lard, to which the Pharmacopoeia directs the addition 
 of one-siKteenth part of suet, " are kept in the fluid state by a 
 temperature of about 100°, and are driven round with rapidity 
 in a circular trough by two spherical iron balls, which are pro- 
 pelled by means of a steam-engine ; and in this way extraction 
 is accomplished in the course of 1 2 hours " (Christison's Dis- 
 pensatory). ' The process is facilitated by adding to the mate- 
 rials a sixteenth part of old ointment, or a small quantity of 
 potassium nitrate or sulphate. The quality and purity of 
 mercurial ointment are estimated by its bluish-gray colour ; by 
 its specific gravity, which should be 1"78 ; by observing, with 
 a magnifying lens of four powers, whether the metallic globules 
 are extinguished ; or by removing the fatty matters by ether, 
 and weighing the residue. This strong ointment is usually 
 diluted with two or three parts of hog's lard or soft soap. 
 Good mercurial ointment contains about one per cent of its 
 mercury in the state of oxide, and during application, infriction 
 and exposure increase this more active oxidised portion. 
 
 Actions and Uses. — Mercurial ointment, when merely laid 
 on the surface of the skin, acts very slightly ; when applied 
 with smart friction, it irritates and vesicates. It is used in the 
 several domesticated animals as a stimulant for indolent sores, 
 ulcers, and chronic swelluigs. For destroying Kce and other 
 
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STIMULANT, DEOBSTRUENT, AND ANTIPAEASITIC. 383 
 
 vermin g,ffectiiig the skin, it is not superior to many milder 
 and safer remedies. For mange, scab, and other scurfy skin 
 diseases, it is generally appHed along with tar, sulphur, or 
 iodine. In some localities it is used much too freely. Pro- 
 fessor John Gamgee states that a druggist in Boston sold in 
 one year 2 5 tons of mercurial ointment, mostly to farmers. It 
 requires very cautious using, for, besides undue irritant effects, 
 it is apt to become absorbed. I have repeatedly known sheep 
 dressed for scab waste and die from mercurial poisoning. In 
 Lincolnshire a lot of sheep were dressed with blue oiutment, 
 and forty died with symptoms of short breathing, a peculiar 
 grunt indicative of paia, and the heads drooping to the ground 
 (Taylor on Poisons). The property of absorption is, however, 
 sometimes usefully exerted ia aiding the effects of mercury 
 given internally. Two ounces of the stronger mercurial oiat- 
 ment rubbed daily into the skin of a horse, salivates in four 
 or five days. 
 
 Mekcukial Liniment. Linimentum Hydrargyri. 
 Mercurial Oleate. 
 
 An ounce of ointment, with a fluid ounce each of ammonia 
 solution and camphor liniment, shaken together, constitutes the 
 liniment of the British Pharmacopoeia. Its effects are similar 
 to those of the ointment. Two compound linimentfe suitable 
 for skin diseases, enlarged glands, and chronic indurations, 
 are subjoined : — 
 
 Mercurial ointment, 2 ounces. Mercurial ointment, 2 ounces. 
 
 Camphor, 1 drachm. Creasote, 1 drachm. 
 
 Oil of tar, 4 ounces. Liquor ammonise, 2 ounces. 
 
 Linseed oil, 4 ounces. Linseed oU, 6 ounces. 
 
 Mr. John Marshall, the eminent surgeon, uses an oleate of 
 mercury and morphine, made by heating oleic acid to about 
 300° with five to twenty per cent of mercury red oxide. A 
 grain of morphine to the drachm of oleate is added during 
 cooling. This preparation is stated to have great penetrating 
 power, is applied with the finger or brush ; although readily 
 absorbed, it does not, with ordinary care, cause salivation. It 
 has proved useful in chronic inflammation of joints, painful 
 
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384 MERCURIAL POWDER AND PILLS 
 
 exostosis, rheumatisin, garget, and indurations of the udder, 
 with glandular and indolent swellings. It also effectually 
 destroys lice and their ova, and Mr. Marshall urges its use ia 
 relieving pain and checking morbid action in pleurisy, pneu- 
 monia, and pericarditis. 
 
 Meecueial Plastee. Emplastrum Hydrargyri. 
 
 For its preparation the British Pharmacopoeia gives the 
 following directions : — " Heat one fluid drachm of olive oil with 
 eight grains of sulphur, gradually added until they unite. With 
 this triturate three oimces of mercury until globules are no 
 longer visible ; then add six ounces of lead-plaster, previously 
 liquefied, and mix thoroughly." It is occasionally used as a 
 stimulant for glandular and chronic enlargements, windgaUs, 
 and other bursal swellings. 
 
 Meecuey with Chalk oe Magnesia. Hydrargyrum cum Greta 
 vel Magnesia. Gray Powder. 
 
 These mixtures are made by triturating together an ounce 
 by weight of mercury with two ounces of chalk or magnesia 
 until globules disappear, and the mixture acquires a uniform 
 gray colour. The mercury with chalk or gray powder should 
 be free from grittiness, insoluble in water, its chalk soluble in 
 hydrochloric acid, leaving the mercury in a finely-divided state. 
 Both preparations are laxative, alterative, and antacid. I fre- 
 quently give gray powder with good effect to young calves 
 suffering from indigestion and diarrhoea, in doses of ten or 
 fifteen grains, repeated several times a day, conveniently placed 
 on the patient's tongue, or administered with a drachm of 
 ginger, either in spirits and water, milk, or a little gruel. As 
 an alterative for dogs, five to ten grains are prescribed. In the 
 earlier stages of distemper, Mr. Mayhew recommends grs. v. to 
 grs. XV. of gray powder, conjoined with gr. i. to grs. v. of 
 ipecacuan. 
 
 Meecueial oe Blue Pills. Pilula Hydrargyri. 
 
 These piUs, so much used in human medicine, are seldom 
 employed in veterinary practice. They contain two parts by 
 
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LAXATIVE AND ALTERATIVE. 385 
 
 weight of mercury, one of liquorice root, and three of confection 
 of roses. The addition to this of about one part of ferric oxide 
 produces a pill mass which has been recommended by Mr. 
 Morton as an alterative for horses, in doses of half a drachm 
 to a drachm. Mr. Mayhew recommends, as a purge for a 
 medium-sized dog, five grains blue pill, six grains powdered 
 colchicum, and ten grains colocynth extract. Five grains blue 
 piU and ten grains compound extract of colocynth, flavoured 
 with a few drops of oil of peppermint or of cloves, make a con- 
 venient laxative and alterative pill for a large dog, or two or 
 three doses for a smaller. 
 
 Mercury Black Oxide. Hydrargyri Suboxidum. Mercurous 
 Oxide. Hg2 0. 
 
 The black, gray, or lower oxide is prepared by decomposing 
 calomel (Hg 01) with a solution of an alkali or an alkaline 
 earth. It is a heavy black powder, devoid of taste or odour, 
 insoluble in water and alkalies, but soluble in nitric and acetic 
 acids. It is unstable, and readUy decomposes on exposure to 
 light. It is less active than the higher or red oxide ; and is 
 chiefly used, as a stimulant ;for unhealthy sores and ulcers, in 
 the form of the black wash — the lotio hydrargyri nigra of the 
 Pharmacopoeia — made by mixing thirty grains calomel with 
 ten fluid ounces hme water. 
 
 Mercury Eed Oxide. Hydrargyri Oxidum Eubrum. Mercuric 
 Oxide. Eed Precipitate. Hg 0. 
 
 The red, yellow, or' higher oxide is prepared by decompos- 
 ing corrosive sublimate with lime water, or by heating mercuric 
 nitrate until acid fumes cease to be evolved. Prepared by the 
 precipitation process, it occurs in a hydrated state, has a yellow 
 or brown colour, and constitutes the yellow wash of surgery. 
 This lotio hydrargyri flava of the Pharmacopoeia is made by 
 mixing eighteen grains corrosive sublimate with ten fluid ounces 
 lime water. Prepared by heating the nitrate, it occurs in 
 orange-red crystals, which become yeUow when powdered and 
 brownish-black when heated, recovering, however, their original 
 colour on cooliag. It dissolves sparingly in water, but readily 
 in hydrochloric acid. It is devoid of odour, but has a metallic, 
 
 2 c 
 
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386 MEKCTTEY SULPHIDES AND SULPHATES. 
 
 acrid taste. It is greatly more active thain the black oxide, a 
 few grains causing fatal gastro-enteritis when given to dogs. 
 Eight to fifteen grains caused colic m horses, and one or two 
 drachms enteritis and death (Hertwig). It closely resembles 
 corrosive sublimate, and is applied externally as a stimulant 
 and escharotic for indolent ulcers, luxuriant granulations, un- 
 healthy eruptions, and chronic tumours, being used in the 
 several forms of powder, lotion, or ointment. 
 
 Mercury Sulphide. Hydrargyri Sulphuretum. Hg S. 
 
 Cinnabar, a red-brown native sulphide, found in Carniola 
 and Spain, is the most abundant ore of mercury ; a black amor- 
 phous sulphide is thrown down when hydrogen sulphide is 
 added to any mercury salt ; the beautiful bright-scarlet ver- 
 mUion is a mercuric sulphide, prepared by sublimation ; whilst 
 Ethiops mineral is a heavy black subsulphide, with excess of 
 sulphur. These sulphides are insoluble and nearly inert. 
 Ethiops mineral used to be given to horses as an anthelmintic 
 and specific for glanders, in doses of 3i. to 3iij- It has now, 
 however, deservedly fallen into discredit. 
 
 Mercury Sulphate. HydrargjTri Sulphas. Turbith or 
 Turpeth Mineral. 
 
 The four sulphates possess little veterinary interest. The 
 insoluble yellow turpeth mineral (Hg SO4 2Hg 0) is prepared 
 by triturating and washing the higher sulphate with boiling 
 water. Half a drachm to a drachm poisons dogs ; smaller doses 
 are emetic. It is an active, irritant, and errhine, was formerly 
 prescribed for glanders and farcy, but is now superseded by safer 
 and more certain remedies. 
 
 Mercury Chloride. Mercury Sub or Lower Chloride. Hy- 
 drargyri Subchloridum. Mercurous Chloride. Calomel. 
 HgCl. 
 
 Calomel is found native in Carniola and Spain, but in too 
 smaU amount to be of commercial value. It is obtained either 
 by decomposing a solution of the nitrate with a hot solution of 
 common salt, or by subliming a mixture of the lower sulphate 
 
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calomel: pkeparation akd properties. 387 
 
 and common salt. The latter process is now usually preferred, 
 and is thus carried out by the instructions of the British Phar- 
 macopoeia : — " Moisten ten ounces of sulphate of mercury with 
 boiling distilled water, and rub it with seven ounces of mercury, 
 until globules are no longer visible; add five ounces dried 
 chloride of sodium, and thoroughly mix the whole by continued 
 trituration. Sublime, by a suitable apparatus, into a chamber 
 of such size that the calomel, instead of adhering to its sides as 
 a crystalline crust, shall fall as fine powder on its floor. Wash 
 this powder with boiling distiLLed water, until the washings 
 cease to be darkened, by a drop of sulphide of ammoniimi. 
 Finally dry at a heat not exceeding 212°, and preserve in a jar 
 or bottle impervious to light." In this process the triturating 
 of metallic mercury with the sulphate produces a subsulphate ; 
 when this is heated with sodium chloride, mutual decomposition 
 occurs, calomel is sublimed, sodium sulphate remains. Traces 
 of corrosive sublimate are removed by repeated washing. 
 Thus : — 
 Merourous Sulphate. Sodium Chloride. Mercurous Chloride. Sodium Sulphate. 
 
 Hg2 SO4 + 2 Na CI = 2 Hg CI + m, SO, 
 
 Properties. — Sublimed and condensed in receivers, calomel 
 has a fibrous, horny, crystalline structure, a sparkling lustre, 
 and a yeUow-white colour, both in powder and mass. Sublimed 
 and condensed in large chambers, it is finely divided, and of a 
 dull white colour. Obtained by precipitation, it is snow-white, 
 but usually contains a trace of metal. It is inodorous, nearly 
 tasteless, insoluble in cold water, alcohol, and ether ; but par- 
 tially decomposed into metallic mercury and corrosive sublimate 
 by boiling water, especially when rich in salts, and by solutions 
 of potash, soda, and lime. At a red heat it volatilises, but at 
 lower temperatures it becomes yellow, regaining, however, its 
 original appearance when allowed to cool. Its specific gravity 
 is 7-2. 
 
 Impv/rities. — Admixture of corrosive sublimate, although 
 occasionally dreaded, rarely occurs. The minutest trace is dis- 
 covered by testing with hydrogen-sulphide, caustic potash, or 
 lime water ; and is readily dissolved out by agitation with cold 
 water. Sal-ammoniac, occasionally present, imparts a taste; 
 whilst sublimation leaves as residue any inorganic impurities. 
 
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388 MERCURY LOWER CHLORIDE — CALOMEL 
 
 Actions and Uses. — Calomel is irritant, stimulant, alterative, 
 and antiphlogistic. Large or repeated doses cause mercurialism. 
 It is an emetic for dogs and pigs. Passing out of tlie body, it 
 stimulates the various excreting organs, and proves cathartic, 
 diuretic, diaphoretic, sialogogue, and, according to some autho- 
 rities, cholagogue. Applied externally, it is stimulant and 
 desiccant. 
 
 General Actions. — Preceding the production either of poi- 
 sonous or curative actions, calomel is , dissolved and absorbed. 
 Professor Tuson, of the Eoyal Veterinary College, has shown 
 that calomel and distilled water, digested in a glass vessel at 
 100-2° Fahr. — the temperature of the stomach — when mixed 
 with either pepsin or a two per cent solution of hydrochloric 
 acid, remains unaltered, even after twenty-four hours ; but 
 when both pepsin and hydrochloric acid are used, solution 
 speedily occurs, and a black precipitate of mercury sulphide is 
 formed (Veterinarian, January 1872). The mucous secre- 
 tions of the canal, and also the bUe, further aid the solution of 
 calomel. The opinion sometimes entertained that it undergoes 
 partial conversion into the higher chloride, corrosive sublimate, 
 is contradicted by the fact that the chlorides in the canal are 
 insufficient to effect such a change (Monthly Journal of 
 Medical Science, 1851, p. 88). 
 
 Calomel is less irritant than corrosive sublimate or the 
 nitrates. Its irritant action, usually followed by its specific 
 constitutional effects, are produced in horses by three or four 
 drachms ; in cattle, by two or three drachms ; in sheep, by fifteen 
 to thirty grains ; in dogs, by six to thirty grains'. Hertwig found 
 that such doses caused, in twenty-four to thirty-six hours, and 
 in dogs in less time, occasional colic and copious excretion of 
 fseces, which contained bile, and were grayish-green in cattle, but 
 black in doge. Such doses, especially if repeated daily for three 
 or four days, further induce thin and stinking evacuations, foetor 
 of the breath, soreness of the mouth, rapid impairment of the ap- 
 petite and condition, and fatal low fever and dysentery. At the 
 Edinburgh Veterinary College, in June 1853, a healthy donkey 
 got a drachm of calomel daily m three separate doses. About 
 the sixth day the animal became excitable, and the pulse rose to 
 85. By the eighth day secretion of saliva was augmented, the 
 breath was foetid, the gums red and tender, and the appetite im- 
 
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STIMULANT, ALTERATIVE, AND ANTIPHLOGISTIC. 389 
 
 paired ; but nothing abnormal was observed about the faeces or 
 urine. By the twelfth day these symptoms became more aggra- 
 vated ; the pulse softer and less frequent ; the strength much 
 reduced. On the fourteenth day the administration of the calomel 
 was suspended, but death occurred two days later. The animal 
 had received fourteen drachms in fourteen days. Post-mortem 
 examination discovered the teeth loose, the mucous membrane 
 of the mouth and air-passages blanched, while that of the 
 stomach and intestines was softened,; easily torn, and in many 
 places thickly covered with mucus and epithelium. The liver 
 was rather friable, but the kidneys, spleen, and lungs were 
 healthy. Three or foul- grains, given night and morning, sali- 
 vated large dogs in a week, and killed them in nine days ; the 
 only notable appearances were imfiammation of the large intes- 
 tines, and of the sympathetic ganglia of the abdomen. Hert- 
 cwig considers that dogs and swine, on account of their often 
 getting rid of the medicine by vomiting, are less easily affected 
 than the other domesticated animals ; and that ho]?ses are less 
 susceptible than cattle. 
 
 Eegarding the action of calomel on the liver, some differences 
 of opinion stiU prevail. The late Professor John Hughes Ben- 
 nett, and the Committee of the British Medical Association, 
 appointed to investigate the subject, experimenting chiefly on 
 dogs with fistulous openings into the duodenum, arrived at the 
 conclusion that neither calomel, blue pUl, nor even corrosive 
 sublimate, affect the secretion of bile; unless they purge or im- 
 pair health, when the quantity of bile is diminished (Medical 
 Times and Gazette, vol. ii., 1869). Dr. A. Eohrig curarised 
 dogs, maintained life by artificial respiration, and placed a 
 glass tube in the gall duct. Croton oil in doses of 18 drops,' 
 introduced into the duodenum, increased or re-established the 
 biliary secretion. Colocynth, jalap, aloes, rhubarb, and senna, 
 acted with a power decreasing in the order named. Castor oil 
 and bitter salts had little effect. Calomel, even in 20-gi?ain 
 doses, did not re-establish the secretion when it had ceased, but 
 had a marked power in increasing and maintaining it beyond 
 the natura,! time for its cessation {Stricken' s Medicinische 
 JahrbucTier, 1873). Professors Eutherford and Vignal, also 
 experimenting oh curarised dogs, fonnd that doses of 10, 5, or 
 2 grains of calomel placed in the duodenum of fasting subjects 
 
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390 MERCUKY LOWER CHLORIDE — CALOMEL 
 
 produced purging ; they did not, however, increase secretion of 
 bile, but actually diminished it. Similar negative results oc- 
 curred even when calomel was introduced into the intestine, 
 mixed with bile or with hydrochloric acid. These carefully 
 repeated experiments of skilled observers justify the conclusion 
 that calomel, and other active mercurials, have no special chola- 
 gogue action ; that they do not stimulate the secretion of bile, as 
 they notably do of saliva. Stimulant effects are, nevertheless, 
 propagated to the liver by reflex action from the intestines irri- 
 tated by the mercurial, much in the same way as resinous pur- 
 gatives, croton, or even the food itself, when in the duodenum, 
 stimulate the functions of the liver, and contract the gall 
 bladder and hepatic ducts. 
 
 Medicinal Uses. — Few remedies have been applied to so 
 many and diversified uses, but neither in veterinary nor in 
 human medicine is it as much used as formerly. Amongst 
 the, domestic animals it is still prescribed to reduce and con- 
 trol acute inflammation, especially when affecting membranous 
 and parenchymatous tes!tures, as in pleurisy, common and puer- 
 peral peritonitis, laminitis, and iritis. These curative effects 
 cannot, however, be very satisfactorily explained. It appears 
 to alter the faulty condition of fibrin, albumin, and red corpus- 
 cles, to stimulate most of the secreting organs, and to promote 
 excretion of morbid products. In acute febrile and inflamma- 
 tory cases it is frequently prescribed after blood-letting or a few 
 doses of aconite, at intervals of one or two hours, and usually 
 combined with opium or some other agent which retards its 
 excretion. In enteritis, whether in horses or cattle, the late 
 Mr. Barlow sometimes used half a drachm of calomel, with an 
 ounce of laudanum, in a pint of gruel, repeated every hour until 
 three or four doses were taken, or until relief, nausea, or col- 
 lapse occurred. Two or three such doses are sometimes given, 
 at the outset of gastric fever in horses, but in such cases the 
 laudanum is probably of more benefit than the calomel. In 
 cases of metritis and peritonitis affecting cows three or four 
 days after calving, a good laxative alterative and sedative con- 
 sists of half a drachm calomel, two ounces laudanum, one pound 
 castor oil, mixed with hot water and treacle ; four doses are 
 given at intervals of two or three hours. Rheumatism, alike 
 in horses and cattle, is occasionally relieved by daily doses of 
 
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ANTIPHLOGISTIC AND PURGATIVE. 391 
 
 twenty grains each of calomel and quinine sulphate. Dysen- 
 tery and protracted diarrhoea amongst horses and cattle are 
 frequently benefited, the fever abated, the bowels rendered more 
 regular, by ten grains of calomel, a drachm of opium, and an 
 ounce each of gentian and chalk, made either into a bolus or a 
 drench, and repeated daily, or as required. A more hazardous 
 practice is sometimes pursued in these cases : large doses of 
 calomel are given, conjoined with opium. Small doses, such as 
 twenty grains for horses or cattle, half that amount for foals, 
 calves, or sheep, two or three grains for dogs, given either alone 
 or united with chalk or with laxatives, often prove useful in 
 indigestion, acidity. Bilious diarrhoea, and gastric catarrh, 
 accompanied by pale, noisome, clayey faeces, as well as in sur- 
 feit, nettle-rash, and old-standing skin disorders. Half-drachm 
 doses, with two or three drachms of aloes, followed by salines, 
 are prescribed in congested liver in horses. Its presum'ed 
 cholagogue action has led to calomel being given in jaundice 
 and chronic liver disease, sometimes conjoined with the rubbiag 
 of mercurial ointment into the right side, the mercurials being 
 persisted with until early constitutional symptoms present 
 themselves. But this treatment is not justified by recent 
 knowledge of the action of the medicine, whilst clinical expe- 
 rience besides testifies that jaundice and torpid liver are usually 
 best treated by laxatives and small and repeated doses of salines, 
 which sweep away unabsorbed bile, and nitro-muriatic acid, 
 which acts as a liver tonic. Two or three grains of calomel 
 given to dogs or pigs usually produce both emesis and catharsis ; 
 but, rmless in combination with tartar emetic, ipecacuan, or 
 mustard, the emetic action is neither prompt nor certain. 
 
 Calomel has an extended choice of channels of excretion, 
 and, like other irritants, increases the action of the excreting 
 organ. Its cathartic action is best developed by combining 
 it with other purgatives — as in horses, with aloes ; in cattle 
 and sheep, with salts or oils ; in dogs and pigs, with jalap or 
 oils. In obstinate constipation and torpidity of the bowels, 
 particularly in cattle, calomel is a useful adjunct. Along with 
 its cathartic action are often induced alterative, antiphlogistic, 
 and anthelmintic actions. Its diuretic and diaphoretic effects 
 are determined when it is used in combination. Doses sufficient 
 to induce purgation or mercurialism are to be avoided in malig- 
 
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392 MERCURY PERCHLORIDE 
 
 nant diseases, erysipelas, typhoid, and asthenic cases, and where 
 the patient is weak. 
 
 Applied externally, either in solution or ointment, it 
 destroys the acarus of scab and mange, kills lice, abates the 
 itching of those eczematous rashes which affect the hairy limbs 
 of underbred cart-horses, is used as a stimulant for warts, and 
 is one of the best remedies for thrush, and for relieving piles 
 in dogs. 
 
 Bases, etc. — As an alterative and antiphlogistic, horses and 
 cattle take grs. xx. to 3i. ; sheep and pigs, grs. x. to grs. xxx. ; 
 dogs, grs. ij. to grs. iij. ; given three or four times a day, along 
 with an equal weight of opium, to prevent their passing off too 
 rapidly by the bowels. As a cathartic, calomel is not used 
 alone ; the dose is consequently regulated by the amount of 
 the other purgatives with which it is combined. A drachm of 
 calomel, with five drachms of aloes, is a full purgative for the 
 horse ; one to two drachms, with a pound of Epsom or common 
 salt, a pint and a half of oil, or twenty croton beans, for cattle ; 
 three or four grains, with twenty to forty grains of jalap, for 
 the dog. As a vermifuge for the horse, the following combina- 
 tion may be given before feeding for three or four consecutive 
 mornings : — One drachm each of calomel, oil of male shield 
 fern, and aloes, with four drachms of ginger, made into a ball 
 with linseed meal:.and treacle. As an emetic for dogs or pigs, 
 two or three grains are given, with an equal quantity of tartar 
 emetic, in tepid water. To allay irritation of the skin, and 
 kill lice and other vermin, an ointment is used made with a 
 drachm of calomel to an ounce of lard. , 
 
 Mercury Perchloeide. Hydrargyri Perchloridum. Hydrar- 
 gyrum Corrosivum Sublimatum. Mercuric Chloride. Cor- 
 rosive Sublimate. Hg G\. 
 
 Corrosive sublimate and calomel must be carefully distid- 
 guished from each other. Both are chlorides of mercury, and, 
 owing to unfortunate differences respecting the combining 
 equivalent of their base, are occasionally described under the 
 same chemical name. Corrosive sublimate contains twice as 
 much chloriae as calomel, is the higher per or mercuric chlo- 
 ride (Hg Cy, and is a very soluble and actively corrosive 
 
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A CORROSIVE IRRITANT POISON. 393^ 
 
 poison ; whilst calomel, the lower or mercurous chloride (Hg 
 CI), is an insoluble, comparatively mild, and much used medi- 
 cine. By using, whether in speaking or writing, the vernacular 
 names of these two chlorides, risk of mistake is greatly dimin- 
 ished. 
 
 Preparation. — Corrosive sublimate may be prepared by 
 heating metallic mercury in chlorine gas, or dissolving it in 
 hydrochloric acid. The most common process, however, con- 
 sists in subliming a mixture of 20 parts of mercury persul- 
 phate, and 1 6 of sodium chloride, with one of manganese black 
 oxide, which secures oxidation of the sulphate, facilitates liber- 
 ation of the chlorine; and thus prevents the formation of 
 calomel. 
 
 Properties. — It occurs either as a dense white powder of 
 broken' crystals, or in white, semi-transparent, brittle, four-sided 
 prisms. It has no odour, but an acrid, disagreeable, metallic 
 taste, and a spec.grav. of 5 "4. When heated, it fuses, and 
 rises unchanged as an exceedingly acrid poisonous gas. It is 
 soluble in two parts of alcohol, still less of ether, three of boiling 
 water, and sixteen of cold water. It has an acid reaction on 
 colouring matter, and forms, with albumin and iibrin, ilaky 
 precipitates, soluble in solutions of common salt. It is decom- 
 posed by most vegetable solutions, especially when exposed to 
 light. Its powerful antiseptic properties prevent attacks of 
 vegetable and animal parasites, and recommend it for preserv- 
 ing wood, cordage, and anatomical preparations. Its tests 
 have been detailed (p. 378). It is not subject to intentional 
 adulteration. When pure, it is free from colour and moisture, 
 leaves no residue when heated, and is entirely soluble in water. 
 
 Actions and Uses. — It is a corrosive 3,nd irritant poison ; is 
 occasionally prescribed as an alterative, antiseptic, and antiphlo- 
 gistic ; repeated doses cause mercurialism. Externally, it is 
 used as a stimulant, astringent, caustic, and as an antiseptic 
 and parasiticide. 
 
 General Actions. — ^Full doses induce in carnivora vomit- 
 ing, and in all animals uneasiness, colicky pains, tenderness of 
 the abdomen, evacuation of bloody faeces, a small, wiry, and 
 accelerated pulse, short and difficult breathing, nausea, and 
 prostration of strength, with occasional convulsions — in short, 
 all the symptoms of acute gastro-enteritis, with nervous de- 
 
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394 MERCURY PERCHLOKIJDE 
 
 pression. Seven or eigM grains destroyed dogs in from seven to 
 thirty hours ; four drachms dissolved in three pounds of water, 
 killed a horse in twelve hours ; two drachms caused in cattle 
 great emaciation, and death in fourteen days ; one drachm 
 proved fatal to a sheep within twelve hours (Hertwig). Larger 
 quantities, however, are tolerated when the poison is given at 
 first in small doses. Thus Mr. PercivaU, experimenting upon 
 a horse, commenced with ten grains, and gradually increased 
 the dose to iive drachms before the appetite or pulse became 
 affected. Compared with poisoning with arsenic, the symp- 
 toms come on more rapidly ; therfe is more chemical and corro- 
 sive action, whilst in chronic cases salivation usually ensues. 
 Post-mortem examination discovers the mucous lining of the 
 alimentary canal softened and bluish-gray; where large doses 
 have been given, it is disorganised by the chemical action of 
 the poison ; where death is postponed for a day, patches of in- 
 flammation and sloughing are found, the kidneys and other 
 urinary organs are congested ; the lungs spotted with efPused 
 blood. The hearts of frogs and other animals destroyed by 
 corrosive sublimate cease to contract very soon after death ; and 
 the hearts of frogs suspended in corrosive sublimate solution do 
 not beat so long as when in water (Dr. Harley). Placed under- 
 neath the skin, or injected into the veins, the poison, in similar 
 quantities, produces the same symptoms and appearances as 
 when swallowed. Shepherds and others using strong solutions 
 frequently suffer from its irritant and also from its constitu- 
 tional effects. Dogs dressed with it for mange occasionally die 
 from gastro-enteritis. 
 
 The best antidote is albumin, which forms an insoluble and 
 inert mercury albuminate, and is, besides, useful as a demulcent. 
 It is conveniently given in the form of white of egg. One egg 
 suffices to counteract the effects of four grains of sublimate. 
 When eggs carmot be had, wheat or barley flour, milk, or other 
 albuminoids must be given, followed by astriagent solutions. 
 The stomach must be emptied either by emetics or the stomach- 
 pump. 
 
 Medicinal Uses. — For internal use, milder mercurials are 
 generally preferred. It has been prescribed for horses ia 
 glanders, farcy, chronic skin eruptions, and thick cedematous 
 legs resulting from repeated attacks of weed. Like other mer- 
 
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COKTKOLS INFLAMMATION AlfD PROMOTES ABSORPTION. 395 
 
 curials, it controls inflammation and promotes absorption of 
 exudate. Half, or even a quarter, of a grain, repeated every 
 two hours, is sometimes useful in arresting the slimy, bloody, 
 reducing discharges of dysentery in cattle. Conjoiaed with 
 opium, hemlock, and salines, it has been advised in rheumatism. 
 As a stimulant, antiseptic, astringent, and caustic, it is applied 
 to wounds of low reparative power, to indolent ulcers, to check 
 purulent discharges or exuberant granulations, to heal fistulse 
 and foot-rot in sheep. Its notable power of coagulating albu- 
 min has led to its use in open joints ; but synovia-coagulants, 
 and other devices for mechanically or chemically plugging such 
 openings, are seldom " of permanent effect ; and the rational 
 treatment consists in keeping the limb fixed, and reducing irri- 
 tation by cold water and antiseptic dressings. For destroying 
 lice and acari, no remedy is more effeptual; besides poisoning 
 the parasites, it also dissolves the albuminous envelope of the 
 nits or eggs, and thus arrests their development. It destroys 
 the ringworm parasite. Four or five grains, roUed in tissue 
 paper and introduced deeply into the sinuses of quittor and 
 other fistulse, in six or eight days sloughs out the fibrous secreting 
 walls. It stands next after zinc and iron chlorides on the list of 
 antiseptics ; one-thirtieth of a grain wholly arrests the fermenta- 
 tion of twenty-five grains of sugar and one drachm of yeast — 
 a result which it requires two 'grains of carbolic acid to effect. 
 
 Doses, etc. — r-Horses and cattle safely take grs. v. to grs. 
 viij. ; sheep and pigs, gr. j. ; dogs, gr. ^ to gr. -J-. It is more 
 safe and certain given freely dissolved in water or other simple 
 fluid. For most external purposes, a solution of sufficient 
 strength is made with three to six grains to the ounce of water. 
 An ointment of similar strength is used in skin .complaints, and 
 for destroying vermin infesting the skin. Ammoniated mer- 
 cury, sometimes employed for such cases, is an opaque, white, 
 insoluble powder, made by mixing solutions of corrosive sub- 
 limate and ammonia, and washing and drying the precipitate 
 (Hj N" Hg CI). Sixty-two grains are made into an ointment 
 with one ounce of simple ointment. To relieve itching, espe- 
 cially amongst dogs, two grains of corrosive sublimate and two 
 minims prussic acid are dissolved in an ounce of water. Such 
 poisonous remedies must, of course, be prescribed and used with 
 the greatest care. 
 
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396 MERCURY IODIDES 
 
 Mercuey Lower or Green Iodide. Hydrargyii lodidum 
 
 Viride. Merciirous Iodide. Hg I. 
 Mercury Higher or Eed Iodide. Hydrargyri lodidum 
 
 Eubrum. Mercuric Iodide. Hg I,. 
 
 The lower or green iodide, an unstable salt and an unne- 
 cessary encumbrance to the Pharmacopceia, is prepared by rub- 
 bing together the requisite proportions of iodine and mercury, 
 or by adding solution of potassium iodide to calomel or any 
 mercurous salt. It is not so active as the higher iodide; but a 
 scruple destroyed a rabbit within twenty-four hours, and a 
 drachm a pointer dog in five days (Cogswell). 
 
 The per higher or red iodide is usually met with as a bright 
 scarlet, heavy, inodorous, crystalline powder, with a disagreeable 
 metallic taste. It is insoluble in water, sparingly soluble in 
 cold alcohol, but soluble in ether, acids, solution of potassium 
 iodide, and most saline fluids. By direction of the British 
 Pharmacopceia, it is prepared by mixing corrosive sublimate and 
 potassium iodide, both in solution, when mutual decomposition 
 ensues, the clear supernatant fluid is decanted away, and the red 
 precipitate washed with distilled water and dried. 
 
 Actions and Uses. — The red iodide is as irritant as corro- 
 sive sublimate or mercuric nitrate ; a scruple, given to a rabbit, 
 induced gastro- enteritis and death in twenty-four hours. It is 
 not used internally, but, in the form of ointment, is applied as 
 a stimulant, counter-irritant, and caustic. This red ointment 
 is most effectual for condensing and reducing splints, spavins, 
 ring bones, and other bony deposits. It reduces chronic en- 
 largements and indurations of strained tendons, bursse, and 
 joints, and is occasionally used as a counter-irritant in sore 
 throat, chronic cough, and roaring. A strong ointment is fre- 
 quently rubbed into the rheumatic joints of cattle. It is, how- 
 ever, too powerful to be used, as fly blisters often are, imme- 
 diately after firing ; and when thus employed is apt to cause 
 sloughing and blemishing. One or two dressings are very ser- 
 viceable in arresting induration of the absorbent glands and 
 vessels in the earlier stages of farcy. It is more reliable than 
 mercurial or citrine ointments, sometimes substituted for it ; 
 indeed, few simple farcy cases resist its timeous employment, 
 conjoined with the administration, night and morning, of two 
 
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STIMULANTS AND COUN TEE-IRRITANTS. 397 
 
 drachms iron sulphate and ten grains arsenic, made into bolus 
 with Canada balsam and meal. The British Pharmacopoeia 
 orders the ointment to be, made by thoroughly mixing sixteen 
 grains red iodide with an ounce of iard ; but for most veterinary 
 purposes this ointment is not sufficiently strong, and a more 
 effective preparation is made by mixing one part of red iodide 
 with eight of lard. 
 
 Meecuey Niteate. Mercuric Mtrate. Hg 2 NO3. 
 Meecuey Nitrate Ointment. Unguentum Hydrargyri Nitratis. 
 Citrine Ointmente 
 
 When mercury is dissolved in excess of diluted nitric acid, 
 and the solution boiled for fifteen minutes, there is produced the 
 liquor hydrargyri nitratis acidus of the PharmacopcEia, — a colour- 
 less, strongly acid solution, sometimes used abroad as a powerful 
 caustic, and with twelve or fifteen parts of water and a little 
 nitric acid forming a good remedy for foot-rot in sheep. Mer- 
 cury nitrate is the active ingredient of citrine ointment, the 
 pharmaceutical imitation of the empirical Golden Eye Oint- 
 ment. Mr. Duncan, of Messrs. Duncan, Flockhart, and Com- 
 pany, chemists, Edinburgh, first discovered the secret of pre- 
 paring well-keeping citrine ointment, and his instructions are 
 embodied in the British Pharmacopoeia directions : — ■" Dissolve 
 four ounces of mercury in twelve ounces nitric acid, density 1'380 
 to 1"390, with the aid of gentle heat ; melt fifteen ounces of pre- 
 pared lard in thirty-two fluid ounces of olive oU, by a steam or 
 water bath, in a porcelain vessel capable of holding sis times 
 the quantity, and while the mixture is hot (about 180°), add the 
 solution of mercury, also hot, mixing them thoroughly. If the 
 mixture do not froth up, increase the heat until this occurs. 
 Keep it stirred until it is cold." When a less active prepara- 
 tion is required, the amount of mercury may be reduced to a 
 half or a fourth, stni "using, however, the same quantity of 
 nitric acid. Mild ointments, made by diluting the strong cit- 
 rine ointment with lard, are only fit for immediate use, as they 
 rapidly oxidise and spoU. 
 
 Properties.' — ^Well-prepared citrine ointment has a golden- 
 yellow colour, an unctuous consistence, a nitrous acid odour, 
 and retains these characters for a long time if kept in earthen- 
 
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398 METHYLIC ALCOHOL 
 
 ware or glass vessels, secluded from light. When ' badly pre- 
 pared, exposed to light, or in contact with iron, it speedily, 
 however, becomes of a grayish-green colour, hard, brittle, and 
 easily pulverised, owing to portions of the nitrate being reduced 
 to the metallic state. Samples injured by long keeping regain 
 their origiaal characters if heated with nitric acid. 
 
 Actions and Uses. — Citrine ointment is used as a stimulant 
 in chronic skin complaints ; it is one of the best remedies for 
 eczema ; it often abates the scurfiness and irritation remaining 
 in protracted cases of mange ; it destroys lice and the fungus 
 of ringworm ; cautiously used, diluted with olive oil or lard, it 
 greatly benefits irritable, swollen, discharging conditions of the 
 eyelids ; being easily absorbed, if freely applied, it induces the 
 usual specific effects of mercury. 
 
 METHYLIC ALCOHOL. 
 
 MethyHc Spirit. Pyroxylic Spirit. Wood Spirit. Wood 
 Naphtha. C H^ 0. 
 
 Wood spirit is the hydrate or alcohol of the radical methyl 
 (C Hg), and its properties are the same as those of spirit of 
 wine, the hydrate or alcohol of the ethyl series (p. 124). It 
 must be distinguished from , the mineral naphthas, which are 
 piire hydrocarbons, now largely imported from America, under 
 the name of rock oil, and the analogous bodies obtained from 
 the distillation of coal tar (p. 445). The crude acid liquor 
 resulting from the destructive distillation of wood when twice 
 rectified is sold as wood naphtha, or pyroligneous ether, and is 
 used as a solvent for resins, and burnt in lamps as a source of 
 heat. It still contains acetone and other volatile oily impuri- 
 ties, which render it milky when mixed with water. To get 
 rid' of these, it is saturated with calcium chloride, with which 
 it forms a definite crystallisable compound which, when 
 heated in a steam bath, gives off its volatile impurities, is 
 dissolved in water, digested with quicklime, and redistilled. 
 Thus rectified, it is neutral, limpid, colourless, but gradually 
 gets yellow by keeping, has a peculiar smoky, spirituous odour, 
 and a warm, aromatic, disagreeable taste. Its specific gravity 
 is 8'17 ; it is volatile and iaflammable, boils about 145°, mixes 
 
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STIMULANT, DIAPHORETIC, AND ANTISEPTIC. 399 
 
 with water in all proportions, and forms a cheap solvent for 
 many organic compounds. The caustic alkalies immediately 
 colour it brown, a character A*-hich readily distinguishes it from 
 spirits of wine. 
 
 Actions and Uses. — It is stimulant, restorative, diaphoretic, 
 and antiseptic ; in large doses an inebriating narcotic. It is 
 identical in aU respects with ethylic alcohol (p. 127), over 
 which it has the advantage of cheapness, but the disadvantage 
 of a disagreeable odour and taste. It is used as a readily 
 assimilable restorative and stimiilant in catarrh, sore throat, and 
 influenza in hard-worked horses : is fancied to have some virtue 
 m chronic cough, allays irritability of the stomach and vomitiag 
 in dogs, serves the various purposes of an antiseptic, dissolves 
 the active principles of many plants, and on account of its 
 inflammability is used to singe the hair of horses. 
 
 Doses, etc. — Horses and cattle take fgss. to fgj.; sheep and 
 pigs, f3i. to f3ij-; dogs, V([v. to TTLxx. Half an ounce, united 
 with an equal quantity of diluted ammonia solution, and given 
 in cold gruel, or in a pint of ale, proves a good stimulant and 
 anodyne for horses. Its unpleasant penetrating flavour lessens 
 the chances of its being misapplied, as ordinary spirit draughts 
 are apt to be. It is extensively used for making methylated 
 spirit, which consists of one part of methylated alcohol and 
 nine of rectified spirit, and is sold for pharmaceutic and tech- 
 nical purposes free of duty. 
 
 MUSTAED. 
 
 Siaapis. The seeds of the Siaapis nigra and Sinapis alba, 
 also the mixed seeds reduced to powder. — Brit. Phar. , 
 
 Nat. Ord. — Cruciferse. Sea;. Sj/st.— Tetradynamia Siliquosa. 
 
 The Sinapes are annuals one to two feet high, with yellow 
 cruciform flowers, and pods containing several brown seeds. 
 They are indigenous in all parts of Europe, and extensively 
 cultivated throughout Durham and Yorkshire. An abundant 
 wild variety, familiarly known as charlock and kellocks, is 
 sometimes used for adulterating the better sorts. The seeds of 
 the black mustard are dark brown, about the size of millet, 
 greenish-yeUow in powder, which has a pungent oily taste. 
 
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400 MUSTARD 
 
 smells slightly nauseous when dry, but is powerfully pene- 
 trating and irritant when moistened. The seeds of the white 
 mustard are lighter in colour, larger in size, and less pungent 
 and irritating. The mustard floiir of the shops, according to 
 information given to Sir Eobert Christison by an English 
 manufacturer, is made as follows : — " Two bushels of black and 
 three of white seed yield, when ground, 145 pounds of flour; 
 which, to diminish the pungency and improve the colour, is 
 mixed with fifty-six pounds of wheat flour and two pounds of 
 turmeric ; and the acrimony is restored, without the pungency, 
 by the addition of a pound of cluli pods and half a pound of 
 ginger. Black seed alone, it is added, would be much too 
 pungent for use at table. Wild mustard seed is sometimes 
 substituted for the black species if the latter be scarce. Some 
 manufacturers remove the fixed oil from both the white and 
 black seed, by means of expression, before making them into 
 mustard flour with the other ingredients, and the acrimony 
 of the product is thus increased " (Christison's Dispensatory). 
 This admixture of starch discovered by the iodine test, and of 
 aromatics, diminishes the potency of commercial mustard-flour 
 as a counter-irritant. Inorganic impurities, occasionally present, 
 are detected by their remaining after burning. 
 
 Both black and white mustard seeds contain about 23 per 
 cent of a yellow, tasteless, non-drying, fixed oil, similar to that 
 of rape ; 20 per cent of mucilage, chiefly in the epidermis ; 4 
 of inorganic matters ; and 10 to 1 5 of myrosin, an albuminous 
 ferment similar to diastase or the emulsin of bitter almonds. 
 Black mustard contains about 2^ per cent of the crystalline 
 potassium myronate or sinigrin; white mustard contains an 
 aUied principle, sinalbia. When these bodies are dissolved in 
 water, as in the ordinary mixing of the mustard flour into paste, 
 they are decomposed by the f ermentescible myrosin, and there 
 are produced two pungent, acrid, irritating volatile oils — oil of 
 mustard (C^ Hg NS) from the black mustard, and acrinyl 
 sulpho-cyanate (Cg H^ NSO) from the white mustard (Fliickiger 
 and Hanbury). 
 
 Actions and Uses. — Unbruised mustard-seeds have little 
 effect when swallowed, probably because they are only partially 
 and gradually digested. The flour, however, in large doses, is 
 an irritant ; in medicinal doses, a stomachic, carminative, and 
 
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RUBEFACIENT AND VESICANT. 401 
 
 stimxilaiit. A dessert-spoonful, dissolved in several ounces of 
 water, and given to the dog or cat, causes vomiting. It is 
 slightly laxative and diuretic, aUied to horse-radish and peppers, 
 hut is rarely given internally. 
 
 As an external irritant, it is in everyday use as a rube- 
 facient, vesicant, or suppurant. A paste made with water, and 
 rubhed into the skin, within fifteen miautes causes redness, 
 heat, and tenderness. Applied ia larger quantity, or with 
 smarter friction, the epidermis, after three or four hours, is 
 separated from the true skin by effusion of serum, the small 
 vesicles run into considerable blebs, which subsequently break 
 and suppurate. The surroimdiug parts are swollen. The skin 
 generally heals in a week. Occasionally, however, from repeated, 
 prolonged, or injudicious use, as in irritable states of the skin, 
 there ensue active inflammation, sloughing, and destruction of 
 the hair-roots. Compared with cantharides, mustard is more 
 prompt, but less permanent ; it is used to control functional 
 disturbance rather than to repair structural damage ; it causes 
 less exudation of serum, but -more swelling of surrounding 
 parts ; a'ppHed repeatedly, especially to the extremities of the 
 horse, it is more apt to affect the skin deeply, and hence .pro- 
 duce sloughiag ; unlike cantharides, it has no tendency to act 
 upon the kidneys. It is almost as prompt, and iS more manage- 
 able, than boHiug water. For horses, it is less irritating and 
 burning than oil of turpentiae. It is not so severe or so apt 
 to cause suppuration as euphorbium or croton oU. For cattle, 
 mustard is an excellent blister, often acting promptly on their 
 thick and insensible hides when other agents have slight or 
 tardy effect, and seldom causing injury or blemishing. For 
 sheep and dogs it is also useful, especially when applied, as it 
 ever should be, iu moderate amount, and for a short period. 
 
 For all veterinary patients suffering from catarrh, sore 
 throat, bronchitis, pneumonia, and pleurisy, mustard, especially 
 in the early stages, seldom fails to lessen pain and relieve dif&- 
 cult breathing. During the hepatisation stage of pneumonia it 
 is of httle use ; but after six or seven days is again serviceable 
 in sustaining the action of the heart ai;d promoting absorption. 
 It is most effectual when rubbed in over a considerable area 
 immediately external to the congested, painful, or inflamed 
 parts; after about fifteen minutes, washed off; and in an hour 
 
 2d 
 
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402 MUSTAED APPLICATIONS 
 
 or two, if rec[uired, again re-applied. In acute indigestion, in 
 eolic, enteritis, and typhoid fever, especially amongst horses, 
 repeated dressings of mustard often afford relief. In phlebitis, 
 a smart blister reduces inflammation, and hastens absorption of 
 exudate. It is of service in chronic rheumatism, especially 
 amongst cattle ; in the second stages of inflammation of joints 
 and tendons ; in enlargements of glands ; and occasionally as a 
 stimulant in chronic scurfy skin diseases. Flying blisters, 
 applied over the chest or abdomen, or below the knees and 
 hocks, especially when the limbs are cold, arouse vitality and 
 overcome congestion in the later stages of pneumonia and 
 typhoid fever, in parturient apoplexy of cattle, and in poisoning 
 by narcotics. Conjoined with stimulants, it is rubbed over the 
 region of the heart to counteract syncope. Applied over the 
 kidneys, it promotes diuresis. It is occasionally used for deter- 
 mining secretion of pus, for maintaining or increasing the effects 
 of cantharides ; but in horses, considerable caution is necessary 
 in applying the one irritant soon after the other. Mustard is 
 specially indicated where extensive counter-irritation is to be 
 speedily induced and stimulation of the kidneys avoided. It 
 is superseded by more permanent vesicants, such as cantharides 
 or mercury biniodide ointment in chronic diseases of joints, and 
 where structural changes have occurred in bone, cartilage, or 
 tendon. Neither mustard, nor indeed any blisters, can be 
 directly applied to pa,rts extensively or deeply inflamed without 
 great risk' of disorganisation and sloughing. 
 
 Doses, etc. — As a stomachic, carminative, and mild stimu- 
 lant, horses take 3iv. to 3vi. ; cattle, gss. to §j. ; sheep and pigs, 
 3i. to 3ij. ; dogs, grs. x. to grs. xx. Larger doses, especially in 
 solution, act as emetics in dogs and pigs. To prevent irrita- 
 tion of the fauces, it is given in the form of pill or electuary. 
 As an external irritant, it is used in the form of paste, occasion- 
 ally as plaster and poultice. The best mustard flour is made, 
 as for table purposes, into a paste with water, which should be 
 tepid, but not hot. When still greater activity is required, the 
 flour made from unmixed black mustard-seed may be used, or 
 the ordinary commercial mustard is mixed with oU of turpentine, 
 or with equal parts of oil of turpentine and ammonia solution. 
 Spirits and vinegar, sometimes advised as solvents, retard the 
 development of the active volatile oUs. A paste made with 
 
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EELIEVB CONGESTION AND PAIN. 403 
 
 water alone produced, in six minutes, effects similar to those 
 which it required fifty minutes to produce with the same mus- 
 tard made up with vinegar. For veterinary patients, little use 
 is made of plasters prepared by spreading mustard upon calico 
 or paper ; of " leaves," recently introduced into human practice, 
 and consisting of powdered mustard-seeds and gutta percha 
 solution spread upon cartridge paper and dried ; or of poultices, 
 ordered by the British Pharmacopoeia to be made with equal 
 parts of mustard and liuseed-meal, well stirred with four parts 
 of boOing water. In the lower animals, the freshly-made paste 
 is usually applied directly to the skin, with smart continued 
 friction ; after fifteen or twenty miuutes it is washed off with 
 tepid water, and may be again applied, if required, three or four 
 times a day. Such repeated moderate external warming up is 
 usually more serviceable than one violent irritant dressing, 
 whether for the relief of pain, the diminution of congestion, or 
 even for the removal of exudate. The wasteful, painful drain- 
 ing away of albuminoids from severely-blistered surfaces seldom 
 serves any good purpose, but, on the contrary, often hinders 
 repair or cure. 
 
 The volatile oil, prepared by distilling with water the seeds 
 of black mustard after the expression of the fixed oil, is a 
 prompt and powerful vesicant. Two drachms, rubbed into the 
 skin of a dog, caused immediate irritation, with the speedy for- 
 mation of large vesicles, surrounded by inflammatory swelling. 
 
 MYEEH. 
 
 Myrrha. Gum-resinous exudation from the stem of Balsamo- 
 dendron myrrha, collected in Arabia Felix and Abyssinia. 
 — Brit. Phar. 
 Nat. Ord. — Amyiidajeesi. Sex. %s<.-^— Octandiia Monogynia. 
 
 Myrrh is imported from the coasts of the Eed Sea,- chiefly 
 by way of Bombay. From the earliest times it has been used 
 with olibanum or frankincense in making iacense, perfumes, 
 holy oils, and unguents for embalming. It exudes spontane- 
 ously from perforations or cracks in the trunk or branches of at 
 least two species of shrubby thorn-Hke Balsamodendrons. It is 
 at first of an oily consistence and a yeUow-white colour, but 
 
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404 MYRRH 
 
 gradually becomes solid, like gum, and of a brown-red hue. The 
 best sorts, generally termed Turkey myrrh, are met with in 
 irregular-shaped, semi-translucent, red-brown tears, which deepen 
 in colour when breathed on. They are of variable size, brittle, 
 and easily powdered ; their fracture is irregular, shining, oily, 
 and occasionally dotted with opaque white markings. Myrrh 
 has a slightly bitter, acrid taste, and an agreeable, aromatic 
 odour. When heated, it softens, froths up, and burns, leav- 
 ing a dark spongy ash. Powdered with water it forms an 
 emulsion, but readily, dissolves in rectified spirit. It consists 
 of 40 to 65 per cent of soluble gum, probably arabin; 25 of 
 resia ; and rather less than 1 per cent of a faiatly green vola- 
 tile oil (riiicMger and Hanbury). 
 
 Impurities. — Inferior varieties, often mixed with the better 
 qualities, are coarse, opaque, hard, resinous, dark-coloured, and 
 devoid, or nearly so, of the characteristic aromatic odour and 
 peculiar balsamic taste. Bdellium, or false myrrh, imported from 
 Africa, and common iu second-rate specimens, is deficient in 
 lustre, aroma, and brittleness, and softens when held in the warm 
 hand. Straw, sand, and other mechanical impurities are some- 
 times present. 
 
 Actions and Uses. — ^Myrrh, givein internally, is a bitter 
 stomachic, feeble tonic, and stimulant ; externally, it is stimu- 
 lant and astringent. It gently stimulates the digestive mucous 
 membrane, improves the appetite, and arrests excessive mucous 
 secretion, bearing in this respect some resemblance to copaiva. 
 It is similar to the fragrant gum resin olibanum, and to the con- 
 crete resin of the Elemi tree imported from Manilla. It differs 
 from the turpentines and balsams in possessing tonic proper- 
 ties ; it is less stimidant and antispasmodic than the foetid gum 
 resins. It is occasionally prescribed in indigestion, in chronic 
 catarrh, and other mucous discharges ; but its principal veteri- 
 nary use is as a stimulant and antiseptic for wounds, applied in 
 the form of tincture and, compound tincture. 
 
 Doses, etc. — Horses and cattle take 3ij. ; sheep and pigs, 3ss. 
 to 3i. ; dogs, grs. x. to grs. xx. ; repeated several times daily, in 
 bolus, decoction, or tincture, often used with other tonics, or 
 with aloes, as in the form of the compound tincture of aloes 
 and myrrh, which is thus prepared : — Macerate one ounce each 
 of myrrh and aloes, coarsely powdered, in fourteen fluid 
 
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A BITTER STOMACHIC AND STIMULANT. 405 
 
 ounces of methylated spirit and six ounces of water, previously- 
 mixed, for fourteen days in a closed vessel ; shake frequently, 
 filter, and add proof spirit. to make one pint. 
 
 NITEIC ACID. 
 
 Acidum Mtricum. Aquafortis. 
 
 The strongest acid of commerce contains 85 per cent of 
 real nitric acid (NgOg), has the specific gravity 1"52, but is 
 inconveniently unstable, and gives off nitrous fumes. The 
 strongest acid of the Pharihacopoeia contains 60 per cent of 
 anhydrous acid, has the specific gravity l'42j is a definite 
 hydrate (2HNO3, SHg 0), and is ordered to be prepared by 
 distilling together in a glass retort equal weights of potas- 
 sium or sodium nitrate and sulphuric acid. On the large 
 scale, the commercial acid is prepared in iron retorts, from 
 seven parts of sodium nitrate and four of sulphuric acid. 
 The strength and causticity of these acids are iuconvenient, 
 and the Pharmacopoeia recognises a diluted acid with the 
 specific gravity I'lOl, and containing nearly 15 per cent of 
 anhydrous acid. 
 
 , Froperties. — ^Nitric acid in tolerably concentrated solution 
 is colourless ; emits pungent, corrosive, suffocating fumes ; has 
 an intensely sour taste ; oxidises, corrodes, and dissolves many 
 organic substances ; dropped on the skin, it produces a yellow 
 stain, deepened in colour by alkalies, and removed only by the 
 wearing down of the part. It has great affinity for water ; in 
 imperfectly stoppered bottles, it soon increases in quantity and 
 diminishes in strength ; diluted with water it evolves much 
 heat. Its characteristic tests are the production of an orange- 
 red colour with a solution or crystal of morphine or, brucine ; 
 copper, mercury, and some other metals deoxidise strong solu- 
 tions, with evolution of ruddy nitrous acid fumes (H NOj) ; it 
 gives a yellow stain of xanthoproteic acid to wool and to the 
 skin ; it bleaches a warm solution of indigo sulphate ; and 
 with a solution of ferrous sulphate, produces an oUve-brown 
 coloured ring where the two liquids meet., With bases, 
 nitric acid forms an extensive series of soluble salts, the 
 
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406 NITRIC ACID — AQUAFORTIS : 
 
 nitrates, which deflagrate when heated, and give the oKve- 
 brown or dark purple coIotot when a few crystals of ferrous 
 sulphate are dropped into a cold solution in a test-tube, 
 gently shaken, and eight or ten drops of strong sulphuric 
 acid added. 
 
 Impurities. — The tests of purity are the specific gravity, 
 which indicates the proportion of water ; the absence of colour ' 
 proves that no ruddy nitrous acid is present. Any trace of 
 sulphuric acid is precipitated from a diluted solution by barium 
 chloride; while hydrochloric acid is precipitated by silver 
 nitrate. 
 
 Actions and Uses. — According to quantity and degree of 
 concentration, nitric acid is irritant, corrosive, tonic, anti-alkaline, 
 and refrigerant. It is employed externally as a caustic stimu- 
 lant and antiseptic. The mineral acids closely resemble each 
 other, but Dr. Bence Jones states that hydrochloric chiefly pro- 
 motes digestion, nitric secretion, sulphuric astriagency ; nitro- 
 hydrochloric specially' stimulates the skiu and liver, whilst 
 phosphoric is believed to dissolve phosphate of lime, but lacks 
 alterative and astringent properties. 
 
 EeadUy absorbing water, and parting with oxygen, strong 
 solutions of nitric acid corrode the li-ving textures with which they 
 come iu contact. Both nitric and nitrous acids, whether in.fumes 
 or concentrated solution, are dangerously corrosive, although they 
 do not always prove immediately fatal. They cause gastro- 
 enteritis ; leave yellow or brown marks about the mouth and 
 fauces ; but ia the stomach and intestiues, this discoloration 
 is usually obscured by inflanamation and extravasation of blood. 
 In men and dogs, chronic inflammation of the alimentary 
 mucous membrane is sometimes set up, with arrested assunila- 
 tion, and death after several weeks. As with other irritants 
 nitric acid is less active and fatal in cattle than in horses and 
 dogs, owing to the stomachs of ruminants being so constantly 
 filled with food, and the lining membrane being thicker 
 and less vascular. Injected into the veins, it coagulates the 
 blood, and causes death in a few minutes. In all animals its 
 appropriate antidotes are diluted alkalies, or alkaline carbonates, 
 soap, chalk, and magnesia, given with diluents and demulcents, 
 irritation allayed by opium, nutrition aided by good, easUyp 
 digested food. 
 
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CORROSIVE, STIMULANT, AND ANTISEPTIC. 407 
 
 Medicinal doses exert stimulant and antiseptic effects on 
 relaxed and -ulcerated conditions of the mouth and fauces. 
 They are very diffusible, form salts in the blood, and diminish 
 its alkaUnity; favour the flow of saliva and other alkaline 
 secretions ; thus abate thirst, and prove refrigerant. But large 
 repeated doses, as of other acids, interfere with secretion of 
 gastric juice. It is sometimes prescribed ia atonic dyspepsia, 
 and where there is excessive fermentation, but ia such cases is 
 , scarcely so suitable as hydrochloric acid. Both nitric and 
 nitro-hydrochloric acids are adndnistered as alteratives and 
 tonics in atonic diarrhcea, especially of cattle and sheep; in 
 chronic enlargement and fatty degeneration of the liver ; ia 
 typhoid fever iu • horses ; and, alternated with arsenic, ia in- 
 veterate, mange, eczema, and farcy. 
 
 As a caustic, nitric acid is used for extirpating warts, fun- 
 gous and malignant growths which cannot be removed by the 
 knife, and for dissolving the hardened scurf which accumulates 
 in neglected cases of scab and mange. It destroys the virus 
 lodged ia poisoned wounds, excites a healthier action, and re- 
 moves noisome odour from caries, foul, and foot-rot, and arrests 
 spreading sloughiilg sores. As an eseharotic it is generally ap- 
 plied on a splinter of soft wood, surrounding tissues are protected 
 by wetting with oil, and imdue action arrested by subsequent 
 washiag with an alkaline solution. It is serviceable in abating 
 the itching of nettle-rash. Excessive sweatiag in horses during 
 exertion or sickness is occasionally checked by sponging the 
 skia several times daily with a very diluted acid solution. 
 Dissolved ia eighty or a hundred parts of water, it greatly 
 relieves the tenderness and tension of piles ia dogs. Diluted 
 solutions are injected into the bladder of man, to dissolve phos- 
 phatic calculi, and neutralise and preserve from decomposition 
 unduly alkaline urine ; but although such conditions are not un- 
 common in male pigs and sheep, the iajection of solvents cannot 
 be effected without opening the urethra. Mtric acid preserves 
 putrescible substances, and prevents evolution of hydrogen 
 sulphide and other noisome gases more effectually than either 
 hydrochloric or sulphuric acids ; but it is iaeligible as a dis- 
 infectant, owing to its oxidising or corroding organic and metal- 
 lic substances, and producing irritant effects if its fumes are 
 incautiously breathed. 
 
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408 NITRO-HYDROCHLOKIC ACID 
 
 Doses, etc. — Of the diluted medicinal acid hdrses or cattle 
 take f3i. to fgij., sheep and pigs ni_x. to n\^xx., dogs TTLij. to TT1.X. 
 It must be largely diluted with water or other bland fluids, and 
 is often conjoined with bitters. For external application, a 
 drachm of strong acid to the pint of water suffices for all except 
 escharotic purposes. An ointment is occasionally used, made 
 by melting together iu a glass vessel a pound of olive oil, four 
 ounces of axunge, and when the mixture is nearly concrete, 
 adding six drachms of nitric acid, and stirriag briskly with a 
 glass rod till the whole solidifies. A paste made with sulphur 
 and lard is also in use for extirpating warts, destroying acari, 
 and stimulating the skin in scab and mange. 
 
 NITEO-HYDEOCHLOEIC ACID. 
 
 Acidum Mtro-hydrochloricum. Mtro-Muriatic acid. 
 Aqua regia. 
 
 When one part of nitric acid and three of hydrochloric 
 are inixed and gently heated, red acid fumes are evolved, and 
 there remains a golden-yellow corrosive liquid, a compound of 
 nitric oxide and chlorine, to which it owes its suffocating 
 odour, and its property of dissolving gold. The diluted medi- 
 cinal nitro-hydrochloric acid of the Pharmacopoeia is prepared 
 by mixing, in a glass bottle, three fluid ounces of nitric ■ acid 
 and four of hydrochloric, allowing the mixture to stand for 
 twenty-four hours, and adding twenty-five fluid ounces of dis- 
 tilled water in successive portions, shaking after each addition, 
 and preserving in a stoppered bottle. This diluted acid con- 
 sists of undecomposed nitric and hydrochloric acids, holding 
 in solution free chlorine and peroxide of nitrogen (Eoyle). It 
 is colourless, smells of chlorine, and has the specific gravity 
 1-074. 
 
 Actions, Uses, and Doses. — Even the diluted acid is a cor- 
 rosive, irritant poison ; is prescribed medicinally as an altera- 
 tive and tonic ; exerts special stimulant effects on the sMn and 
 liver; is believed by Dr. Lauder Brunton to act beneficially in 
 gastric and hepatic derangements by multiplying the ferments 
 of the liver and intestines {The Prci£titioner, Sept. 1876). 
 The doses of the medicinal acid are the same as those of nitric 
 
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A CUTANEOUS AND HEPATIC STIMULANT. 409 
 
 acid ; it must be used with the same precautioiis as to dilution, 
 and avoidance of too frequent or prolonged use. It is appUed 
 for the same escharotic purposes as the other mineral acids. 
 
 NUX VOMICA. 
 
 The seeds of Strychnos Nux vomica. Imported from the 
 East Indies. — Brit. Phar.' 
 
 Nat. Ord. — Loganiacese or Spigeliacese. Sex. Syst. — Pentandria Monogynia. 
 
 The Strychnos Nux vomica abounds on the southern coasts 
 of India, in many islands of the Indian Archipelago, and ia the 
 northern parts of Australia. It is a moderate-sized tree, with 
 crooked stem, irregular branches, tough, white wood, known in 
 commerce as snake-wood j gray or yellow bark — the false 
 Angustura bark of the shops ; oval-shaped, shiidng leaves, of 
 variable size ; round fruit, about the size of apples, containing, 
 amid a soft gelatinous pulp, which birds are said to eat with 
 impunity, several round, flat, gray-drab seeds, about an inch ia 
 diameter, and covered with short satiny hairs. These seeds, 
 the nuces vomicae, have a little umbilicus oh their concave 
 ventral surface, and, amidst the homy gray albumin towards 
 the margin, lies the white embryo, with two heart-shaped, thin 
 cotyledons. So tough and horny are the seeds, that ia order 
 to powder them, they require to be steamed, sliced, and ground 
 in a coffee-mUl. The powder, partially soluble in water and 
 spirit, has a dirty green-gray colour, an intensely pure bitter 
 taste, and produces an orange-red colour' when moistened with 
 nitric acid. Besides eleven per cent of proteia compounds, six 
 of sugar, four of fat and mucilage, nux vomica contains the 
 soluble yellow-brown amorphous strychnic or igasuric acid, ia 
 combiaation with which occurs about one per cent of three 
 poisonous alkaloids — strychnine, brucine, and igasurine — pre- 
 sent in all parts of the tree, but especially in the seeds and 
 bark. Their properties and uses are noticed below. 
 
 Actions and Uses. — Nux vomica excites the motor tract 
 of the spinal cord. Large doses produce fatal tetanic convul- 
 sions and death by asphyxia. Medicinal doses are bitter ner- 
 vine tonics. It is a slight topical irritant. 
 
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410 NUX VOMICA POISONING 
 
 General Actions. — A full dose in a soluble form almost 
 immediately causes rigidity and spasm of the whole voluntary 
 contractile tissues, alternated with periods of quiet, duriag 
 which the patient is much prostrated; reflex irritability is 
 exalted, and by and by exhausted by over-stimulation; the 
 recurring convulsions involve the voluntary muscles of the 
 limbs, of the body, and of respiration, causing death by as- 
 phyxia. There is no direct effect on the brain proper, the 
 muscles, the heart, or the sensory nerves. It poisons all 
 animals, and by whatever channel it enters the system. Half 
 a drachm of powdered nux kiUed a moderate-sized dog in forty- 
 five minutes. Eight grains proved fatal to dogs, five grains to 
 cats (Christison), and one or two ounces to horses (Moiroud). 
 Hertwig observed that ten drachms, in the solid state, were 
 inadequate to destroy a horse, but proved fatal in ten hours 
 when given in solution. Professor Coleman gave a mare two 
 ounces in a drench; in an hour, and after the animal had 
 drunk some water, she had violent tetanic symptoms, and died 
 half an hour later. Ounce doses given to a glandered horse 
 caused tetanus, but were not fatal Sheep are destroyed by 
 half an ounce in about thirty minutes ; but goats, curiously 
 enough, are much less susceptible. Hertwig gave a goat 440 
 grains in eleven days, without any obvious effect ; and Tabourin 
 cjonsiders that eight ounces would be requisite to poison. The 
 "same authority has seen violent tetanus caused in pigs by fifty 
 grains. Poisonous, doses produce in all animals trembling, 
 twitching of the voluntary muscles, and violent tetanic spasms, 
 usually lasting one or two' minutes, gradually becoming more 
 frequent and severe, and from their involving the glottis, dia- 
 phragm, and muscles of respiration, causing death usually by 
 asphyxia. The symptoms, as -well as the mode of death, are 
 much the same as in tetanus, but are more suddenly developed, 
 more intermittent, and much more rapidly fatal. The post- 
 mortem appearances vary somewhat with the severity and 
 duration of the case; the blood is dark-coloured and liquid; 
 there is usually venous engorgement ; congestion of the lungs, 
 of the cerebral and spinal meninges ; dilatation of the vessels 
 and sanguineous extravasation of the gray matter of the 
 medulla. When the patient has survived several hours, the 
 intestines occasionally present patches of redness and congestion. 
 
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STIMULATES AND TETANISES THE SPINAL CORD. 411 
 
 Where the spasms have been severe and rapidly fatal, the left 
 side of the heart is firmly contracted, and contains little if any 
 blood. The tetanised muscles quickly undergo rigor mortis, 
 which sometimes ' continues longer than usual. 
 
 There are no reliable antidotes for poisoning either by nux 
 vomica or strychnine. Charcoal and tannin solutions have very 
 slight neutralisiQg effects. Any unabsorbed poison should at 
 once be removed by emetics or the stomach-pump. The physio- 
 logical effects are partially antagonised by such motor paraly- 
 sers as curara, conium, tobacco, opium, and Calabar bean, and 
 more fuUy and effectually by chloral and inhalation of ether 
 and chloroform. Professors Crum Brown and T. D. Fraser 
 have discovered that the ethyl and methyl compounds of 
 strychnine are antagonistic to strychnine ; instead of stimulat- 
 ing, they paralyse the centres of motion and reflex action. In 
 frogs poisoned with small doses of strychnine,' the tetanic 
 symptoms are arrested by removing the animals to a warmer 
 medium, or bringing them within the circle of a current of 
 electricity itself capable of causing tetanus (T. Kunde, in 
 Virchow's Arch., vol. xviii., 1860). 
 
 Medicinal Uses. — Chronic motor paralysis is the indication 
 for the use of nnx vomica. I have given it to horses stiffened 
 and partially paralysed from attacks of strangles, influenza, and 
 rheumatism. Mr. David Aitkin, veterinary surgeon, Dunferm- 
 line, has prescribed it in cattle practice since 1853, and gener- 
 ally with success. He gives me particulars of several typical 
 cases. Two bullocks suffered from chronic paralysis, — one so 
 entirely that it had to be carted home from the grass field. 
 He was dull ; his pulse fifty-five, and rather weak ; his hinder 
 extremities and tail had lost their power of movement, and 
 were devoid of sensation ; the sphincter ani was relaxed ; urine 
 dribbled away iavoluntarily. Purgative medicine was given, 
 and operated next day, without, however, any abatement of 
 the paralysis. Two drachms nux were prescribed night and 
 morning for ten days ; but as little improvement was then 
 visible, the dose was increased to three drachms thrice a day. 
 Three days later, Mr. Aitkin, whilst examintag the animal, 
 accidentally trod on his tail, when he jumped on his legs and 
 endeavoured to stand; in another day he could turn himself 
 from side to side; in about ten days he was able to walk 
 
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412 UUX VOMICA — STRYCHNINE : 
 
 round the house in which he was confined, and rapidly re- 
 covered. The other buUock exhibited very similar symptoms, 
 was treated in the same manner, and with Kke satisfactory- 
 results. A week or two before parturition, cows, especially if 
 in low condition, occasionally lose the power of their hiad 
 limbs, and are unable to stand. Little can then be done be- 
 sides allowing laxative nutritive diet, with tonic medicine, and 
 turning the patient several times daily. After parturition, 
 most cases gradually regain the use of their limbs ; but when 
 they continue to exhibit want of nervous power, nux vomica 
 or strychnine is decidedly indicated, and has been used with 
 success. Mr. Aitkin also employs nux in puerperal apoplexy. 
 He describes the case of a cow, taken ill at eight o'clock at 
 night, and found next day at noon prostrate, motionless, 
 scarcely able to swallow, comatose, almost devoid of sensation, 
 and given over as hopeless by the village blacksmith, who 
 had bled her, when first affected, the evening before. Along 
 with a powerful stimulant and purgative, two drachms of 
 nux vomica were given, mustard embrocation well rubbed 
 over the loins, and injections of tepid water with a little 
 turpentine thrown into the rectum. Next day the bowels 
 were acted on ; but as the animal could not move, two 
 drachms nux were given in gruel twice a day : recovery was 
 rapid. 
 
 French veterinarians give nux in amaurosis and stringhalt 
 in horses, and chorea amongst dogs, especially when accom- 
 panied by muscular flaccidity and debility. In torpidity of 
 the bowels resulting from want of muscular tone, nux is use- 
 fully conjoined with aloes or other purgatives. Continued 
 during some weeks, it is believed to stimulate the sexual func- 
 tions. To use it with advantage, it should be persevered with 
 until it produces muscular twitching, usually first apparent 
 during the night, noticed first in the paralysed part, and when 
 the patient is suddenly disturbed. If therapeutic results do 
 not shortly succeed these physiological effects, the medicine will 
 seldom be of service, how long soever it be continued. When 
 given in the solid form, violent and even fatal effeets have 
 occasionally resulted from several doses becomiag unexpectedly 
 dissolved and absorbed. Unlike lead or mercury, it has, how- 
 ever, no cumulative properties. Nor, on the other hand, does 
 
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NERVINE TONICS AND STIMULANTS. 413 
 
 the system, by use, become less susceptible to its action, as is 
 observed witb alcohol, opium, and tobacco. Nux vomica must 
 be avoided in the acute stages of spasmodic and other nervous 
 diseases, and so long as irritation, inflammation, or muscular 
 rigidity contiaues. 
 
 Doses, etc. — Of powdered nux, horses take 3i. ; cattle,' 3ij. to 
 3iij. ; sheep, grs. xx. to grs. xl. ; pigs, grs. x. to grs. xx. ; dogs, 
 grs. ij. to .grs. viij. These doses are repeated twice daily, and 
 slightly and gradually increased for a week or ten days, or until 
 some of their physiological or therapeutical effects are produced. 
 The powder is given in bolus. The extract, eight or ten times 
 as active as the simple powder, is got by boiling the powder 
 with successive portions of rectified spirit, recovering most of 
 the spirit by distillation, and evaporating the residue ia a vapour 
 bath. The tincture, prepared by maceration and subsequent 
 percolation of two ounces of powder and one pint of rectified 
 spirit, is used both iutemaUy and externally j for the latter 
 purposes being often conjoined with ammonia. 
 
 Steyohnine or Strychnia (C21 H22 Ng O2) is found in the 
 Strychnos N"ux vomica, in the bean of St. Ignatius, and in 
 other plants of the same natural family. Sir Eobert Christison 
 considers that it might be cheaply and easily procured from 
 false Angustura bark. It is generally got from nux vomica, 
 which contains about one part in 200. The following are the 
 chief steps in the somewhat tedious Pharmacopceia process : — 
 The nuts, steamed and reduced to powder, are exhausted by spirit, 
 which is recovered by distillation ; to the watery extract is 
 added lead acetate, which precipitates acid and colouring 
 matters ; the filtered solution is treated with ammonia, which 
 precipitates the alkaloids. The precipitate is washed, dried, 
 and re-dissolved in spirit, and the solution, reduced by evapo- 
 ration, set aside, when the less soluble strychnine crystallises 
 out, leaving brucine in solution. Commercial strychnine usually 
 contains some brucine and igasurine ; but repeated washing 
 with diluted spirit, boiling with rectified spirit, and crystallising, 
 secure the pure alkaloid. 
 
 Strychnine occurs in right-sqUare octahedra or prisms, is 
 colourless and inodorous; soluble in 6700 parts of cold water, 
 in 2500 parts of hot water, and communicates its intensely 
 bitter taste even when diluted with 600,000 parts of water. 
 
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414 NUX VOMICA — STRYCHNINE : 
 
 It is soluble in boiling rectified spirit, and in chloroform, blit 
 not in absolute alcohol or in ether. It is not coloured by nitric 
 acid, and leaves no ash when burned with free access of air. It 
 forms crystaUine, colourless, intensely bitter salts. Strychnine 
 is readily recognised. A particle is placed on a white plate, and 
 near it a fragment of potassium bichromate ; each is moistened 
 with pure sulphuric acid ; a minute or two is allowed, to ensure 
 solution; the dissolved chromate is drawn with a glass rod 
 over the dissolved strychnine, when a beautiful deep purple 
 colour is struck, rapidly passing through red to yeUow. Lead 
 dioxide, manganese black oxide, potassium permanganate, oxidise 
 and colour strychnine in the same manner. The extreme 
 bitterness and tetanic spasms produced in frogs and other small 
 animals by solutions containing the 5000th part of a grain, 
 prove valuable corroborative tests. 
 
 Actions and Uses. — Strychnine concentrates the active pro- 
 perties of nux vomica. Poisonous doses violently stimulate 
 the motor tract of the spinal cord, producing muscular rigidity 
 and tetanic convulsions. Carefully regulated mediciaal doses 
 are stimulants and tonics of motor centres. Brucine, igasurine, 
 and akazga, have the same effects. Thebaine, one of the opium 
 alkaloids, and picrotoxin, the bitter active principle of Cocculus 
 Jndicus, are also motor excitants. 
 
 General Actions. — One-sixth of a grain of strychnine, in 
 solution, destroys a dog in two minutes, and sometimes even 
 more rapidly ; one-eighth of a grain in twelve minutes (Chris- 
 tison). Half a grain poisoned an English terrier in twenty-four 
 minutes ; three grains poisoned a greyhound in an hour and a 
 half; whilst one grain poisoned another greyhound in thirty- 
 three minutes (Dr. S. Macadam). Half a grain, introduced 
 into a wound would suffice, it is believed, to kill a man within 
 fifteen minutes. Dogs poisoned moan and whine, are uneasy, 
 nauseated, sometimes vomit, tremble, have, muscular twitchings 
 and general spasms, during which the head is drawn upwards 
 and backwards. These tetanic convulsions continue one to two 
 minutes, cease for several minutes, but recur, with increased 
 force, until death is produced, from the exhaustion of over- 
 stnnulation, and from asphyxia, caused by spasm of the respira- 
 tory muscles. Horses and cattle are poisoned by doses both 
 absolutely and relatively larger than those fatal to dogs. A 
 
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STIMULANTS OF THE MOTOR TRACT OF THE CORD. 415 
 
 horse had twitching of the muscles after swallowing six 
 grains, and was poisoned by twelve grains in twelve minutes 
 (Tahouria). Five grains, in holus, produced, after six hours, 
 abdonunal pain, lahoured breathing, acceleration of the pulse 
 from 42 to 60^ starting when touched, and tetanic spasms. 
 Twelve hours later the pulse was 96, and rose to 120. Blood- 
 letting and fomentations gave no relief, and in a convulsive 
 - paroxysm the horse died. The membranes of the brain and 
 cord were injected, the lungs engorged (Veterinarian, March 
 1856). Half a grain, injected hypodermicaUy, induced in half 
 an hour general muscular rigidity. All animals are tolerably 
 uniformly affected by strychnine ; but chickens are less suscep- 
 tible than other birds ; and guinea-pigs and some monkeys 
 appear in a remarkable manner to resist its effect (Dr. H. C. 
 Wood, Treatise on Therapeutics). 
 
 Mr. M'Grillivray, Banff, gave an old cow tMrty grains, and 
 shortly after sixty grains, both doses in solution, with the result 
 of a few spasmodic tremors, which continued for about twenty 
 minutes (Veterinarian, November 1870). Eour grains placed 
 in the areolar textures of a cow destroyed it iii twenty minutes 
 (Tabourin). On 18th October 1852, at twelve o'clock, I gave 
 a small red cow, affected by pleuro-pneumonia, and in a state 
 of great weakness, grs. xv. of strychnine, suspended in two 
 oimces of oU. At 12.30 the pulse had risen from 70 to 78, 
 regurgitation was observable in the jugular veins, and quiver- 
 ing and twitching of the facial muscles, particularly during 
 inspiration. At 12.45 the pulse numbered 84, and the symp- 
 toms were aggravated. Two grains of strychnine were given, 
 dissolved in diluted acetic acid ; and in a quarter of an hour 
 the animal was very uneasy, and attempted to vomit; the 
 pulse was 94, full and strong, the pupils much dilated. At 
 1.30 the nausea and efforts, to vomit were much increased, the 
 breathing more laboured ; the animal lay down, and the pulse 
 shortly fell to 58. At 2.15 the nausea was diminished, and 
 the pulse 92. Thirty grains strychnine were then given in 
 acetic acid and water. At 2.20 the pulse was 100, sharp and 
 distinct. The muscles were affected by frequent spasms. At 
 2.25 the pulse was 140, and the animal showed much sensi- 
 tiveness, especially about the hind extremities. It reeled and 
 fell. At 2.30- the pulse had risen to 160, the limbs were very 
 
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416 NUX VOMICA — STRYCHNINE : 
 
 rigid, the eyes protruding, the iavolimtary spasms more general, 
 freqnent, and severe. Two minutes later she died quietly. 
 The post-mortem appearances were similar to those detailed as 
 occurring ia poisoning by nux vomica, xio*^ ^^ ^ grain killed 
 rabbits weighing three lbs. in fifteen to twenty minutes. In dogs 
 destroyed at the Edinburgh Veterinary CoUege with one-eighth 
 of a grain of strychnine, the buccal mucous membrane was 
 blanched ; the left auricle, as also the intestines, continued to 
 contract for nearly an hour after death, and the cerebral and 
 intestinal vessels were congested- with dark venous blood. 
 After poisonous, and even after full medicinal doses, strychnine 
 is readily detected in the stomach and other viscera, as well as 
 in the blood and urine, and is detectable many months after 
 the animal haS been destroyed (Dr. S. Macadam, Pharmaceutical 
 Jov/rnal, August and September 1866). The antidotes are the 
 same as for nux vomica. An animal having received a poison- 
 ous dose of strychnine, if brought immediately under the influ- 
 ence of chloral hydrate, the convulsions abate in force and fre- 
 quency, and life may be saved. Injection subcutaneously, or 
 into a vein, ensures most certain and rapid effect. Eabbits 
 receiving -^g-th of a grain, hypodermically injected, are not saved 
 unless the chloral hydrate is injected within t^en minutes. 
 Strychnine does not so perfectly antagonise chloral hydrate, for 
 it does not combat the brain symptoms {Antagonism of Medicines). 
 Medicinal Uses. — Strychnine, like nux vomica and other 
 bitters, increases the secretion of saliva, and acts as a stomachic. 
 But its special value is in cases of deficient or deranged motor 
 power. In horses, after falls or serious injuries, after attacks 
 of stomach staggers,* strangles, influenza, or rheumatism, when 
 
 * The following case, illustrative both of the poisonous and medicinal action 
 of strychnine, came under my observation in November 1853 ; — A. four-year-old 
 gelding, suffering from a severe attack of staggers, lost the power of moving his 
 hind extremities. He could not be moved, turned, or put backwards, without 
 imminent risk of faUing. Mineral tonics were given for a fortnight without any 
 obvious amendment. Four grains strychnine, made into a bolus, were adminis- 
 tered morning and evening, and gradual improvement ensued. The doses were 
 slowly augmented until they amounted to ten grainy which were given daily in 
 two separate doses. No physiological action was observable; no twitching or 
 unusual sensitiveness of the muscles ; no acceleration or alteration of the pulse. 
 But the appetite improved ; the muscles became firmer ; and in about three weeks 
 from the first use of the strychnine, the patient was able to walk without reeling, 
 and could also turn and back without difacnlty. The strychnine was withheld for 
 four days, and the patient became decidedly worse, and walked very unsteadily. 
 
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STIMULANTS OF MOTOR CENTRES. 41 T 
 
 irritation and iaflammation have passed away, there sometimes, 
 remains impaired action of the limbs, imperfect power of uria- 
 ation, or occasionally of defecation. Weakened or deranged 
 motor power also occurs in cattle, especially after puerperal 
 apoplexy, in dogs after distemper, in all animals after lead poi- 
 soning. Strychnine in such cases is given with fair prospect 
 of success. In paralysis of thoSe muscles of the larynx of the 
 horse constituting roariag, Mr. F. Mavor of Park Street, Lon- 
 don, has successfully used strychnine, injecting it subcutaneously 
 in doses of half a grain to a grain. In the earlier stages of 
 such cases, before there is extensive muscular atrophy, it is 
 worthy of more extended trial, used both by the mouth and 
 hypodermicaUy. In torpidity of the bowels, whether following 
 acute indigestion, inflammation, or febrile attacks, strychnine is 
 sometimes advantageously conjoiaed with aloes or salines. 
 Chorea, and even some epileptic cases, are benefited by it. In 
 atony of the bladder and rectum, with involuntary discharge of 
 their contents, injections of dUuted solutions sometimes answer 
 better than the internal administration of the poison ; but such 
 injections require to be used warily, for doses which may be 
 safely enough swallowed, occasionally act with unexpected vio- 
 lence when injected either into the hollow viscera or into the 
 areolar textures. In local paralysis, where practicable, the in- 
 jection should be made deeply into the affected muscle. For 
 the destruction of rats, mice, and other vermin, strychnine is 
 much used. It constitutes the active ingredient of Hunter's 
 Infallible Vermin and Insect Destroyer, of Butler's and Battle's 
 Vermin Killers, which contain starch, sugar, and about ten per 
 cent of strychnia, and are coloured by soot or Prussian blue. 
 Battle's shOhng packets have sixty grains, and the sixpenny 
 twenty-five grains, of strychnia (Dr. S. Macadam). 
 
 The medicine was again prescribed, but, from an unfortunate mistake, was given 
 iu doses of five grains, repeated twice a day. After three such doses, violent 
 spasms supervened, affecting especially the head and neck, and becoming parti- 
 cularly severe when the animal was touched or disturbed. Clysters and stimu- 
 lants were employed, and after two days the poisoning symptoms disappeared ; 
 but the paralysis remained, and was accompanied by hanging of the head and 
 dulness. Blisters were applied along the spine, and the use of the strychnine re- 
 newed in doses of two and a half grains twice a day. Under this treatment, the 
 paralytic symptoms again diminished ; in fifteen days the patient was able to 
 walk and turn with comparative ease, and appeared in the fair way of recovering, 
 when unfortunately the owner, tired of waiting, had the animal destroyed. 
 
 2 B 
 
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418 STRYCHNINE, BRUCINE, AND IGASUEINB. 
 
 Doses, etc. — Strychnine is about ten times as active as nux 
 vomica extract, more than thirty times as active as the pow- 
 dered nux. Of the alkaloid, or hydrochlorate, which, on account 
 of its solubility, is greatly preferable, the dose for the horse is 
 grs. ij. to grs. iij. ; for cattle, grs. iv. to grs. vi. ; for sheep, gr. 1 
 to gr. i. ; for dogs, gr. ^j^ to gr. ^. It is generally given twice 
 a day, and continued ia gradually increasing doses until it pro- 
 duces some physiological or curative effects. From its subtlety 
 as a poison, and its irregularity of strength, it must be used with 
 much caution. On account of its intensely bitter taste, it is 
 frequently preferred ia the form of a bolus. The Pharmacopoeia 
 solution, which really contains the hydrochlorate, is made by 
 gently heatiag strychnine grs. iv., water, f 3vi., and diluted hydro- 
 chloric acid, TT|_vi. to ensure solubility, then adding rectified spirit, 
 f3ij., and water sufficient to form an ounce. This solution 
 is readily absorbed, and eminently suitable for hypodermic injec- 
 tion. Strychnine arsenite, iu three to five grain doses, has been 
 used at the veterinary school of Turin with some success, in the 
 treatment of malignant nasal discharges supposed to be glanderous. 
 
 Beucine or Brucia (C23 Hgg ISTj O4, 4H2 0) is associated 
 with strychnine m the seeds, and stiU more largely in the bark, 
 of Strychnos Nux vomica, and in St. Ignatius' bean. It crys- 
 tallises from the mother liquor from which strychnine or its 
 nitrate has been separated ; occurs in oblique four-sided prisms ; 
 is almost as bitter, but is more soluble in watep than strychnine. 
 It is reddened by nitric acid and chlorine. Strong sulphuric 
 acid colours brucine a rich rose tint, but on adding manganese 
 black oxide, the blue, violet, and purple colours observed with 
 strychnine are not produced. The bright red coloration caused 
 by nitric acid is changed to violet or green by sodium hyposul- 
 phite and other reducing agents, which decolorise the analogous 
 red coloration produced by the action of nitric acid on morphine. 
 Physiologically, brucine resembles strychnine, but has only one 
 twelfth, or, according to other authorities, one-sixth of its activity. 
 
 Igasurine or igasuria, said to occur in nine difi'erent varie- 
 ties, resembles strychnine in most of its characters. 
 
 Akazga, the ordeal plant of the West Coast of Africa, is ob- 
 tained from the seeds of a tree of the Strychnos family, and 
 yields an alkaloid analogous to strychnine in its reactions and 
 physiological effects (Professor T. Fraser). 
 
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OAK BARK AND ACORNS. 419 
 
 OAK BAEK. 
 
 Quercus Cortex. Dried bark of the small branches and young 
 stems of Quercus Eobur, sub-species pedunculata. Col- 
 lected in early spring from trees growing in Britain. — 
 Brit. Phar. 
 
 Nat. Ord. — -CupuliferEe. Sex. Syst. — Monoecia Polyandria, 
 
 Bark from smaller branches or young trees is more astrin- 
 gent than thicker pieces of older growth; the interior finer 
 fibrous portions, than the external rougher cortical. The as- 
 tringency depends upon the presence of 10 to 15 per cent of 
 querci-tannic acid, which differs somewhat from gallo-tannic 
 acid, and does not, by oxidation, yield gallic acid. The infu- 
 sion, like that of galls, has a powerful astringent taste, reddens 
 litmus, gives a blue-black precipitate with ferric salts ; and with 
 gelatin solution, a white flocculent precipitate, which resists 
 putrefaction better than that of gallo-tannic acid. Acorns — 
 the fruit of the oak — are readily eaten by many animals, are 
 collected in many parts of England for the feeding of sheep 
 and pigs, are considered to be nearly as valuable as beans, but 
 on account of their astringency require to be used in moderation. 
 
 Actions and Uses. — -Oak bark is astringent. It is prescribed 
 for all animals to arrest chronic diarrhoea, dysentery, and other 
 excessive mucous discharges. For weakly scouring calves, I 
 find no astringent more serviceable ; the decoction is given 
 once or twice daily as required, either alone or with gentian, 
 spirit, ether, or chloroform, or, where there is griping, with 
 laudanum. It lacks the tonic properties of cinchona and 
 gentian, and when given too frequently, or in too large amount, 
 causes intestinal derangement. A decoction is applied for 
 stimulating unhealthy wounds, bracing relaxed mucous mem- 
 branes, relieving piles in dogs, arresting bleeding, and reducing 
 hernise and protrusions of the amis and uterus. 
 
 Hoses, etc. — Horses take 3ii. to §i. ; cattle, gss. to gij. ; 
 sheep and pigs, 3ss. to 3u. ; dogs, grs. x. to grs. xxx. ; admin- 
 istered in infusion or decoction, made with one to two oimces 
 of oak bark to the pint of water. It is given with aromatics 
 and bitters ; in dysentery, with opium and starch gruel ; in 
 typhoid cases, with camphor and mineral acids. ' 
 
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420 OLIVE OIL 
 
 OLIVE OIL. 
 
 Oleum Olivse. The oil expressed in the south of Europe from 
 
 the ripe fruit of Olea Europsea. — Brit. Plmr. 
 
 Nat. Ord. — Oleacese. Sex. Syst. — Diandria Monogynia. 
 
 Olives are obtauied from several varieties of an evergreen 
 tree, which grows abundantly in southern Europe, and yields a 
 resinous juice once used medicinally, bitter, tonic, astringent 
 leaves, and the succulent fruit, about the size of a damson, and 
 containing a single seed. Kipe olives yield about 70 per cent 
 of oil, of which the finest quality, imported from Provence and 
 Florence, is obtained by moderate pressure of the freshly- 
 gathered fruit. Medium qualities, often prepared from long- 
 gathered and fermented fruit, and by steeping in water previous 
 to expression, are brought from Naples. Inferior varieties, got 
 from stale or rotting olives, or by moistening and pressing the 
 residue left during the manufacture of the superior qualities, 
 come from Sicily and Spain. 
 
 Properties. — OUve oil is one of the fixed fatty or expressed 
 oUs, which produce on paper or linen a greasy stain, not removed 
 by heat ; and are compounds of an acidulous radical, oleic, pal- 
 mitic, or stearic acid, and the basylous glycerin (Cg Hg, 3 Cjg 
 H33 O2). OUve oil contains about 72 per cent of fluid olein, 
 holding in solution 28 of a mixture of palmitin and stearin. It 
 is of the consistence of syrup, unctuous, transparent, odourless, 
 and bland-tasted. When pure, it is pale greenish-yeUow ; 
 when impure, yellow or brown. Its specific gravity, at 77°, is 
 •910. At 36° its solid fats begin to crystallise; at 32° it is 
 completely solidified. It is not miscible with water, is scarcely 
 soluble in alcohol, but dissolves in one and a half of ether. It 
 is a capital solvent for cantharidin, atropine, and morphine. 
 Exposed to the air, it oxidises, thickens, and slowly becomes 
 rancid, but does not dry up. 
 
 Actions and Uses. — Olive oil is nutrient, laxative, and emol- 
 lient. Liie other oleaginous bodies, small quantities are 
 easily digested and assimilated, aid cell development, produce 
 force, and by oxidation support animal heat. Larger quantities, 
 such as one or two pints for horses or cattle and two or three 
 ounces for dogs, are laxative. An ounce each of olive and 
 
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NUTRIENT, LAXATIVE, AND EMOLLIENT. 421 
 
 castor oil makes one of the safest and test laxatjves for the dog. 
 When injected into the veins, like other fluid fats, it fataUy 
 obstructs capillary circulation. Half an ounce injected into the 
 jugular speedily destroys a dog. In poisoning by irritants and 
 corrosives, it exerts demulcent and emollient effects, further 
 combats the action of alkalies by forming soaps, and also retards 
 the solution and absorption of arsenic. Not drying or readily 
 becoming rancid, it is a soothing protective for irritable or 
 abraded surfaces, but for such veterinary purposes is usually 
 superseded by the cheaper linseed, rape, and lard oils. The 
 ■" black pil " so extensively used empirically throughout England 
 for bruises, strains, and wounds, is usually made with a pint of 
 ■olive or linseed oU, two ounces oil of turpentine, adding six 
 drachms oil of vitriol, and leaving the bottle without the 
 stopper until the Jieat evolved by admixture of the acid has 
 passed away. 
 
 OPIUM. 
 
 The juice inspissated by spontaneous evaporation, obtained by 
 incision from the unripe capsules of the poppy, Papaver 
 somniferum, grown in Asia Minor. — Brit. Phar. 
 
 Nat. Ord. — Papaveracese. Sex. Syst. — Polyandria Monogynia. 
 
 Opium, one of the most ancient articles of the materia 
 medica, derives its name from the Greek word oiros (opos), sig- 
 nifying juice. It is obtainable from any of the poppy species, 
 several of which abound as annual weeds. The stem, unripe 
 ■capsules, and other succulent parts of any of the poppy species 
 contain a milk-white narcotic juice. The fresh red petals of 
 the Papaver rhoeas, or corn rose, used as colouring agents, when 
 eaten by animals are stated to have caused staggering gait, 
 pain, diarrhoea, delirium, and sometimes stupor (Veterinarian's 
 Vade Mecum) ; but this is scarcely possible, as they do liot con- 
 tain morphine or any other active principle (Attfield). The 
 roots of many species contain a cathartic principle. The nearly 
 ripened poppy heads or capsules, gathered about twelve days 
 after the petals fall, when dried, contain less narcotic matters 
 than in the green state ; traces both of morphine and codeine 
 are, however, stOl present, with a feebly alkaline crystalline 
 inert substance rhoeadine, and a large amount of mucilage. 
 
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422 OPIUM POPPY — PAPAVEE SOMNIFERUM. 
 
 Digested in hot water, these capsules are used for making sooth- 
 ing infusions. They contain numerous white or brown reniform 
 seeds, devoid of narcotism, but yielding a bland, drying oU, 
 similar to that of lint or rapeseed. The cake or residue left 
 after the expression of the oil is used as cattle food. 
 
 The Papaver somniferum — the common white or garden 
 poppy — is the true opium poppy. It is a native of the warmer 
 parts of Asia, is largely cultivated in Asia Minor, but also thrives 
 in this country. It flowers in June or July, and the capsules 
 ripen about two months later. It is two to four feet high, has 
 a round, smooth, erect stem, with a few hairs on the extremities 
 and peduncles ; large, sessile, glaucous green leaves, with cut 
 and wavy margins ; large terminal white, red, or purple flowers, 
 drooping before they open ; and globose capsules about the size 
 of a duck's egg, and containing numerous kidney-shaped white 
 or brown seeds. All the opium of commerce is derived from 
 the several varieties of this poppy. The white-flowered sorts 
 have hitherto been preferred, but the darker-flowered, especially 
 the purple, are now stated to yield a larger quantity and better 
 quahty of opium. 
 
 In collecting the juice, transverse or spiral superficial inci- 
 sions are made towards sunset into the nearly ripened capsules, 
 a few days after the fall of the petals, and when their blue-green 
 colour is changing to golden yellow. There exudes from the 
 incisions a thick milk-white juice, which concretes and deepens 
 in colour until it forms semi-solid, red-brown, adhesive tears. 
 This is opium. Twelve or fifteen hours after the incisions have 
 been made, the tears, weighing a few grains, are collected from 
 each capsule, formed into larger masses, dried, and packed for 
 ■exportation in poppy leaves, in the leaves and winged seeds of a 
 species of rumex, or in tobacco leaves and poppy petals. In Persia 
 and India the tears collected from the capsules are rubbed in a 
 mortar, and hence the amygdaloid structure is lost. Upwards 
 of thirty tons of opium are annually consumed in this country. 
 
 Varieties. — The several sorts of opium — of which the most 
 notable are Turkey, Egyptian, East Indian, Persian, and Euro- 
 pean — owe their characteristics to differences in soil, climate, 
 time, and manner of collecting and making up the juice. 
 
 Turkey or Smyena Opium is mostly of fine quality, and 
 highly prized in the English market, is chiefly collected in the 
 
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VARIETIES OF OPIUM. 423 
 
 north-western districts of Asia Minor, and exported from Smyrna 
 and Constantinople. It is brought down in hags or baskets 
 covered with poppy leaves and with the chaffy seeds of the 
 rumex. It occurs in round flattened pieces weighing from half 
 a pound to three pounds ; is soft, moist, and ductile ; and, when 
 minutely examined, is seen to be made up of small tears. Its 
 odour is peculiar, but not disagreeable ; its taste, bitter ; its 
 recent fracture, pale liver-brown. It readily yields its active 
 principles to water, forming a pale-coloured solution, and to 
 alcohol of all strengths, forming dark-coloured tinctures. Good 
 samples contain on an average 10 or 12 per cent of morphine, 
 and are also rich in meconic acid. 
 
 Egyptian Opium, being generally grown on too moist a soil, 
 and collected before the capsules are ripe, is inferior to the best 
 Turkey opium. It is in round flattened cakes, about four inches 
 in diameter, of a red colour, hard, dry, and brittle ; is covered 
 with the remains of the leaf of the oriental plane (Professor Bent- 
 ley) ; and contains on an average about 5 per cent morphine. 
 
 East Indian Opium, chiefly prepared in the central tract 
 of the Ganges, in the districts of Benares and Patna, and in the 
 province of Malwa, is mostly disposed of to the Chinese, who 
 prefer it to Turkey opium, and purchase annually many 
 thousand pounds weight, at the rate of 20 s. per lb. The 
 juice is extracted in the usual way, the fluid part poured off, 
 the solid residue carefully dried in the shade, and disposed of 
 by the native cultivator to the opium factories, where it is puri- 
 fied, raised to the desired consistence, and encased in poppy, 
 and sometimes in tobacco, leaves. This outer case gradually 
 becomes black, hard, unyielding, of the appearance of a large' 
 bullet; and usually contains about 3|- lbs. standard opium, 
 which remains for a long time soft and ductile, and of a dark 
 pitch-like appearance. The best Bengal opium, not intended 
 for exportation, is dried in the sun, until it contains only 10 
 per cent of water, is moulded into square pieces of two pounds 
 weight, enveloped in oiled Nepaul paper, and packed in wooden 
 boxes. It is firm, dry, of a yeUow-brown colour, and nearly 
 equal to Smyrna opium in quality and percentage of morphine. 
 The Malwa opium, which does not pass through the Govern- 
 ment factories, is neither so uniform nor so good as that of 
 Benares {PharTnaceuticcd Jowmal, vol. xi.) 
 
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424 OPIUM GROWN IN BRITAIN. 
 
 Peesian Opium, cultivated in the central provinces, and 
 brought usually by way of Trebizond and Constantinople, is of 
 irregular quality, and occurs in rounded cones or flat circular 
 ■cakes, weighing six to ten ounces ; the best samples yield 8 to 
 1 per cent of morphine. 
 
 European Opium. — Opium has been cultivated in France 
 and Germany, and also in Great Britain. In 1818 Dr. 
 Young grew poppies near Edinburgh, and obtained nearly six 
 ounces of excellent opium from a fall of ground, being at the 
 rate of 57^- lbs. per acre. A still more extensive trial was 
 made in 1823 in Buckinghamshire, where twelve acres of 
 poppies, were grown with a return of 16 lbs. per acre of very 
 fine opium, which realised the highest price in the London 
 market. From the high price of Turkey opium at the time, 
 and the low value of land and labour, the speculation was 
 tolerably lucrative. Unless returns cotdd be realised like those 
 got in India, where the acreable yield is 30 lbs., the pro- 
 duction of opium could not pay in this country. But under 
 favourable circumstances, poppies might be cultivated, and 
 morphine at once extracted. 
 
 Properties. — The several kinds of opium, although possessed 
 of various distinctive properties, are all obtained from the 
 nearly ripened capsules of the sa,me species of poppy ; occur in 
 irregular red-brown or brown-black lumps, which weigh from 
 four oimces to two pounds ; usually indicate their being made 
 up from agglutinated tears ; break with an irregular, moist, 
 chestnut-red fracture ; shine when rubbed with the finger ; and 
 have a specific gravity of about 3'36, a strong, peculiar 
 aromatic odour, and a disagreeable,' persistent, bitter taste. 
 Eecently imported, they contain from 10 to 15 per cent of 
 water, and are moist and plastic ; long kept, or artificially 
 dried, they are hard, and easily reduced to a brown powder, 
 which is apt, unless carefully preserved, to absorb moisture. 
 When heated they soften, and at high temperatures burn with 
 a strong, peculiar odour. Cold water dissolves about 60 per 
 cent of a good specimen, and forms a red-brown solution, 
 including most of the active ingredients. EectiJ&ed spirit 
 dissolves about 80 ,per cent, and forms a dark-brown tinc- 
 ture, which includes all the active principles. Acids, when 
 strong, disorganise opium ; when diluted, are excellent sol- 
 
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PROPERTIES AND COMPOSITION. 425 
 
 vents for it. The watery solution reddens litmus, owing to 
 the presence of meconic acid, and is precipitated by- 
 vegetable astringents, salts of calcium, lead, copper, and other 
 metals. 
 
 Impurities. — As the best Turkey opium usually brings 
 about 18 s. per pound, there is great temptation to substitute 
 inferior qualities, or add foreign matters. Inferior specimens 
 are distiaguished by narrowly examining their consistence, 
 texture, colour, odour, and taste. They are often dry, hard, 
 and resinous, or oleaginous and waxy ; their fresh fracture 
 devoid of the characteristic red tint and agreeable aromatic 
 odour ; water and alcohol dissolve them imperfectly. Of the 
 several substances used for adulteratiag, the most common are 
 starch and molasses, the bruised leaves and chips of the poppy, 
 the juice, pulp, or extract of the prickly pear, inferior tobacco, 
 and, most subtle of all, opium from which morphine has been 
 already extracted. Such inorganic matters as sand, stones, 
 clay, and mud, may be detected by inspection, especially if 
 the specimen is dried. Excess of moisture is discovered by 
 drying a weighed quantity in a water bath, and ascertaining 
 the loss, which should not, even in recent specimens, exceed 
 15 per cent. But the most certain test of quality or purity is 
 the proportion of morphine. 100 grains of good opium, sub- 
 jected to the rather complicated test process of the British 
 Pharmacopoeia, yields at least eight grains of morphine. 
 
 Composition. — Opium is a complex substance. It contains 
 mucilage, pectin, wax, albumin, and colouring matters, chiefly 
 derived from the scrapings of the capsules, and constituting 
 about 10 per cent; about 6 or 8 of uncrystaUisable sugar; 
 traces of an aromatic volatile oil ; 10 to 1 5 of water, about 
 7 of ash; and combined with meconic and sulphuric acids, 
 several crystalline alkaloids, of which the most important are 
 morphine, meconine, narceine, papaverine, narcotine, codeine, 
 and thebaine. A number of derivative constituents have 
 also been separated. A detailed notice of these alkaloids, 
 to which opium owes its poisonous and medicinal actions, is 
 subjoined : — 
 
 MoEPHiNB or Morphia (Cj^ H^g N O3, Hs 0), the most important of 
 the crystalline principles of opium, is prepared by decomposing with 
 ammonia a solution of morphine hydrochlorate (p. 438), washing the pre- 
 
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426 OPIUM ALKALOIDS. 
 
 cipitate, and drying at a gentle heat. The yield from different specimens 
 of opium varies from 6 to 12 per cent. The highest recorded yield is 21 
 per cent, obtained from opium grown near Amiens, but nearly the same 
 results have been got from selected specimems of Turkey opium. Mor- 
 phine crystallises in minute, transparent, right rhombic prisms, usually 
 arranged in tufts ; has an intensely bitter taste, and an alkaline reaction. 
 It is insoluble in ether, dissolves in 1000 times its weight of cold water, 
 in 400 of boiling water, in 30 of boiling rectified spirit, in chloroform, 
 oils, alkalies, and weak acids, with which it forms crystalHsable and 
 usually soluble salts. With a neutral solution of ferric-chloride it pro- 
 duces a purple-blue solution, which gradually becomes green ; with nitric 
 acid, an orange-red solution ; with iodic acid, a red-brown liquid contain- 
 ing free iodine. Its actions and uses are identical with those of its salts. 
 (See p. 340.) 
 
 Apomoephine (Cj^ Hjy N O^), a crystalline derivative from morphine, 
 is prepared by heating morphine hydrochlorate for several hours in a 
 hermetically-closed tube, when an atom of water is abstracted. It is 
 amorphous, slightly bitter, moderately soluble in water, more so in alco- 
 hol. It is the most certain and active emetic known ; i grain in solution 
 in' water when swallowed, iV grain injected hypodermically, cause in 
 men and dogs emesis within five or ten minutes, usually recurring several 
 times at intervals of ten or fifteen minutes, causing sleep, but occasionally 
 also inducing syncope (Dr. Harley). 
 
 Meconine or Opianyl (G^^ Hj,, OJ is neutral, fusible, volatile, 
 mildly bitter, in silky prisms, resembling quinine sulphate. It consti- 
 tutes '01 to '02 per cent of opium ; is soluble in hot water and chloro- 
 form ; in sulphuric acid, it forms a bright amber-coloured solution, which, 
 on heating, passes through green, indigo-blue, and eventually becomes a 
 permanent purple. Dr. Harley, experimenting upon horses, injected sub- 
 cutaneously grs. xiv., and gave grs. xx. by the mouth, without observing 
 any effect ; but on dogs and mice more decided tranquillising efiects were 
 produced than by the less soluble narceine. 
 
 ' Naeceine (C23 H^g JSr Oj) constitutes 0-1 to 0-7 per cent of opium ; 
 occurs as a light, colourless, bitter, asbestos-like body, made up of soft, 
 needle-like crystals, soluble in 100 parts of boiling water, 400 of cold, 
 rather more soluble in glycerin and diluted hydrochloric acid. Somewhat 
 contradictory opinions are expressed regarding its actions. In dogs, 
 grs. V. subcutaneously injected produce calmative and slight hypnotic 
 effects, similar to what are induced by a grain of morphine. Poisonous 
 doses arrest respiratory movements, but do not cause convulsions (Dr. 
 Harley). 
 
 Papavbeinb (Oj, Hji N OJ is present to the extent of about 1 per 
 cent, is. separable in shining prisms, is tasteless, sparingly soluble in 
 water, soluble in dilute acetic and hydrochloric acids, forms with cold 
 nitric acid an orange colour, and is a decided but feeble hypnotic. 
 
 Cryptopinb or Oeyptopia (Cj^ H^^ N 0^), an alkaloid discovered by 
 Messrs. T. and H. Smith, of Edinburgh, is probably a derivative rather 
 than a natural constituent of opium, of which a ton yields only an ounce. 
 It occurs in colourless six-sided prisms, is more bitter than morphine, and 
 soluble in water acidulated with hydrochloric or acetic acids. One grain 
 
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ALKALOIDS AND CHEMICAL TESTS, 427" 
 
 injected subcutaneously caused in dogs excitement, dilatation of the 
 pupU, illusion of vision, agitation, and frenzy. Its hypnotic action 
 resembles that of meconine and narceine, and is about one-fourth that of 
 morphine. Poisonous doses destroy life by arresting respiratory move- 
 ments (Dr. Harley). 
 
 Naecotine (Ojg H23 N O7) exists in opium in quantities varying from 
 6 to 8 per cent, and is got by treating the insoluble residue left in the 
 preparation of morphine with diluted acetic acid, precipitating the solu- 
 tion with ammonia, and purifying the impure narcotine with hot alcohol 
 and animal charcoal. Its colourless rhombic prisms have an insipid taste, 
 and are soluble in ether, alcohol, and weak acids, but not in cold water. 
 It is a feeble base, and is distinguished from morphine by having no 
 bitter taste, no reaction on vegetable colouring matter, and no effect on 
 ferric-chloride. It is stated to be devoid of narcotism, but a tonic and 
 antiperiodic, and in 20-grain doses has been used in India as a substitute 
 for quinine in the treatment of intermittent and remittent fevers. 
 
 Codeine or Codeia {O^g H^j N O3), present in the proportion of ^ to 
 1 per cent, is a colourless bitter alkaloid, crystallising in rhombic octa- 
 hedra, soluble in 50 parts water at 60°, in 25 parts at 212°, and in less 
 than two parts of alcohol and chloroform. Unlike morphine, it is in- 
 soluble in cold, weak, caustic potash, and unaffected by ferric-chloride. It 
 , exhibits, like the other alkaloids, the twofold soporific and excitant action, 
 but the excitant action is stronger ; it causes convulsions, nausea, em- 
 barrassed breathing, and cardiac excitement (Dr. Harley). 
 
 Thebaine or Paeamoephia (Cjg H^j N O3) is present to the extent 
 of J per cent, is obtained in minute, colourless, rectangular prisms, has 
 an acid taste and alkaline reaction, is almost insoluble in water, but 
 soluble in 45 parts of rectified spirit, and still more so in ether and 
 chloroform. With cold sulphuric acid it forms a blood-red solution. It 
 has very slight hypnotic action, prominently exhibits the excitant effects 
 of opium, stimulates the motor tract of the spinal cord, and causes, like 
 strychnine, muscular rigidity and convulsions. One to two grains injected 
 hypodermically produce fatal tetanus in dogs (Dr. Harley). 
 
 Meconic Acid (H3 0, H 0,,, SH;, 0), found only in opium, in quanti- 
 ties varying from 4 to 8 per cent, forms, along with sulphuric acid, the 
 solvent for the alkaloids. It is obtained as a by-product in the prepara- 
 tion of morphine muriate by mixing the crude calcium meconate (see 
 p. 438) with ten parts of boiling water and an excess of strong hydro- 
 chloric acid. Separated from calcium sulphate and colouring matter, it 
 is in transparent, snow-white, scaly crystals, which are soluble in water 
 and alcohol ; heated above 150°, they are decomposed. It is tribasic ; 
 forms, with neutral solution of ferric-chloride, a blood-red solution ; and 
 with copper ammonio-sulphate, a green precipitate. No effect is pro- 
 duced by eight grains given to dogs, cows, and frogs, or by four and five 
 grains administered to men (Pereira). 
 
 Physical cmd Chemical Tests. — Solid opium is easily identified by its 
 red-brown colour, peculiar odour, and bitter taste ; simple solutions by 
 the' last two of these tests, and by the reaction of nitric acid on the mor- 
 phine, or of neutral solution of ferric-chloride on the meconic acid. Such 
 testS; are, however, inapplicable in the contents of the stomach or other 
 
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428 OPIUM CHEMICAL TESTS. 
 
 complex solutions, until they be freed of colouring matters and impuri- 
 ties. This may be eflfected as follows : — Reduce the solid parts of the 
 mixture to a state of fine division, add water if necessary, acidulate with 
 acetic acid, filter, and evaporate to the consistence of a syrup. Eedissolve 
 this in alcohol, boil, and filter when cool. Then evaporate the solution, 
 dissolve the semi-solid residue in water, and filter again. The fluid, now 
 tolerably clear, if opium has been present, will contain morphine meconate, 
 and is treated with excess of lead acetate and filtered. The clear solution 
 so got contains morphine acetate, the solid residue left on the filter is 
 lead meconate, and both solution and residue afford valuable indications 
 of the presence of opium. 
 
 The clear solution, treated with hydrogen-sulphide to remove any 
 traces of lead, is filtered and treated with ammonia to precipitate the 
 morphine, which is washed, purified if necessary by solution in alcohol, 
 and crystallises in colourless rhombic prisms. Nitric acid dissolves these 
 crystals with effervescence, instantly producing an orange-red colour, 
 which becomes yellow when excess of acid is used. This very delicate 
 test is not alone certain evidence of the presence of morphine, as nitric 
 acid produces the same effect on brucine and commercial strychnine. A 
 strong neutral solution of ferric-chloride strikes a dirty-blue colour. A 
 fragment of iodic acid, dropped into a test-tube containing a strong solu- 
 tion of a morphine salt, is decomposed, and the free iodine may be 
 detected by mucilage of starch. This, however, is only a confirmatory 
 test; as iodic acid is similarly decomposed by various albuminoids. 
 
 The solid residue left on the filter, containing, as above stated, lead 
 meconate, should also be examined, as the tests for meconic acid are very 
 delicate, and afford indication of opium eyen when it is in such minute 
 quantity as to be undetectable by the morphine tests. The meconic acid 
 may be separated from the lead either by hydrogen sulphide or sulphuric 
 acid ; the insoluble salts, thus formed, are got rid of by filtration, leaving 
 the meconic acid in solution, (a.) In considerable quantity it may be 
 purified, when it appears in colourless tabular crystals, which, when 
 aggregated, have an appearance like spermaceti. (6.) Heated in a test 
 tube, it is partly decomposed, partly sublimed, forming radiated tufts of 
 needle-like crystals of pyromeconic acid, (c.) In aqueous solution, it pro- 
 duces, with copper sulphate, a pale green precipitate, which is dissolved 
 by boiling, but reappears on cooling, (d.) But its most delicate and 
 characteristic test is the neutral solution of ferric-chloride, which produces 
 an intense blood-red solution of iron meconate. For all practical pur- 
 poses, this test, along with the reaction of nitric acid upon morphine, is 
 conclusive evidence of the presence of opium. Ferric-chloride produces, 
 however, a blood-red solution with acetates, but only in strong solutions, 
 and when the acetic acid can be easily detected by other tests ; and with 
 sulpho-cyanates existing in the saliva, especially of sheep. Two simple 
 tests remove this source of fallacy, and readily distinguish iron sulpho- 
 cyanate from iron meconate. Corrosive sublimate bleaches the sulpho- 
 cyanate, but does not affect the colour of the meconate ; whilst, con- 
 versely, hydrochloric acid decolorises the meconate, but does not affect 
 the sulpho-cyanate. 
 
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A PEIMAEY STIMULANT AND SECONDAEY DEPEESSANT. 429 
 
 Actions and Uses. — Opium containiiig so many diverse con- 
 stituents, necessarily exhibits various and diversified actions. It 
 is the type of a narcotic. It acts ISoth on the cerebro-spinal 
 axis and sympathetic system. Full doses cause primaiy stimu- 
 lation and secondary depression. According to its dose and 
 the state of the patient, it is stimulant and sedative, or excitant 
 and soporific. Dr. John Harley describes opium and its alka- 
 loids as soporifics which include antesthesia, and excitants which 
 include cramp and convulsions (Eoyle's Mat. Med., 6th edition). 
 The prominence of one or other of these dissimilar actions 
 mainly depends upon the dose and temperament of the patient. 
 In most horses, receiving full doses, the excitant action predo- 
 minates ; in most dogs the two antagonising actions are more 
 evenly balanced — ^there is usually delirium with stupor; in 
 most men the soporific action speedily obscures the excitant 
 action. Poisonous doses usually prove fatal by arrest of respira- 
 tory movements. Small, frequently -repeated doses are stimu- 
 lants, restoratives, diaphoretics, and cardiac tonics ; and, promot- 
 ing healthy nutrition, they are anodyne. Fuller doses are 
 narcotic, sedative, antispasmodic, and, in virtue of their para- 
 lysing effects, are anodyne. Digestion or absorption, secretion 
 or excretion, is not retarded by stimulant or feebly soporific 
 doses, but is checked or arrested by full soporific or ansesthetic 
 doses. Applied topically, opium acts as it often does when 
 given internally — ^it first stimulates, and then soothes and para- 
 lyses ; after a brief preliminary excitation, it usually cahns and 
 even paralyses both sensory and motor nerves. Used, whether 
 externally or internally, it is thus one of the most effectual 
 antidotes for pain, nervous irritability, and spasm. 
 
 The following are the primary constituents of opium, and 
 its chief secondary or derivative constituents, arranged in the 
 order of their activity as soporifics and sedatives : — 
 
 Morphine. Narcotine. 
 
 Meconine. Apomorphine. 
 
 Narceiue. Codeine. 
 
 Papaverine. Thebaine. 
 Cryptopine. 
 
 Morphine stands at the top of this series as the most active 
 soporific and sedative, but the least excitant. Kext foUow in 
 
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430 OPIUM POISONING 
 
 order alkaloids each less soporific but more excitant, until 
 thebaine is reached, whicli is the least soporific, but most 
 excitant and convellent of the series. 
 
 General Actions. — Opium is readily taken up from any of 
 the mucous or serous surfaces, from the skin, or from wounds. 
 Entrance into the blood is essential to the production of any of 
 its' constitutional effects. It is excreted chiefly by the kidneys 
 and skin. From his admirable experiments on various animals, 
 detailed in The Old Vegetable Narcotics, Dr. John Harley con- 
 cludes that opium and morphia " act both upon the cerebro- 
 spinal and the sympathetic nervous systems — the soporific 
 effects resulting from its action on the cerebral hemispheres ; 
 the excitant from excessive stimulation of the corpora striata 
 and spinal cord ; and the acceleration of the heart's action 
 partly to direct stimulation of the sympathetic nerves and partly 
 to an, indirect stimulation of the same centres, resulting from 
 the excitement of muscular movement. How far the muscular 
 movements are due to excitation of the motor centres in the 
 brain is not very evident. That the spinal cord is implicated 
 •appears to be indicated by the rhythmical character of the 
 movements ; the horse scrapes the ground with the same hoof 
 for hours together, begias and ends with a regular tread from 
 side to side, or goes round and round continuously in the same 
 direction. There is an evident tendency to forward movement, 
 together with inaction of the hind legs. Vascular excitement, 
 if intense and prolonged, ends in dilatation of the c^pOlaries, 
 general congestion, imperfect oxidation of the blood, and weak- 
 ness of the heart" (p. 105). Dr. Harley further states, that 
 opium diminishes the conductivity of the vasomotor nerves, 
 deranges and depresses the functions of the vagus, and thus 
 develops the characteristic nausea, retching, cramp of respira- 
 tory muscles, and distension of the right heart (p. 121). 
 
 Horses, like men, exhibit considerable differences ia their 
 susceptibility to the action of opium ; excitable, well-bred 
 subjects are more readily brought under the excitant effects ; 
 quiet, phlegmatic individuals under the soporific actions. To 
 this fact are referable many of the diverse reports concerning 
 the action of opium on horses. Hertwig mentions that two to 
 four drachms have scarcely any other effect than that of a 
 slight stimulant; and that an ounce in solution caused fij-st 
 
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IN HORSES, CATTLE, AND DOGS. 431 
 
 increased liveliness, and, after two hours, dulness, diminislied 
 sensibility, slower circtdation, less frequent evacuations, and 
 stupor — symptoms which continued for twelve hours, but 
 entirely disappeared by the following day. Two ounces 
 and a half iaduced similar effects, with convulsions and death 
 in. about twenty hours. Dr. Harley found that four drachms 
 powdered opium caused little effect for seven hours, and then 
 only acceleration of the pulse. Four ounces laudanum had no 
 noticeable effect. Some of Dr. Harley's interesting experiments 
 with morphine on horses are detailed below. I gave a strong 
 healthy cart-horse one ounce powdered, opium dissolved in water ; 
 the pulse in eight minfutes fell from forty-four to thirty-four 
 beats per minute; the superficial muscles were relaxed, the 
 nasal mucous membrane blanched, and the animal dull and 
 dejected. From disease of the eyes the condition of the pupil 
 could not be noted. After half an hour, four drachms, also 
 dissolved in water, were given, and increased the dulness and 
 weakness of the pulse, which now numbered thirty-two. Half 
 an hour later the animal, continuing in the same state, was 
 destroyed by cutting the carotid artery. A mare, aged and 
 rather 'feeble, had drachm doses in solution thrice a day : she 
 exhibited dulness, loss of appetite, torpidity of the bowels, 
 diminished force of the pulse, and died on the fourth day, after 
 the exhibition of nine doses. One drachm given thrice a day 
 to a healthy donkey induced, after six doses, acceleration of 
 the pulse to eighty-eight, restlessness, vertigo, nausea, champing 
 of the teeth, and death on the third day of the experiment. 
 
 Euminants are not very susceptible either of the excitant 
 or soporific effects of opium. Cows take an ounce, and sheep 
 four drachms, without suffering any further effects than dryness 
 of the mouth, occasional nausea and restlessness, acceleration, 
 and subsequently slight depression of the pulse. Swine, after 
 receiving one or two drachms, become first lively, and then dull 
 and sleepy, their bowels constipated, and their skins hot. Dogs 
 are acted on much in the same way as men. With moderate 
 doses most become stupid and diowsy ; but other individuals 
 are rendered delirious, especially by large doses. The pupil is 
 not dilated as in the horse or cat, nor continuously contracted, 
 as in man, but is contracted whilst the dog is asleep or narcot- 
 ised. One to three drachms usually cause in dogs, within a 
 
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432 OPIUM ANTIDOTES. 
 
 few minutes, increased force and frequency of the circulation ; 
 there is nausea, a staggering, unsteady gait, twitching of the 
 limbs, clonic spasms, stertorous breathing, and, as death ap- 
 proaches, stupor — never, however, so deep or lasting as in 
 human patients, and from which the animal may always be 
 easily roused. These symptoms continue from three to fifteen 
 hours ; and most animals which survive the latter period event- 
 ually recover. Dr. Harley injected twenty minims laudanum 
 under the skin of a bitch about twenty-five lbs. weight ; she 
 was nauseated, in fifteen minutes she vomited, had spasms of 
 the diaphragm; the bowels acted, mucus ran from the mouth ; 
 within an hour the pulse had fallen from 120 to 78, and was 
 irregular ; the animal lay qrdet, but did not sleep or show nar- 
 cotism. Twenty minims more were injected ; the pulse fell to 
 72 and was irregular, respiration 16 and regular; half an 
 hour later she closed her eyes and was drowsy, continued so 
 for an hour, but did not actually sleep. Dr. "Weir Mitchell's 
 experiments show that ducks, chickens, pigeons, and other 
 birds cannot be poisoned by crude opium or any of its prepa- 
 rations given internally; that morphine salts are fatal only 
 when given in enormous doses, and produce convulsions, but 
 neither sleep nor stupor. 
 
 In animals poisoned by large doses of opium the blood is 
 fluid and dark-coloured from imperfect decarbonisation, btit does 
 not jdeld on analysis any indications of the poison. There is 
 general venous engorgement. The subarachnoid spaces and 
 ventricles contain more serum than usual. 
 
 Opium and its preparations annually de'stroy in Great 
 Britain upwards of one hundred human lives, three-fourths 
 being children under five years. In the lower animals acci- 
 dental poisoning with opium occurs occasionally, intentional 
 poisoning very rarely. Any unabsorbed poison is to be 
 promptly got rid of either by the stomach-pump or by emetics, 
 but both in men and dogs, so long as the patient can swallow, 
 the latter are most effectual. Mustard and warm applications 
 to the chest counteract cramp of the respiratory muscles, and 
 sustain the action of the heart. Artificial respiration, galvanism, 
 and dashing cold water over the head and neck antagonise 
 paralysis of respiration. Blood drawn from the jugular vein 
 helps to relieve lung congestion. Strong tea and coffee, stimu- 
 
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MEDICINAL USES. 433 
 
 lant clysters, and keeping the patient moYing about counteract 
 tendency to stupor. Tincture of galls and other chemical an- 
 tidotes are of little avail. Strychnine has a decided antagon- 
 ising effect, and when used hypodermically, in a few minutes 
 rouses dogs from hopeless stupor. Belladonna, or atropine, 
 given before, along with, or immediately after, a poisonous dose 
 of opium, exerts partial antagonism, prevents ia dogs nausea 
 and vomiting, relieves bronchial spasm and stimulates the over- 
 taxed heart. But although antagonising some of the actions 
 of opium, neither strychnine nor atropine is available as a safe 
 antidote (Dr. Harley). 
 
 No article of the Materia Medica is more frequently and 
 generally prescribed. As a stimulant and restorative it acts 
 almost like food or alcohol. Cutchie horsemen share their 
 opium with their ^aded steeds, and increased activity and capa- 
 bility of endurance are observed alike in man and beast. In 
 gastritis, or gastro-enteritis, whether produced from disease or 
 from swallowing acrid poisons, opium is of great value in allay- 
 ing irritability, pain, and spasm. Obstinate chronic vomiting, 
 depending upon gastric irritation, when occurring either in dogs 
 or pigs, is generally relieved by a few grains of opium given 
 with chloroform, or chloral hydrate. When, in weakly, young, 
 growing animals, food is hurried too rapidly through the diges- 
 tive canal, opium checks excessive secretion and peristaltic 
 motion, and, conjoined with mineral acids, should be given 
 shortly before feeding. Whether occurring from congestion of 
 the alimentary mucous membrane, or as a symptom of other 
 ailments, diarrhoea is often removed by a laxative which car- 
 ries away offending matters. Occasionally, however, the in- 
 testines get into an irritable relaxed condition ; opium in such 
 cases appears to abate irritability of the yaso-motor nerves, 
 diminishes excessive secretion, and may often be advantageously 
 united with acids, bitters, or vegetable astringents. Por such 
 purposes, alike in horses or cattle, the following recipes answer 
 well : — A drachm each of powdered opium, kino, gentian, and 
 sodium carbonate ; or a drachm of opium, a drachm of pow- 
 dered gaUs or half a drachm of tannin, and half an ounce of chalk. 
 These ingredients are either made into bolus with treacle or 
 linseed meal, or dissolved in ale or gruel, and given twice daily, 
 or as required. An ounce laudanum, thirty drops sulphuric 
 
 2 P 
 
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434 OPIUM — MEDICINAL USES. 
 
 acid, two drachms powdered catechu, with an ounce of ginger, 
 aniseed, or fenugreec, make a good astringent anodjme drench 
 for diarrhoea in the cow, and may be given in gruel, ale, or 
 spirits and water. Another useful prescription for such cases 
 of relaxed bowels consists of an ounce each of laudanum, 
 decoction of oak bark, giager, and sodium carbonate, given 
 several times daily in gruel or ale. Half this dose suf&ces 
 for six months calves. For dogs, Stonehenge mixes three to 
 eight drachms laudanum, two to three drachms chalk, one 
 drachm aromatic confection, and two drachms gum arable, dis- 
 solved together in seven ounces of water ; and of this mixtm?e 
 orders one to two table-spoonfuls every time the bowels are 
 relaxed. In dysentery, whether in horses, cattle, or dogs, opium 
 is of great service in allaying pain and straining, and may 
 usually be freely given both by the mouth and rectum. A 
 drachm each of powdered opium, galls, and copper sulphate, is 
 a good formula, and may be repeated twice a day either for 
 horses or cattle. Whilst febrile symptoms continue, this mix- 
 ture, or indeed opium itself, must be used cautiously, and an 
 occasional laxative may be necessary. In gastro-intestiaal 
 cases opium is generally contra-indicated when secretion is im- 
 paired, or the liver or kidneys are acting imperfectly. 
 
 Antagonising muscidar spasm, opium is valuable ia intes- 
 tiaal colic, so common amongst improperly and irregularly fed 
 horses. In these cases it is usually conjoined with such 
 stimulants as sulphuric ether, sweet spirit of nitre, chloroform, 
 spirit of ammonia, or oil of turpentine, and such laxatives as 
 aloes in solution and linseed or castor oil. For general service, 
 few coUc draughts are more effectual than four or five drachms 
 of aloes rubbed down in a quart of tepid water, with an ounce 
 each of laudanum and ether added when the solution is nearly 
 cold. As an antispasmodic for the dog, Stonehenge advises 
 half a drachm to a drachm each of laudanum and sulphuric 
 ether, given ia an ounce of camphor mixture. In the muco- 
 enteritis, so fatal amongst the heavier descriptions of hard- 
 worked horses, a dose of opium and calomel is prescribed in 
 the earlier stages, and opium, belladonna, chloral hydrate, and 
 ether in the second stages. In muco-enteritis as well as in 
 peritonitis, whether common or puerperal, the chief hope of 
 cure lies in the early frequent adnodnistration of large doses of 
 
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COMBATS SPASM, IRRITATION, AND ;PAINr 435 
 
 opium, which control inflammation, exudation, and passive 
 haemorrhage, and lessen irritability and pain. Where acute 
 pain is to he blunted or violent spasm counteracted, large and 
 repeated doses are conjoined with belladonna extract, and given 
 in solution. In such circumstances there is little fear of bad 
 consequences, for the system attaias great toleration both of 
 narcotics and stimulants. Obstruction of the bowels from dust 
 ball, strangulation of the intestine, and intussusception, are 
 usually hopeless, but the only treatment which affords much 
 promise of success is the administration of large doses of opium, 
 which combat spasm, irritation, and pain. 
 
 Diseases of the respiratory organs, with shallow embarrassed 
 breathing, are unsuitable cases for fuU doses of opium, which 
 would stni further depress respiratory function, and favour 
 death by apnoea. Pleurisy may be treated by larger and more 
 frequently repeated doses than bronchitis or pneumonia. Cough, 
 irritability, and pain about the throat or chest, are usually re- 
 lieved by opium, conjoined with belladonna. With belladonna 
 and stimulants, opium is very serviceable in the various ca- 
 tarrhal epizootics of horses, popularly recognised as influenza, 
 and long and fatally doctored by antiphlogistics. For such 
 epizootic cases, after a few doses of salines, cough and vascular 
 congestion are effectually removed, the pulse strengthened, and 
 the appetite improved, by half a drachm each of opium and 
 belladonna extract, with an ounce of ether or sweet spirit of ' 
 nitre administered twice daily in gruel or ale. A similar pre- 
 scription answers -in cases of asthma — -a con^mon complaint in 
 dogs; but in this, as in other diseases, more prompt and 
 certain effects are obtained by the hypodermic iajection of 
 morphine and atropine. In typhoid fever m horses, especially 
 where the bowels are irritable and relaxed, opium is given in 
 frequent small doses, conjoined with nutrients, salines, mineral 
 acids, or stimulants. Eheumatism is sometimes advantageously 
 treated with opium, used in the earlier and more acute stages 
 with calomel and salines ; and in more chronic cases with tur- 
 pentine and other stimulants, smart friction, and warm clothing. 
 In tetanus, occurring in young animals from exposure to cold, 
 opium, especially when conjoined with chloral hydrate or conium, 
 is often of signal benefit; whilst in the more serious cases 
 amongst adults, spasms and morbidly acute sensibility are 
 
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436 OPIUM : EXTERNAL USES. 
 
 sometimes abated. Both in human and veterinary patients 
 rigidity has been removed for several hours by the hypodermic 
 injection of morphine, deeply inserted into the tetanised mus- 
 cles. Combined with chloroform, it is of service alike in mares, 
 cows, and bitches, in allaying the irritability and straining 
 which occasionally follow parturition. Many practitioners 
 recommend it in rabies and chorea, but it is of little use in 
 either. It was once largely used in polyuria amongst horses; 
 but is less to be depended on than iodine. Although without 
 power to arrest phthisis pulmonalis, it is often serviceable in 
 relieving the accompanying cough and diarrhoea. 
 
 Opium is contra-indicated in acute fever, with a hot and dry 
 sMn and a full and strong pulse, in congestive and inflamma- 
 tory diseases of the brain, and in obstinate constipation. Full 
 doses, depressing respiratory functions, prove injurious where 
 there is tendency to death by apnoea. 
 
 Externally, opium is used to relieve the pain of wounds, 
 bruises, boils, blistered and cauterised surfaces, and superficial 
 inflammation of the eye, skin, or joints. For such purposes, 
 ten drops each of laudanum and Goulard's extract may be 
 mixed with an ounce of water. As a topical anodyne, its 
 ef&cacy is often increased by combination with belladonna, 
 chloral hydrate, or aconite. When the skin is tender or abraded, 
 especially in small and young animals, opium must be applied 
 cautiously, as it is apt to become absorbed and produce con- 
 stitutional effects. In haemorrhoids, it is conjoined with gall 
 ointment ; as a soothing astringent injection, it is used in 
 enteritis, typhoid fever, and dysentery, and to allay pain and 
 spasm in irritation and inflammation of the kidneys, bladder, 
 and rectum. Such injections have not only a beneficial topical 
 effect, but by reflex action they also soothe the organs connected 
 with their respective external passages. As a clyster, opium 
 is used in about the same quantities as are given by the mouth. 
 
 Doses, etc. — The average dose -of solid opium for horses is 
 3i. to 3ij. ; for cattle, 3ij. to 3iv. ; for sheep, grs. x. to grs. Ix.; 
 for pigs, grs. x. to grs. xxx. ; for dogs, gr. i. to grs. vj. ; and for 
 cats, gr. ss. to grs. ij. Besides being given alone, it is combined 
 with other medicines, which alter, increase, or repress some of 
 its actions. Its sedative effects are intensified by combination 
 with calomel, aconite, or tartar emetic ; its stimulant and anti- 
 
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DOVER'S POWDER : LAUDANUM, 437 
 
 spasmodic actions by admixture witli sulphuric, chloric, or 
 nitrous ether ; its antispasmodic and anodyne effects by giving 
 it with belladonna, Indian hemp, chloral hydrate, or conium; 
 , its anodyne and soporific actions by union with chloral hydrate, 
 hemlock, or henbane ; its diaphoretic virtues by conjunction 
 with warm clothing, hand rubbing, exercise, and diluents, am- 
 monia acetate, sweet spirit of nitre, and ipecacuan. 
 
 The opium preparations of veterinary practice are less 
 numerous than those of human medicine. Crude opium is given 
 to horses and dogs made into bolus, and no other solid form is 
 necessary. To reduce it to powder, it is first dried ia a vapour 
 bath, and its trituratiod is facilitated by mixture with potassium 
 sulphate, or other hard salt. The extract of opium, though some- 
 what less bulky than crude opium, is not a commendable pre- 
 paration ; for the high temperature at ' which it is generally 
 made causes the resinous matters to unite with the alkaloids, 
 forming compounds which are insoluble and of dimiuished 
 activity. Dover's powder, or rather the pharmaceutical imita- 
 tion of that patent nostrum, consists of one part each of 
 powdered opium and ipecacuan, and eight parts potassium sul- 
 phate, added to f acihtate the trituration and intermixture of the 
 vegetable matters. It is given to dogs as a febrifuge, ia doses 
 of grs. iij. to grs. x. A watery solution, made by rubbing down 
 opium ia hot water, and giving both dissolved matters and resi- 
 due, is excellent for veterinary practice, beiag cheaper than the 
 tincture, and more prompt and effectual than the solid drug. 
 Tincture of opium, popularly known as laudanum, is thus pre- 
 pared by the British Pharmacopoeia process : — " Take of opium 
 in coarse powder an ounce and a half ; proof spirit, one pint ; 
 macerate for seven days, strain, press, filter, and add sufficient 
 proof spirit to make one piat." This brown-red tincture has 
 the odour and taste of opium, and the specific gravity "942. It 
 contains the alkaloids, resinous, and odorous "matters in a con- 
 venient and soluble form. An ounce of laudanum contaias the 
 solid matters of 33 grains of opium, or 13-J minims represent 
 one grain of dry opium. The evaporation of a known quantity, 
 and the weighing of the residuum, are the best safeguards against 
 adulteration. An ounce of good laudanum leaves 17 to 22 grains 
 of residue. For immediate effects laudanum is preferable to 
 solid opium. The dose for horses and cattle is fgi to fgiij. ; 
 
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438 opium: morphine salts. 
 
 for sheep and pigs, f3ii- to f^vi. ; for dogs, TTLxv. to n\^xl. The 
 vinegar and wine of opium are seldom used in veterinary prac- 
 tice. An anmioniated tincture is prepared by digesting for 
 seven days an ounce of opium with four fluid ounces of strong 
 ammonia solution and 1 6 ounces of rectified spirit. An ethereal 
 tincture is made with one or two ounces of opium to a pint of 
 sweet spirit of nitre. Laudanum and soap liniment, mixed, 
 make an excellent anodyne, much used externally, and occa- 
 sionally added to clysters ; but for this latter purpose the 
 watery solution or tincture is generally preferred. In diarrhoea 
 and dysentery, accompanied by pain and strauiing, few remedies 
 are more effectual than injections of opium tincture, mixed with 
 warm starch gruel. 
 
 Morphine Hydeochlokate or Muriate. — Hydrochlorate of 
 morphia, or morphise hydrochloras (Cij Hi^ NOg, HCl, SHg 0), 
 is got by macerating opium in successive portions of water, 
 when the morphine meconate is dissolved. Calcium chloride 
 is added to the solution, mutual decomposition ensues, calcium 
 meconate is precipitated, and morphine muriate remains in 
 solution. The solution is concentrated, the morphine salt is 
 crystallised out, purified by strong. pressure in flannel or stout 
 calico, which removes narcotine and colouring matter, and then 
 Tedissolved in hot water, and again crystallised. Several crys- 
 tallisations, with the use of animal charcoal, are necessary to 
 remove the last traces of colour ; whilst, to free it from codeine, 
 it is dissolved in water, and ammonia added, when pure mor- 
 phine is precipitated, collected, redissolved in hydrochloric acid, 
 and again crystaUised (B^'it. Phar.) When the process is care- 
 fully managed, good Turkey opium yields 10 to 12 per cent of 
 morphine hydrochlorate. 
 
 Properties.- — ^A snow-white powder, consisting of broken- 
 down crystals, which, when entire, are white, lustrous, flexible, 
 needle-like prisms, clustering in radiated groups. It has no 
 odour, but the intensely bitter taste which characterises mor- 
 phine and all its salts. It is soluble in its own weight of 
 water at 212°; in sixteen parts at 60°; and stUl more so in 
 spirit. A good keeping solution is made with three parts 
 water, one part rectified, spirit, and a few minims hydrochloric 
 acid. With salts of morphine, as with the alkaloid itself, nitric 
 acid produces an orange-yellow coloration ; strong neutral solu- 
 
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MORPHINE HYDROCHLOEATE AND ACETATE. 439 
 
 tion of ferric-chloride, a greenisli-bliie coloration ; iodic acid, the 
 evolution of iodine, discoverable by the immediate production 
 of the blue compound with mucilage of starch. A trace of 
 colouring matter, narcotine, codeine, or other alkaloids, does not 
 interfere with the ordinary medicinal actions. White sugar is 
 sometimes used for adulteration. The British Pharmacopoeia 
 gives the following purity tests : — Entirely destructible by 
 heat, leaviag no residue. Twenty grains of the salt dissolved 
 in half an ounce of warm water, with ammonia added in the 
 slightest possible excess, give on cooling a crystaUiae precipi- 
 tate, which, when washed with a little cold water, and dried by 
 exposure to the air, wei^s 15 "18 grains, the proper proportion 
 of morphine. 
 
 Morphine Acetate. — Acetate of morphia, or morphise 
 acetas (0^7 Hjg NOg, G^ H4 Oj), is prepared, by decomposing a 
 solution of morphine hydrochlorate by ammonia solution, adding 
 diluted acetic acid to the precipitated morphine, and dryiag at 
 a gentle heat. It closely resembles the alkaloid, is snow-white 
 and obscurely crystalline, with an intensely bitter taste; is 
 decomposed and dissipated by heat ; is almost completely soluble 
 in water, and entirely so in acidulated water and alcohol. It is 
 distinguished from morphine and its other salts by the acetous 
 odour it evolves on the addition' of sulphuric acid. Whilst the 
 hydrochlorate is generally used throughout Scotland, the acetate 
 is often prescribed in England. 
 
 Actions and Uses. — ^Morphine, its hydrochlorate, acetate, and 
 meconate, possess, in concentrated form-, the several actions of 
 opium. They have the same twofold characters as excitants and 
 soporifics. Accordiug to the dose or species of patient, they 
 destroy life by hypnotism, convulsions, or paralysis of respira- 
 tion. They derange and paralyse the nervous centres, but the 
 nerves themselves stiU retain sensibility and conductivity. 
 They are used to antagonise irritability, spasm, and pain. 
 
 Dr. Harley and Messrs. Mavor {Old Vegetable Mv/rotics) 
 found that four grains morphine acetate, subcutaneously in- 
 jected, accelerated the pulse of horses by 20 to 28 beats, and 
 increased alike its force and volume, produced restlessness, 
 pawing, increased moisture of the mouth and skin, elevation of 
 temperature, and slight dilatation of the pupils. Mr. F. Mavor, 
 experimenting with a well-bred three-year-old colt, injected sub- 
 
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440 OPIUM : MORPHINE SALTS. 
 
 cutaneoTisly four grains morphine ; in two hours the pulse had 
 risen from 36 to 64; the temperature advanced fully one 
 degree, to 101°; two hours later the pulse was 56, the tem- 
 perature remained the same, the pupils dilated, the patient 
 restless, the tongue moist; the effects gradually abated, and 
 disappeared in twenty-four hours {Veterinarian, January 1874). 
 Twelve grains, dissolved in three drachms of water, injected hy 
 three punctures, produced in one horse light drowsiness, giving 
 way, after three hours, to excitement, restlessness, and slight 
 delirium, continuing about six hours. Thirty-six grains, dis- 
 solved in seven drachms, introduced in three punctures, caused, 
 in a seven-year-old hunter, in good condition, drowsiness and 
 stupor, coming on in fifteen minutes, continuing for three 
 hours, slight muscular tremors, awkward staggering gait, lean- 
 ing against the sides of his box, dilated and fixed pupils, blind- 
 ness and insensibility to light, respiration at iirst slow and 
 sighing, gradually becoming accelerated. The dilatation of the 
 pupil is opposed to the contraction so constantly seen in man. 
 After the third hour restlessness and delirium set in, continu- 
 ing for seven hours ; he walked rapidly, and even ran round 
 his box; his pulse was 96, full and thrilling; the skin damp 
 with perspiration ; the membrane of the eyes, nose, and mouth 
 intensely injected. For twenty-four hours the effects continued ; 
 the secretions were, however, unaffected, but the horse was left 
 exhausted. Twelve grains acetate, dissolved in a pint of water, 
 and swallowed by a horse, had no effect beyond increasing the 
 pulsations eight beats {Old Vegetable Neurotics). One hundred 
 grains acetate killed a horse with convulsions in three hours 
 (Dr. H. C. Wood's Treatise on Therapeutics). 
 
 A brown bitch, weighing 25 lbs., had half a grain acetate 
 subcutaneously injected by Dr. Harley, and in a few minutes 
 was vomiting and urinating, lay motionless, her nose on the rug, 
 her fore and hind limbs fully extended. For upwards of three 
 hours she was so completely narcotised that the eyes were 
 insensible to light ; the pupils much contracted ; the pulse fell 
 from 120 to 50, and became irregular; the respirations went 
 down from 20 to 14, and were shallow; the muscles were 
 flaccid. Two to three grains subcutaneously injected kill dogs 
 of 12 lbs. to 16 lbs. weight in ten to twelve hours; doses 
 insufacient to kiU develop in most dogs excitant iastead of 
 
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ANTAGONISM OP MORPHINE AND ATROPINE. . 441 
 
 soporific effects. The spinal cord is more notably acted on 
 than the brain ; there are vomiting, nausea, restlessness, and 
 delirium. In rabbits the action is also more spinal than cere- 
 bral, death often occurriag in convulsions. In mice Dr. Harley 
 records cramp of the spine and restlessness, hypnosis altogether 
 an after effect, narcotism only occurring after a dangerous dose. 
 The antidotes are those of opium. 
 
 Morphine and atropine are analogous in some of their 
 actions, antagonistic in others. Morphine acts more notably 
 on the cerebro-spinal system, atropine on the sympathetic. 
 Morphine in full doses causes more or less stupor, cardiac 
 depression, pallor of the surface, reduction of temperature, 
 diminished peristaltic movements and action of the kidneys, 
 with contraction of the pupil. Atropine in full doses causes 
 delirium, cardiac stimulation, redness of the surface, elevation 
 of temperature, increased peristaltic movements and action of 
 the kidneys, with dilatation of the pupil. The Edinburgh com- 
 mittee of the British Association appointed to investigate the 
 antagonism of medicines demonstrate that within a Kmited 
 degree atropine and morphine are antagonistic. In dogs receiv- 
 ing poisonous doses of morphine meconate, subcutaneously 
 injected, and at once followed by atropine sulphate, 'the symp- 
 toms are diminished ; the respiro-cardiac functions depressed by 
 large doses of morphine are stimulated by the atropine, and life 
 is saved. But the two narcotics are mutually helpful in con- 
 trolling irritability, pain, and spasm. Dr. Harley found that 
 four grains morphine acetate, with two grains atropine sulphate, 
 swallowed by a horse, increase the restlessness and delirium, the 
 rapidity and force of the pulse, the diaphoresis and diuresis, 
 and further induce sleep, which neither drug alone readily pro- 
 duces. "When morphine and atropine are given simultaneously 
 to dogs, the nausea and vomiting caused by full opiates are 
 checked; antispasmodic and anodyne effects are increased; 
 whilst narcotism, so rarely produced by either drug alone, is 
 sometimes developed {Old Vegetable Narcotic^. 
 
 Morphine hydrochlorate and acetate are serviceable in the 
 various cases in which opium, as above indicated, is prescribed. 
 They are specially suitable where the medicine is required 
 in concentrated form, and particularly for endermic or hypo- 
 dermic use. Injected hypodermicaUy, they act in snaaUer 
 
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442 . PEPPERMINT 
 
 quantity, as well as more speedily and certainly than when 
 swallowed ; they can be brought nearer to the seat of suffer- 
 ing ; and by Messrs. Mavor and Dollar of London, Mr. Fearn- 
 ley of Leeds, and other practitioners, have been successfcdly 
 used, especially in neuralgia, acute rheumatism, spasmodic 
 cough, and enteritis in horses ; and in these, and other such 
 cases, good effects result from the conjoint use of morphine and 
 attopiae. 
 
 Doses, etc. — The hydrochlorate and acetate have fully six 
 times the activity of solid opium. Horses and cattle take grs. 
 iij. to grs. X. ; sheep and pigs, gr. ss. to grs. ij. ; dogs, gr. 
 ■J to gr. ^, given in bolus, or dissolved -in diluted spirit, slightly 
 accidulated either with hydrochloric or acetic acid. For hypo- 
 dermic injection, not more than the minimum doses mentioned 
 should in the first instance be used. For such purposes, the 
 salt, freshly prepared, is dissolved as required in 10 to 20 
 parts of water. 
 
 PEPPEEMINT. 
 
 Mentha piperita. Oleum Menthse piperitse. The oil distilled 
 in Britain from fresh-flowering peppermint tops. 
 
 Nat. Ord.— Labiatse. Sex. Syst. — Didynamia Grymnospennia. 
 
 The natural family Labiatse yields many fragrant plants 
 used in medicine as mild stimulants, stomachics, carminatives, 
 and antispasmodics, and in pharmacy as flavouring aromatics. 
 The most important are mint, lavender, rosemary, marjoram, 
 and thyme, all closely resembling each other in properties, 
 actions, and uses. 
 
 The only one requiring special notice is peppermint, an her- 
 baceous plant, growing wild in damp situations, with a smooth 
 annual stem, three to four feet high, and stalked ovate lanceo- 
 late smooth leaves. The herb, and especially its leaves, have 
 an agreeable aromatic odour and a. warm aromatic taste, fol- 
 lowed by an impression of cold ; owe their properties to a bitter 
 principle, a little tannin, and still more notably to a colourless 
 or yellow volatile oil, of which the fresh herb yields 0"25 per 
 cent by distillation with water. At 24° the oil deposits crys- 
 tals of menthol or peppermint camphor (Cn, Hjg, Hj 0). In 
 indigestion, flatulence, and griping tt|_xx. of the oil are given 
 
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A STOMACHIC AND CARMINATIVE. .443 
 
 to horses and cattle, iTLiij. to dogs ; but its chief use is for dis- 
 guising the flavour of unpalatable drugs, and preventing their 
 nauseating. Peppermint water is prepared by distiUing the 
 fresh-flowering herb with water and a little rectified spirit, or, 
 according to the British Pharmacopoeia, by distilling 1^ fluid 
 dram volatile oil with 1-|- gallon water and collecting a gallon. 
 A strong spirit or essence, very suitable either for medicinal or 
 pharmaceutical purposes, is prepared by dissolving one part of 
 the volatile oil in four parts of rectified spirit. The M. viridis, 
 or spearmint, and the M. Pulegiiim, or penny-royal, are scarcely 
 so powerful as peppermint. 
 
 PEPPEES. 
 
 The black and white peppers in daily domestic use are 
 obtained from the brown wrinkled berries of an East Indian 
 climbing plant — the Piper nigrum, of the Nat. Ord. Piper- 
 aceae. They are imported from the Malabar coast, the islands 
 of the Indian Archipelago, and the "West Indies. The spike, 
 bearing 20 to 30 berries, is gathered shortly before ripening, 
 dried in the sun, the berries rubbed off, and ground without 
 separating their outer covering, yielding black pepper. To 
 prepare the nulder white pepper, the best and soundest ripe 
 berries are steeped in water, and their outer covering carefully 
 separated before they are ground. Long pepper brought from 
 Singapore and Batavia consists of small, closely- attached 
 berries, arranged on cylindrical gray spadices one or two inches 
 long. Cubebs, or Cubeba, are the dried unripe fruit of the Cu- 
 beba officinalis cultivated in Java. The berries are stalked 
 and lighter coloured than those of the common pepper, are 
 globular, rough, wrinkled, with a strong odour, and pungent, 
 aromatic, bitter taste. Peppers when ground have a hot, pun- 
 gent, spicy taste, .and owe their properties to a volatile oil — 
 isomeric with oil of turpentine (Cjo H^), a soft pungent resin, 
 and 2 to 3 per cent of the colourless, crystallisable, neutral 
 piperin, which is isomeric with morphine, and is resolved by 
 nitric acid into piperic acid (Cja H^j O4), and an active oily 
 alkaloid piperine (C5 H^ N"). 
 
 Jamaica pepper, pimento, or allspice, closely resembles the 
 true peppers ; is the dried unripe berry of "Eugenia pimenta, a 
 
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444 PEPPERS 
 
 fine evergreen "West Indian tree of the natural family Myrta- 
 cese. The berries, ^th of an iach in diameter, about the size of 
 those of the Piper nigrum, have the same penetrating aromatic 
 odour, and hot, pungent taste, but are more truly aromatic and 
 less acrid. They contaia 3 to 4 per cent of volatile oil, tannic 
 acid, fixed oU, and starch. 
 
 Capsicum — the dried ripe fruit of Capsicum fastigiatum and 
 annuum — is also known as Cliili pepper, chUies, Guinea or 
 pod pepper, and is chiefly brought from Zanzibar. The several 
 varieties differ in shape and size, are of a red colour, and filled 
 with numerous red-brown, pungent seeds. The fruit is seldom 
 used whole, but, when dried and ground, constitutes the fami- 
 liar cayenne pepper, which has a reddish-yeUow colour, a fatat 
 disagreeable odour, and an acrid pungent taste, and owes its 
 properties to a volatile crystalline alkaloid — capsicine, half a 
 grain of which volatilised in a large room renders the air very 
 irritating. 
 
 Actions and Uses. — The peppers are irritant, stomachic, and 
 rubefacient. Large doses, especially in carnivora and onmi- 
 vora, are irritant poisons, causing inflammation of the aliment- 
 ary canal, and sometimes also of the urino-genital organs, with 
 general vascular excitement. That they are especially poisonous 
 to pigs is a popular error. Properly regulated doses stimulate 
 the nerves of common sensation and of taste, and are stomachic 
 and carminative. , Eubbed into the skin they cause redness, 
 irritation, sweUing, and sometimes suppuration. The several 
 peppers differ in the intensity of their action. The black is 
 more active than the white and long peppers, which are of 
 nearly equal strength. Cubebs is less irritant and stimulant, 
 but has a special power of arresting excessive mucous dis- 
 charges. Pimento is less active than the common peppers, is 
 occasionally used as a carminative and a flavouring aromatic ; 
 while capsicum and cayenne are more irritant than black 
 pepper. 
 
 Black pepper, the variety chiefly used in veterinary prac- 
 tice, is administered in simple indigestion, occasionally in colic, 
 and for obviating the disagreeable taste and nausea of various 
 drugs. It is not now given as a sialogogue, nor for the irra- 
 tional object of increasing the sexual appetite, which, when 
 defective, may usually be restored, not by irritating drugs, but 
 
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IRRITANT, STOMACHIC, AND RUBEFACIENT. 445 
 
 by measures which improve general vigour. It ought not to 
 be used for blistering ointments, or for smearing setons ; nor 
 introduced into the rectum of horses exposed for sale — a bar- 
 barous practice, apt to induce serious intestinal irritation. 
 
 Doses, etc. — Of black pepper, as a stomachic and carmin- 
 ative, horses take 3ij. ; cattle, 3iij. ; sheep and swine, grs. xx. 
 to 3i. ; dogs, grs. v. to grs. x. ; repeated two or three times a 
 day, given in bolus, dissolved in water or spirit, or suspended 
 in well-boiled gruel. An ointment made with one or two 
 drachms of ground pepper to the oimce of lard was formerly 
 used externally. 
 
 PETEOLEUM— BAEBADOES TAR— NAPHTHA. 
 
 Petroleum is a somewhat vague term, applied to a class of 
 bitumins usually found in the tertiary strata ; probably pro- 
 duced during the formation of vegetable matters into coal, and 
 varying in density and solidity from the hard brittle asphalt 
 and mineral pitch to the viscid mineral tar and fluid naphthas. 
 They closely resemble the artificially produced coal tar, pro- 
 duced from the distillation of coal in the manufacture of gas. 
 The natural petroleum, brought from Eangoon, is obtained in 
 unlimited quantity by digging wells about sixty feet deep, is of 
 the consistence of paste, of a greenish-brown colour, and an 
 agreeable bituminous odour. Barbadoes, or mineral tar, found 
 in the island of Barbadoes floating on the surface of springs or 
 pools, and in Trinidad, forming extensive beds or lakes, is of 
 the consistence of treacle, of a dull, green-brown colour, with a 
 strong, disagreea,ble, persistent pitchy odour, and a bitter taste. 
 Like other allied substances, it is not miscible with water, be- 
 comes hard and pitch-like when exposed to the air ; when 
 heated it liquefies, evolves a volatile naphtha, and burns with 
 a dense sooty flame. During the last twenty-five years enor- 
 mous quantities of petroleum or rock oil have been brought • 
 from the oil springs or wells of Canada and the North American 
 States, and used for illuminating and lubricating purposes. 
 The petroleums and rock oils consist of a soM residue of bitu- 
 min or pitch, which, in Eangoon tar, reaches four per cent ; a 
 crystaUine spermaceti-like paraffin, the same as is obtained from 
 
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446 PODOPHYLLUM OR MAY APPLE 
 
 cannel coal, and used instead of wax in candle-making ; and a 
 series of more volatile hydrocarbons or naphthas, easily sepa- 
 rated hj distillation, varying in volatility and hoiling point, 
 excellent solvents for indiaruhber, resins, fats, and sulphm", 
 burning readily like alcohol ; and under the various names of 
 paraffin oils, petroleum spirits, benzoline, or naphthas, used for 
 burning in lamps, for singeing horses, etc. 
 
 Actions and Uses. — The petroleums are irritant, stimulant, 
 diuretic, anthelmintic, and antiseptic. The more fluid and 
 active naphthas in large doses are inebriant narcotics, and 
 feeble ansesthetics, allied in physiological effect to the members 
 of the alcohol series. Canadian crude naphtha is not so 
 effectual an antiseptic as carbolic acid, wood naphtha, or tur- 
 pentine. Petroleums were once prescribed as specifics in chest 
 diseases, and as anti-emetics ; but as iaternal remedies they are 
 now little used. Barbadoes tar is still, however, applied exter- 
 nally for the same purposes as wood tar, particularly for the 
 cure of skin complaints, chronic wounds, with thrush, canker, 
 and other diseases of the feet. 
 
 PODOPHYLLUM— PODOPHYLLIISr. 
 
 Dried rhizome of Podophyllum peltatum, from which the resia 
 Podophyllin is extracted by rectified spirit. 
 
 Nai. Ord. — Ranunculacese. Sex. Syst. — Polyandria Polygynia. 
 
 The Podophyllum, or May apple, a perennial herbaceous 
 plant, grows abundantly in the N"orthern States of America, 
 where its subacid fruit is eaten under the name of wild lemons. 
 The root is imported in pieces of variable length, about two 
 lines thick; mostly wrinkled longitudinally; dark reddish brown 
 externally, whitish within ; breakiag with a short fracture ; ac- 
 companied by pale brown rootlets. Powder yellowish gray; 
 sweetish ia odour ; bitterish, sub-acrid, and nauseous in taste 
 {Brit. Fhar.) 
 
 The dried, coarsely powdered root, by percolation with rec- 
 tified spirit, yields three to five per cent of the active resin or 
 podophyllin, a pale, greenish-brown, amorphous powder ; almost 
 entirely soluble ia pure ether, and quite soluble ia rectified 
 spirit and ammonia ; precipitated from the former solution by 
 
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AN IRRITANT, CATHARTIC, AND NAI7SEANT. 447 
 
 water, from the latter by acids. Associated with the resia is 
 the amorphous alkaloid beberine, devoid of irritant properties, 
 also present in various plants of the Berbery tribe and in cal- 
 umba root, an odoriferous principle and. saponin (Fliickiger). 
 
 Actions and Uses. — Podophyllum and its active resin are 
 irritants of the mucous membrane; when swallowed they are 
 cathartics and nauseants. Full doses cause emesis in carnivora. 
 As a purgative it resembles jalap ; but for the larger domestic 
 animals it is slow and uncertain; its cholagogue effect, like 
 that of other resinous purgatives, probably depends upon its 
 irritating the duodenum and hurrying onwards any bile, lodged 
 there, and which, were it not removed, would undergo re- 
 absorption. 
 
 Podophyllum has been used by medical men in America 
 since 1847, and more recently by many British practitioners; 
 30 to 60 grains act on human patients much in the same way 
 as jalap, but it has the • disadvantage of producing unpleasant 
 sensations in the throat, with occasional nausea, vomiting, and 
 depression. Half a grain to a grain of the resin slowly empties 
 the human bowels. It is prescribed in habitual constipation 
 and congested states of the liver, and in smaller doses as an 
 alterative in skin diseases and rheumatism. 
 
 The late Dr. F. Gr. Anstie made, in 1863, a series of experi- 
 ments with an alcoholic solution, which he iajected into the peri- 
 tonexmi of dogs, cats, and rats. With dogs about eighteen 
 inches high, the solution, containing one to two grains of podo- 
 phyllin, caused no uneasiness or movement of the bowels until 
 ten or fifteen hours after the injection, when vomiting and 
 purging were set up, the frequently-passed dejections became 
 very fluid, freely mixed with mucus, and usually tinged with 
 blood ; the breathing was shallow and hurried ; the pulse feeble, 
 at first rapid, but after a few hours very slow ; insensibility, 
 disturbed by occasional convulsions, contiaued for several hours 
 before death, which occurred in twenty-two hours after the in- 
 jection. There was no inflammation of the peritoneimi, the 
 stomach was perfectly healthy ; but the small intestines, and 
 especially the duodenum, were intensely reddened and inflamed; 
 and where two grains had been injected, ulcers, of somewhat 
 smaller size than a threepenny piece, were also found in the 
 duodenum. The large intestines were healthy ; there was no 
 
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448 PODOPHYLLUM — PODOPHYLLIN : 
 
 unusual amount of bile in the bowels, and no congestion or in- , 
 flammation of the liver ; the kidneys and mucous membrane of 
 «the urinary passages were slightly congested. Similar results 
 were noticeable in cats, which require for the development of 
 these poisonous effects doses fully larger than those which de- 
 stroyed dogs. From his experiments. Dr. Anstie drew the fol- 
 lowing conclusions : — " 1. PodophyUin, when injected into the 
 peritoneal cavity of dogs, cats, or rats, has no irritant action 
 upon the serous membrane, unless it remain unabsorbed, lying 
 for some time in contacl^with it. 2. Podophyllin, when injected 
 into the peritoneail cavity, passes into the blood, and exercises 
 a special influence of an irritant kind upon the mucous mem- 
 brane of the intestines, usually of the small intestines only. 
 3. As a secondary result of this irritation, or perhaps as a mere 
 consequence of the squeezing of the gall-bladder by the abdomi- 
 nal muscles in repeated efforts at defecation, bile is occasionally 
 poured out in large quantities ; but this is by no means neces- 
 sary. 4. Neither poisonous doses, nor those which produce 
 what may be called a medicinal effect, appear capable of excit- 
 ing any inflammatory process in the liver. 5. Tor all these 
 reasons, it appears pretty certain that podophyllin in the animals 
 above mentioned does not act directly on the liver ; and that 
 the catharsis produced is due to increased secretion from the 
 intestine, consequent on the specific irritation of its mucous 
 membrane." {Medical Times and Gazette, March and May 
 1863.) 
 
 Mr. D. B. Howell, of Eeading, reports podophyllin to be a 
 prompt and effectual purge for dogs, acting usually in four 
 hours. One drachm to one drachm and a half, with two 
 drachms ginger, he states, moved the bowels of horses in six or 
 eight hours. Not only was the action prompt and certain, but 
 there was no griping, even when the resin was given without 
 preparation, and water allowed ad lilitmn. About a drachm 
 is recorded to have purged a cow in nine hours {Veterinarian, 
 August 1865). 
 
 I have not been able to obtain anything like such favour- 
 able results. I find that oneV grain podophyllin, bolted in a 
 piece of meat by an English terrier weighing twenty pounds, 
 produced no notable effect upon the bowels ; and that two 
 grains acted as a gentle laxative, but only eight hours after 
 
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EXPERIMENTS ON DOGS, CATTLE, AND HORSES. 449 
 
 exhibition. My friend, Mr. Thomas A. Dollar, V.S., of New 
 Bond Street, London, has used the drug frequently, both in 
 dogs and horses, and has kindly placed at my disposal his notes 
 of the following cases : — 
 
 To a Scotch terrier, eight months old, Mr. Dollar adminis- 
 tered half a grain of podophyllin in a pill, without any apparent 
 effect ; and on the following day a grain, which in the course 
 of an hour caused nausea and vomiting : considerable dulness 
 remained for twenty-four hours. 
 
 A bull terrier bitch, of thirty-six lbs. live weight, received 
 four grains in a pill, without showing any notable symptoms ; 
 and on the following day got a further dose of six grains, which 
 in twelve hours produced great uneasiness and griping, and 
 a gentle pixrgative action. During the two following days 
 the bitch refused her food, and for a week continued dull and 
 listless. 
 
 A French poodle, suffering from mange and constipation, 
 had a pill, containing two grains podophyllin, half a grain calo- 
 mel, and a scruple of jalap. No effect was observable at the 
 end of twelve hours, when the dose was repeated, and after 
 eight hours the dog was briskly purged. Half the above dose 
 was repeated every second day for a fortnight, with the result 
 of gently moving the bowels, and gradually removing the 
 mange. In all these cases the pulse was reduced in number 
 and in strength ; the secretion of urine was unchanged ; the 
 faeces were little altered in colour ; there were no indications of 
 any special action upon the liver. 
 
 PodophyUin has less effect on cattle and horses than on 
 men and dogs. To three healthy shorthorn cows I gave three 
 drachms each, and to another cow half an ounce, without 
 observing any laxative effect whatever. I have repeatedly, 
 given healthy horses, prepared by mashed diet, two drachms 
 podophyllin without perceiving any increased action of the 
 bowels. Two drachms, even when united with one or two 
 drachms of aloes, added, to determine, if possible, its action on 
 tlje bowels, -produced only slight softening of the dung, such as 
 might be expected from the aloes alone. I am again in- 
 debted to Mr. Dollar for the following interesting experi- 
 ments : — 
 
 A thorough-bred horse, well prepared by mashes, had two 
 
 2 G 
 
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450 PODOPHYLLUM AND ITS RESIN PODOPHYLLIN 
 
 dracluns podophyUin without its producing the slightest purga- 
 tive effect. Two days later he agaiu received two drachms, 
 with a drachm of aloes, still without any noticeable action on 
 the bowels. Tour hours after the second dose, the pulse, how- 
 ever, was observed to have fallen from 44 to 34 beats per 
 minute. During three days this horse ate nothing but bran ; 
 getting tired of this, he had for two days hay and a little com ; 
 for twenty-four hours he was again restricted to bran mashes, 
 and then received two drachms each of podophyUin and aloes, 
 which, even after this careful preparation, only produced slight 
 laxative effects. 
 
 To a well-bred hunter, nearly sixteen hands high, under 
 treatment for injury of the psose muscles, and fed for twenty- 
 four hours on bran, Mr. Dollar administered two drachms podo- 
 phyUin in a baU, and two ounces Epsom salt in solution. 
 Scarcely any perceptible action was observed on the bowels ; 
 and two days later two drachms podophyUin and one drachm 
 calomel were given, also without purgative effect, but with a 
 reduction, as ia the last case, of nearly ten beats per minute in 
 the pulse. 
 
 A powerful cart-horse, under treatment for sand-crack, and 
 previously restricted for twenty-four hours to a mash diet, got 
 four drachms podophylUn in a ball. Although no purgation 
 foUowed, there was much nausea, and in two hours the pulse 
 became soft and somewhat weakened, feU from 36 to 24 beats 
 per minute, and did not recover its natural force or number 
 untU next day. The appetite continued impaired for a week. 
 
 A thorough-bred mare, 14^ hands high, under treatment 
 for abscess from speedy, cut, was placed on mash dieir for twenty- 
 four hours, and then received two drachms podophyUin in a 
 baU, but without showing any increased action of the bowels. 
 For four consecutive days the mashes were continued, and two 
 drachms of the drug repeated daily untU ten drachms had been 
 taken, stiU without any purgative effect. The pulse, however, 
 which at first was 44, had graduaUy faUen a few beats daily, 
 untU on the fifth day it was 30. By the end of the experiment, 
 the coat stared, aU food was refused during nearly two days, 
 and a fortnight elapsed before the mare recovered her usual 
 appetite and appearance. 
 
 Prom tihese and other experiments, it is evident that podo- 
 
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NAUSEANTS AND SEDATIVES. 451 
 
 phyllin is not likely to he serviceable as a purgative for the 
 domestic animals ; that it acts very tardily, and only when 
 given in doses so large as to induce nausea. Mr. Dollar's 
 observations show, however, that it is possessed of nauseant 
 and sedative effects, which may be available in lowering inor- 
 dinate action of the heart in acute diseases of the respiratory 
 organs, rheumatism, laminitis, and other inflammatory dis- 
 orders. 
 
 Doses, etc. — Por such sedative purposes, horses and cattle 
 take 3i. to 3ij. of podophyllin, united with calomel 3i., or with 
 an ounce of nitre or of Epsom salts. For dogs, gr. i. to grs. 
 ij. may be conjoined with calomel gr. i., gray powder grs. v.' to 
 grs. X., or about the same quantity of ipecacuan. 
 
 POTASSIUM AND ITS MEDICINAL COMPOUNDS. 
 
 Potassium Hydeate. ' Potassa caustica. Potassa fusa. Potas- 
 
 sic hydrate. Hydrate of potash. Caustic potash. K HO. 
 
 Potassium Hydeate Solution. Liquor Potassae. Solution of 
 
 potash, cont9,ining 5-84 per cent by weight of hydrate. 
 
 Potassium salts are obtained chiefly from the mineral car- 
 nallite found in Saxony, and containing 50 per cent potassium 
 chloride, from sea water, or from the crude potashes got by dis- 
 solving the ashes of plants in water, evaporating the solution, 
 and fusing the residue. The crude potashes, calcined imtil 
 white, yield pearl ashps. Pearl ashes or potassium carbonate 
 boiled with freshly slaked lime produce by double decomposi- 
 tion liquor potassse, of which one fluid ounce contains 2 7 grains 
 potassium hydrate (K HO). It is a dense, oily-like fluid, of 
 specific gravity 1'058, colourless and odourless, with an intensely 
 acrid, alkaline, soapy taste, and an alkaline reaction on colour- 
 ing matter. Boiled with oils and fats, it forms soaps ; mixed 
 with acids, it forms neutral, soluble, crystaUisable salts. It 
 softens and dissolves soft animal and vegetable tissues. Although 
 little used in medicine, it is of much importance in chemistry, 
 pharmacy, and other arts. The concentrated oily liquid, when 
 boiled until a drop removed on a stirrer becomes hard on cool- 
 ing, and poured into pencil-lLke moulds, forms the gray or white 
 deliquescent, hard, crystaUine sticks of caustic potash, Potas- 
 
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452 POTASH SALTS 
 
 slum salts are identified ia solution by their negative reaction 
 -with the several group tests for the metals, and their concen- 
 trated solution gives with platinum chloride a yeUow crystalline 
 precipitate of platinum and potassium chloride (2 KCl Pt CI4) ; 
 and with excess of tartaric acid a white granular precipitate of 
 cream of tartar (KH, C4 H^ Oe), soluble in excess of alkali. 
 Evaporated to dryness, and ignited with alcohol, they produce 
 a faint, violet-coloured flame — the spectrum of which is distin- 
 guished by two bright lines, one in the red, the other in the 
 violet. 
 
 General Actions. — Potassium salts are two or three times 
 more powerful than the cdrresponding sodium salts. Dr. Paul 
 G-uttmann states that poisonous doses paralyse the spinal cord 
 and heart, lower blood pressure and temperature, and cause 
 muscular weakness; affecting first the hind extremities. There 
 are dyspnoea and convulsions, diminished frequency and force of 
 the heart-beats, sometimes causing irregularity and in poisonous 
 doses arrest of the action of the heart, which ceases to act in 
 diastole — an effect which, as it follows even when the vagi are 
 divided and the medulla removed, indicates a direct depressant 
 action either on the heart itseK or on its ganglia (Einger's 
 Handlook of Therapeutics). 
 
 Potash salts are constituents of the blood and all the animal 
 textures, but abound especially in the juice of the flesh and in 
 the milk. They are abundantly present in most land plants. 
 Potassium salts, notably the chloride, occur in the Australian 
 salt bush countries, and are stated to be the source of their 
 healthiness, the size of the stock grown on them, and their free-' 
 dom from parasites. Potassium salts are very soluble. Like 
 other alkalies, the -hydrate and carbonates aid the digestion of 
 fatty matters. Given after eating, they neutralise undue acidity ; 
 but seldom permanently remove the cause of acid dyspepsia, 
 which is usually best treated by acids given before meals. 
 They increase the gastric and other acid secretions ; but diminish 
 secretion of the salivary glands, liver, and pancreas. They have 
 a high diffusion power, stimulate oxidation and tissue metamor- 
 phosis, exert a solvent power over albuminoids, and thus counter- 
 act deposition of exudate. They are excreted from the body 
 mainly by the kidneys, increasing chiefly the watery parts of 
 the uriae, and neutralising its acidity. 
 
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ANTACID, FEBRIFUGE, AND DIURETIC. 453 
 
 It simplifies the understanding of the potassium salts to 
 divide them into two groups. 1st, Those which are corrosive, 
 antacid, and 9,ntLlithic — such as the hydrate and carbonates. 
 2d, Those which are irritant, cathartic, diuretic, alterative, febri- 
 fuge, and refrigerant — such as the sulphate, acetate, tartrate, 
 nitrate, chlorate, and permanganate. A third group might be 
 added, including salts which partake of the actions of their acid, 
 or salt radical constituent — such as potassium sulphuretum, 
 iodide, bromide, and cyanide. 
 
 Actions and Uses. — Large doses of potassic hydrate, whether 
 in the solid state or in concentrated solution, are irritant, corro- 
 sive, and cardiac sedatives. Medicinal doses are antacid, febri- 
 fuge, and diuretic. Externally they are used as active pene- 
 tratiag caustics. Excessive doses, when swallowed, soften, 
 corrode, and inflame the oesophagus and stomach, sometimes so 
 severely as to cause perforation. Hertwig found that two 
 drachms of caustic potash, dissolved in six ounces water, killed 
 a horse, with symptoms of colic, in thirty-two hours. Orfila 
 gave a dog thirty-two grains, which caused violent vomiting, 
 restlessness, and death in three days. Post-mortem examination 
 discovered the mucous coat of the oesophagus and stomach red 
 and black from extravasation of blood, with a perforation mea- 
 suring three-quarters of an inch near the pylorus, surrounded 
 by a hard thickened margin (Christison on Poismis). The blood, 
 although dark-coloured, owing to the solvent action of the alkali, 
 is generally fluid. Smaller or more diluted doses gradually 
 impair digestion and assimilation, and destroy life by inanition. 
 The fitting antidotes are diluted acids which form mild salts, 
 and oils which produce soaps — themselves of service as demul- 
 cents, and in men and dogs as auxOiary emetics, with milk 
 gruel or other demulcents. Dr. John Shortt, of Madras, finds 
 the solution a most effectual antidote for the poison of snakes 
 and vipers. Half a drachm, repeated twice daily, has been 
 prescribed for feeding sheep affected with vesical and urethral 
 calculi; but the carbonate is milder and equally effectual. 
 Caustic potash is used for eradicating warts and fungous 
 growths, and making issues. Being very deliquescent and apt 
 to spread, it must be applied cautiously. Mixed with lime, it 
 is less deliquescent, and hence more safe and manageable. 
 
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454 POTASSIUM CARBONATES 
 
 Potassium Caebonate. Potassae Caxbonas. Potassic Carbo- 
 nate. Carbonate of Potash. (K^ COg.) 
 Potassium Bicaebonate. Potassse Bicarbonas. Bicarbonate 
 of Potash. (KH CO3.) 
 
 The Ameripan pot or wood ashes, in their partially purified 
 condition of pearl ashes, contain about eighty per cent of potas- 
 sium carbonate, with twenty per cent of potassium sulphate and 
 chloride, which, being less soluble, are got rid of by dissolving 
 the pearl ashes, with brisk agitation, in an equal weight of 
 water, pouring off the solution, and evaporating it to drjmess. 
 A pure carbonate is got by burning together equal parts of 
 potassium bitartrate and nitre, adding water, filtering and 
 evaporating the solution. The carbonate occurs in crystals 
 as a crystalline powder, but more generally in grains; is white, 
 opaque, and inodorous, with a strong alkaline taste, and an 
 alkaline reaction on test-paper. It is soluble in its own weight 
 of water at 6 0°, deliquesces rapidly in the air ; but, as it gra- 
 dually absorbs carbonic acid, it again slowly dries up. Exposed 
 to a red heat, it loses water of crystallisation to the amount of 
 1 6 per cent. 
 
 Potassium bicarbonate, or acid carbonate of potash, -is pre- 
 pared by passing a current of carbonic acid through a strong 
 solution of the neutral or mono-carbonate. It occurs in trans- 
 parent, colourless, right rhombic prisms ; has a roild, saline, 
 and slightly alkaline taste ; dissolves in about four times its 
 own weight of water at 60°; when heated to redness, it gives 
 off carbonic acid, and becomes converted into the neutral car- 
 bonate, from which it is distinguished by its milder non-acrid 
 taste, by its more abundant effervescence with hydrochloric 
 acid, by its not deliquescing when exposed to the air, and by 
 its giving, in diluted solution, no precipitate with Epsom salt 
 or corrosive sublimate. Carbonic acid, or carbonic anhydride, 
 being diatomic, unites with two equivalents of the monatomic 
 potassium to form the carbonate Kg CO3, and with one of potas- 
 sium and one of hydrogen to form the bicarbonate KH CO3. 
 
 Actions and Uses. — The two carbonates differ only in the 
 degree of their action. Both resemble the hydrate, but have 
 their activity tempered and diminished by combination with 
 
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ANTACID, ALTERATIVE, AND DIUEETIC. 455 
 
 carbonic acid. The bicarbonate has no irritant or corrosive 
 action. The neutral carbonate, in concentrated solution, has 
 much of the corrosiveness of the hydrate. Two drachms given 
 to a dog caused vomiting, great agony, and death in twenty- 
 five minutes (Orfila). Its antidotes are the same as those of 
 caustic potash. Both carbonates are antacid, alterative, and 
 diuretic. As an antacid, preference is given to the milder 
 bicarbonate. Both are useful antidotes for overdoses of acids; 
 and exert antacid and alterative virtues in rheumatism, and 
 also in psoriasis, nettle-rash, and other itching chronic skin 
 complaints. Besides being used internally, a solution is some- 
 times, with ■ benefit, applied to the raw, weeping, painful, or 
 itching surfaces. In antagonising Hthie acid deposits, potas- 
 sium bicarbonate is specially suitable; for the potassium 
 lithate is much more soluble than the sodium lithate. For 
 calculi of the bladder and urethra, common in highly-fed rams 
 and wethers, and largely made up of ammonio-magnesian phos- 
 phate, Mr. litt of Shrewsbury, with exercise and laxative diet, 
 recommends castor oil, f§ii. to f§viij., with belladonna extract, 
 grs. viii. to grs. xvi., followed by potassium bicarbonate, 3ss. to 
 3i., repeated thrice daily, freely dissolved in water or other 
 diluents. As diuretics, the carbonates are less certain than the 
 nitrate or acetate. Professor WaUey finds that both the car- 
 bonates and hydrate, as well as the corresponding sodium salts, 
 increase the activity of aconite when given along with it. 
 Pearl ashes are sometimes applied externally as a stimulant 
 and detergent. At the Cape of Good Hope, a ley made from 
 wood ashes is used successfully as a remedy for scab, either 
 alone or mixed with sulphur. Diluted with 60 to 80 parts of 
 water, the bicarbonate forms a soothing dressing for the earlier 
 weeping stages of eczema rubrum, or red mange, in dogs. 
 
 Boses, etc. — Of either carbonate, horses and cattle take gsK. 
 to gi. ; sheep and pigs, 3ss. to 3i. ; dogs, grs. x. to grs. xl, re- 
 peated several times a day, liberally diluted with water. For 
 stimulating gastric secretion, they should be given half an hour 
 before eating; but in most dyspeptic cases acids are more 
 permanently effectual. 
 
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456 POTASSIUM SULPHURET AND SULPHATES. 
 
 Potassium Sulphueetum. Potassa Sulphurata. SiilpliurateoP''''i 
 
 Potash. 
 
 One part of sulphur and two of potassium carbonate are 
 mixed and heated until fusion occurs, poured on a stone slab 
 and cooled. There is produced a liver-brown, bitter, acrid, 
 soluble, alkaline substance, which is odourless when dry, but 
 when moistened smells of hydrogen sulphide. Eecently pre- 
 pared, it is a mixture of potassium sulphide and hypo-sulphite; 
 but as it oxidises and becomes lighter coloured, it contains be- 
 sides potassiam sulphite and sulphate. 
 
 Actions and Uses. — In large doses it is a narcotic, irritant 
 poison; in mediciual doses, stimulant and alterative. Ex- 
 ternally, it is occasionally applied as a stimulant in chronic 
 skiu diseases. Two oTmces are stated to have destroyed a 
 horse (Bouchardat) ; six drachms and a half, introduced into 
 the stomach of a dog, and retained by ligature on the oeso- 
 phagus, occasioned death with tetanic symptoms in seven 
 minutes ; a drachm and a half in small fragments, introduced 
 into the subcutaneous areolar tissue of dogs, caused extensive 
 inflammation, coma, and death in thirteen hours (Christison). 
 N"o very obvious morbid appearances remain after death, and 
 the compound has hence been supposed to act chemically on 
 the blood in the same manner as hydrogen sulphide. Its an- 
 tidote is chlorinated hme. It has been used in chronic cough, 
 rheumatism, and skin diseases, in doses of one to three drachms 
 for horses and cattle, and two to ten grains for dogs. Like 
 sodium and calcium sulphides, when given several times daily, 
 it hastens maturation of indolent boUs and abscesses, and pre- 
 vents further formation of pus (Einger). Once a panacea for 
 all kinds of poisoning, it is now used only in poisoning by lead, 
 which it converts into a black insoluble and almost inert sul- 
 phide. 
 
 Potassium Sulphate. Potassae Sulphas. Sulphate of Potash. 
 
 i^2 SO,.) 
 
 Potassium Bisulphatb. Hydropotassic Sulphate. Bisulphate 
 
 of Potash. (KH SO^.) 
 
 The residue left in the preparation of nitric acid from equal 
 parts of sulphuric acid and nitre consists of potassium sulphate, 
 
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POTASSIUM IODIDE. 457 
 
 with some excess of sulpliuric acid, wMcli may be got rid of 
 by adding to the solution potassium or calcium carbonate, fil- 
 tering and evaporating the mixture, when potassium sulphate 
 crystallises in transparent, colourless, six-sided prisms, termi- 
 nated by six-sided pyramids, which have a sharp, saline, bitter 
 taste, are hard and difficult to powder, and dissolve in four 
 parts of water at 212°, and in sixteen parts at 60°. 
 
 The bisulphate is prepared by adding to the neutral sul- 
 phate its own weight of sulphuric acid, dissolving and crystal- 
 lising. It is colourless, crystalline, and soluble, with an acid 
 taste, and an acid reaction on colouring matter. It is distin- 
 guished from the neutral sulphate by its small flat prisms, its 
 greater solubility, its acid taste and reaction, and its decompos- 
 ing carbonates with effervescence — a property which has led 
 to its being occasionally substituted for tartaric acid iu making 
 effervescent powders. 
 
 Actions and Uses.^-ln human patients large doses of. sul- 
 phate (in one case two ounces, in another ten drachms) are said 
 to have proved fatal. Professor Eutherford found that it has 
 a distinct stimulant effect on the liver, shared by sodium sul- 
 phate, biit not by magnesium sulphate. Both sulphates are 
 cathartic and diuretic. As cathartics, however, they are less 
 prompt and certain than the sodium and magnesium sulphates; 
 and as diuretics, are less to be depended on than the potas- 
 sium nitrate or acetate. On account of its hardness and in- 
 aptness to absorb moisture, the sulphate is used for facilitating 
 trituration of such tough vegetable substances as opium, ipeca- 
 cuan, and jalap. 
 
 Potassium Iodide. Potassii lodidum. Potassic Iodide. 
 Hydriodate of Potash. (KI.) 
 
 The iodide is conveniently prepared by decomposiug a 
 solution of iron iodide with potassium carbonate. The British 
 Pharmacopoeia recommends the following process : — " Place a 
 gallon of solution of potash in a glass or porcelain vessel, and 
 add twenty-nine ounces, or a sufficiency of iodine, in small 
 quantities at a time, with constant stirring, until the solution 
 acquires a permanent brown tint. Evaporate the whole to 
 dryness in a porcelain dish, pulverise the residue, and mix 
 
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458 POTASSIUM IODIDE 
 
 this intimately with three ounces wood charcoal in fine powder. 
 Throw the mixture, in small quantities at a time, into a red-hot 
 iron crucible ; and when the whole has heen brought into a 
 state of fusion, remove the crucible from the fire, and pour out 
 its contents. When the fused mass has cooled, dissolve it 
 in two pints of boiling distilled water, filter, wash the filter 
 with a little boiling distilled water, unite the liquids, and 
 evaporate until a film forms on the surface; then set the 
 liquid aside to cool and crystallise. Drain the crystals, and 
 dry them quickly with a gentle heat. Evaporate the mother 
 liquor, and get another crop of crystals. Preserve the salt in 
 a stoppered bottle." In this detailed process, potassium iodide 
 and iodate are first produced. Fusion with charcoal deoxidises 
 the iodate, converting it into iodide. The subjoined equations 
 indicate the two stages in the process : — 
 
 Potassium hydrate. Iodine. Potass iodide. Potass iodate. Water. 
 
 6 KHO, 6 1 =5 KI, KlOg, 3 H^O. 
 
 Potassium iodate. Charcoal. Potassium Iodide. Carbonic oxide. 
 
 KIO3, C3 = KI, 3 CO. 
 
 ' Properties. — Cubical crystals, colourless, generally opaque, 
 with a faint odour of iodine, a saline taste, decrepitating when 
 heated, fusing at a red heat, at a higher temperature volatilis- 
 ing unchanged, dissolving in two-thirds of its weight of water 
 at 60°, and in half its weight of boiling spirit. Both aqueous 
 and alcoholic solutions dissolve iodine freely, and are hence 
 useful vehicles for its exhibition. The following tests of the 
 British Pharmacopoeia guard against the common impurities : — 
 " The addition of tartaric acid and mucilage of starch to its 
 watery solution does not develop a blue colour. Solution of 
 nitrate of silver, added in excess, forms a yeUowish-white pre- 
 cipitate, which, when agitated with ammonia, yields by subsi- 
 dence a clear liquid, in which excess of nitric acid causes no 
 turbidity. Its aqueous solution is only faintly precipitated by 
 the addition of saccharated solution of lime." 
 
 Actions and Uses. — Potassiimi iodide closely resembles iodine 
 in its actions and uses, but is less powerful, and devoid of local 
 irritant action. Medicinal doses are alterative, deobstruent, 
 and diuretic. ¥0 salt exhibits greater rapidity in absorption, 
 
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ALTERATIVE, DEOBSTRUENT, AND DIURETia 459 
 
 in permeating tlie textures, and in being excreted through the 
 mucous surfaces, but especially through the kidneys. In the 
 blood it is converted rato iodides and iodates of ammonium and 
 sodium; during its elimination ozone is liberated (Bucheim), 
 lymphatics are stimulated, tissue metamorphosis is increased, 
 and waste products quickly got rid of. 
 
 Two or three drachms dissolved in water, and given to 
 dogs, caused vomiting, great depression, and death in a few 
 days ; one drachm had a similar effect on rabbits ; three 
 drachms injected beneath the skin of the back of a dog caused 
 extensive subcutaneous inflammation, and death in three days. 
 Iodine was detected after death in the blood and urine, in the 
 brain and spinal cord, in most of the internal organs,, and even 
 in the muscles and bones (Cogswell). MaOlet (quoted by 
 Tabourin) states that two or three drachms given to horses act 
 as, an irritant poison, and that three or four drachms cause 
 fatal intestinal haemorrhage. But this must be a mistake. I 
 have many times given horses and cattle half an ounce to an 
 ounce without any other effect than slight diuresis and cath- 
 arsis. Such doses continued twice daily for a week do not 
 produce in horses any irritation or symptoms of iodism such as 
 occasionally follow its use in human patients. For arresting 
 the discharge of chronic bronchial catarrh, and hastening 
 absorption after attacks of lymphangitis in horses, and after 
 other inflamma,tory complaints, it is conjoined with tonics or 
 stimulants. In such cases horses and cattle frequently receive 
 a drachm each of potassium iodide and ammonium carbonate, 
 and half an ounce of gentian, given twice daily, either in ball or 
 solution. It is also prescribed ia scrofulous glandular enlarge- 
 ments, and in chronic rheumatism; aids the removal of lead 
 mercury and other metals from the body, probably causing their 
 re-solution and expulsion in the urine. It is applied externally 
 for the reduction of tumours, and is constantly employed for 
 increasing the solubility of iodine, both in water and alcohol. 
 
 Boses, etc. — Horses and cattle take 3ij. to 3vj. ; sheep and 
 pigs, grS. XX. to grs. Ix.; dogs, grs. v. to grs. xv.; repeated three 
 times a day, and given either in bolus or solution, in water or 
 spirit. Dr. Lauder Brunton suggests that its effects are in- 
 creased when it is given with common salt, more iodine being 
 thus liberated {The Practitioner, September 1876). 
 
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460 POTASSIUM NITRATE — NITRE :' 
 
 Potassium Beomide. Bromide of Potassium. K Br. 
 
 The Bromide is prepared from the mother liquors of the 
 salt works at Stassfurth, and from salt springs in the United 
 States (Bloxam). When purified, it occurs in colourless cubi- 
 cal crystals, soluble in water, but insoluble in spirit, odourlesSj 
 but with a pungent saline taste. "When chlorine is added to 
 the aqueous solution, bromine is liberated, identified by its 
 distinctive yellow brown colour, and, when in considerable 
 amount, by its suffocating odour. 
 
 ActioTis and Uses. — It is a nerve sedative, depressing cere- 
 bral function and reflex excitability. It is excreted mostly 
 unchanged by the kidneys. In human patients it is given to 
 allay cerebral excitement ; and in dogs, to check epilepsy, and 
 other convulsive disorders. Like the corresponding iodine salt, 
 it is believed to be deobstruent ; and is used in the same, or 
 somewhat larger, doses, occasionally conjoined with chloral and 
 hemlock. Weither the potassium nor ammonium bromides 
 have yet been used for horses or cattle. 
 
 Potassium Nitrate. Potassse Nitras. Nitrate of Potash. 
 Nitre. Saltpetre. (KNOg.) 
 
 In the East Indies, Persia, Egypt, Spain, and other warm 
 climates, a brown incrustation of nitre covers considerable tracts 
 of country. Nitric acid is formed by the oxidation of the 
 ammonia aHke of the soil and atmosphere, and also by the direct 
 union of the nitrogen and oxygen of the air under the influence 
 of electricity. Prom the disintegration of felspar and mica 
 rocks and plant remains, the potassium is eliminated. The 
 saline efflorescence, consisting of sodium chloride and sulphate, 
 and potassium and calcium nitrates, is gathered towards the 
 end of summer ; in India, about November. It is dissolved in 
 water, and mixed with impure potassium carbonate ; the in- 
 soluble calcium carbonate is allowed to settle ; . and the potas- 
 sium nitrate poured off in solution, and purified by repeated 
 solution and crystallisation. In Prance and other continental 
 countries, nitre for gunpowder and other purposes is prepared 
 artificially by collecting into large heaps animal and vegetable 
 refuse, with old plaster and other calcareous matter. The heaps 
 
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DIURETIC, FEBRIFUGE, AND REFRIGERANT. 461 
 
 are sheltered from rain, but freely exposed to tke air, frequently- 
 watered witli urine, and occasionally turned. After about two 
 years the whole is Hxiviated, and purified by a process similar 
 to that followed with the natural nitre. 
 
 Properties. — ^White, opaque, crystalline masses, or trans- 
 parent, colourless, anhydrous, slender, six-sided prisms, with a 
 sharp, cooling, saline taste, undergoing no alteration ia the air, 
 deflagrating when thrown on flame. It is soluble in 3 -I- parts 
 of cold water, and one-third of its weight of boiling water; 
 during solution much heat is abstracted; it is insoluble in 
 alcohol. Warmed in a test-tube, with sulphuric acid and 
 copper filings, it evolves ruddy fumes of nitric peroxide ; heated 
 to fusion, the melted mass forms, on cooling, the hard, white, 
 fibrous, sal-prunelle. None of its common impurities interfere 
 with its medicinal actions. 
 
 Actions and Uses. — Large doses are irritant and cathartic; 
 medicinal doses are diuretic, alterative, antiseptic, febrifuge, and 
 refrigerant ; externally, nitre is stimulant and refrigerant. 
 
 ..An ounce has proved fatal in human patients, but very 
 large doses are required to cause serious effects, either in 
 horses or cattle. Mr. Morton gave a healthy horse two pounds, 
 dissolved in six pounds of water, and found that it acted both 
 on the kidneys and bowels, but that its effects ceased in twenty- 
 four hours {Veterinarian, 1837). Moiroud, however, reports 
 that half a pound given to horses, and two or three drachms to 
 dogs, inflame the alimentary canal and urinary organs, causing 
 depression and death, usually within twenty-four hours. 
 Several ounces usually purge horses and cattle, and cause 
 vomiting in dogs, accompanied by irritation of the kidneys and 
 bladder. Dr. Paul Guttmann states that poisonous doses 
 paralyse the spinal cord, cause dyspnoea and occasionally con- 
 vulsions, and muscular weakness, first overtaking the hind 
 extremities ; they lessen the frequency and force of the heart's 
 action, which in fatal doses ceases to act in the diastole. 
 
 Mtre has a high diffusion power, it rapidly enters the 
 blood ; it renders the venous blood scarlet, counteracts adhesion 
 of the red globules, favours solution of fibrin, oxidises products 
 of tissue metamorphosis, and hastens their removal especially 
 by the kidneys, lowers arterial tension, and neutralises acidity. 
 To one or more of: these actions are due its several curative 
 
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462 POTASSIUM NITRATE — NITRE : 
 
 effects. In febrile inflammatory and rheumatic complaints it 
 abates fever, lowers excessive temperature, and removes, by the 
 kidneys, both fluid and soM matters. In the eai'lier and acute 
 stages it is conjoiaed with other salines and sedatives ; in the 
 second stages, with alteratives, stimulants, and tonics. Along 
 with diuretics, it is prescribed iu scantiness and turbidity of 
 the uiiae, and in swelled legs and dropsical affections. Small, 
 frequently-repeated doses are often valuable in arresting pur- 
 pura in horses, even in cases in which iron and turpentine have 
 proved iaeffectual. Many agriculturists give their horses, 
 whilst on hard food, an ounce of nitre with a mash every 
 Saturday night ; the bowels, kidneys, and skin are thus kept 
 in good order ; and attacks of swelled legs and weed, so com- 
 mon when hard-worked horses stand idle, are warded off. 
 Mtre, dissolving in water, abstracts heat, and is consequently 
 a useful refrigerant in' apoplectic seizures and inflammation, 
 especially affecting the joints and feet. Its cooling effect is 
 increased by admixture with sal-ammoniac. Five ounces each 
 of nitre and sal-ammoniac, dissolved in sixteen of water, reduce 
 the^ temperature from 50° to 10°, or through 40° (Pereira). 
 
 Doses, etc. — As a diuretic, horses take gss. to |i. ; cattle, 
 gi. to gij. ; sheep, 3i. to 3ij. ; pigs, 3ss. to 3i. ; dogs, grs. x. to 
 grs. XXX. Soap, resin, with other diuretics, and' free solution 
 in water, hasten and increase its action on the kidneys. The 
 common diuretic mass of the Edinburgh Veterinary College is 
 thus made : — Take soap and nitre, of each lbs. ij. ; resin, lbs. 
 iij. ; Venice turpentine, lbs. ij. ; oil of turpentine, f gviij. Melt 
 the soap and resin over a slow fire ; remove the mixture from 
 the heat ; and when it has somewhat cooled, stir in the other 
 constituents. The dose of this mass is gij. The balls are made 
 up with a little linseed meal or flour. As an alterative and 
 febrifuge, nitre is given in about half the doses used to cause 
 diuresis, is repeated every two or three hours, and is generally 
 conjoined with other medicines. A sedative febrifuge and 
 laxative baR for the horse is made with an ounce nitre, a 
 drachm aloes, and twenty grains calomel, made with simple 
 syrup, or linseed meal and water. Where the horse has cold, 
 fever, and impaired appetite, a useful draught is made with 
 Epsom salt two ounces, and nitre, powdered gentian, and am- 
 monia acetate solution, of each an ounce, dissolved in gruel or 
 
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DIUEETIC AND FEBRIFUGE PRESCRIPTIONS. 463 
 
 ale. ■ Catarrhal symptoms and sore-throat are often relieved 
 hy four drachms nitre, two drachms camphor, and one drachm 
 each of ipecacuan and belladonna extract, made into a ball, 
 and repeated every two hours. An ounce each of potassium 
 carbonate and nitrate, with two drachms iodide, are useful in 
 rheumatism. Similar combinations are serviceable amongst 
 cattle. For them a convenient alterative is made with two 
 ounces each of, nitre, sulphur, and ginger, given in treacle and 
 water or in ale. A good fever medicine for the dog consists 
 of five grains each of nitre and Dover's powder, and one grain 
 calomel, either placed upon the tongue, bolted in a piece of 
 meat, or made into a pill with syrup, or liquorice powder and 
 water. Mr. Mayhew recommends three to eight grains nitre, 
 one to four grains James' powder, and the same quantity of 
 belladonna extract, made into a pill with confection of roses. 
 Cats take about half the doses requisite for dogs. 
 
 Potassium Chlobate. Potasses Chloras. Chlorate of Potash. 
 
 (K CI O3.) 
 
 Chlorine gas, evolved from manganese black oxide and 
 hydrochloric acid, is conducted into a large carboy containing 
 a mixture of potassium carbonate and calcium hydrate. The 
 mass, when charged with chlorine, as indicated by its acquiring' 
 a pink colour, is boiled, and the crystals formed in cooling are 
 purified by re-solution in boiling water. Potassium chlorate 
 occurs in colourless rhomboidal plates, has a cool saMne taste, 
 is soluble in sixteen parts of cold water, and in two parts at 
 212°. It readily parts with its large amount of oxygen; 
 j;hrown on red-hot coal it. deflagrates j triturated with sulphur 
 or phosphorus it explodes. Explosive gases are also evolved 
 when it is heated with sulphuric or hydrochloric acids. It is 
 distinguished by its negative reaction with silver nitrate solu- 
 tion, by a crystal evolving oxygen when heated, and by the 
 residue boiled with a few drops of water, giving, with silver 
 nitrate, the white precipitate of chloride. 
 
 Actions and Uses. — Potassium chlorate is febrifuge, anti- 
 septic, refrigerant, and diuretic ; used externally, it is stimulant 
 and refrigerant. It is less soluble than nitre or than sodium 
 chlorate, both of which it closely resembles. When swallowed, 
 
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464 POTASSIUM PEEMANGANATBS — CONDY S FLUID : 
 
 it is absorbed, is excreted by the salivary and buccal glands, 
 exerting a beneficial action on aphthous or other such eruptions 
 of the mouth. It is in great part got rid of in the uriae, 
 mostly -unchanged, and without being deprived of its oxygen. 
 Like other salines, it is of service in febrile and inflammatory 
 cases, probably retarding too rapid decomposition of albuminoids, 
 preventing undue multiplication of white corpuscles and bio- 
 plasms, and promoting secretion. In fever cases, whether in 
 horses or cattle, it lowers the pulse and temperature, cleans 
 the tongue, restores the appetite, gently stimulates the bowels, 
 and renders their evacuations more natural and less coated 
 with mucus. In inflammatory cases, it is given after aconite 
 or cathartics have abated the more acute symptoms ; in zymotic 
 cases it is used either alone or with Epsom salt, gentian, or 
 ether. In hard-worked horses, overdone or suffering from cold, 
 half an ounce night and morning, with gentian and ether, usually 
 acts admirably. Mr. Thomas A. Dollar, who uses it largely, 
 considers that in such cases its ■ regular use during a week or 
 two wards off attacks of farcy. Given twice a week, in quarter 
 or half ounce doses, to calves and young cattle, it seems to 
 prevent attacks of quarter-evil, and other congestive disorders. 
 On account of its general febrifuge action and its healing effect 
 on the irritable aphthous membrane, it is of special value in 
 mouth-and-foot disease. 
 
 Doses, etc. — Horses take 3i. to 3ij. ; cattle, 3ij. to 3iij. ; 
 sheep and pigs, grs. xx. to grs. Ix. ; dogs, grs. v. to grs. xv. 
 given either in bolus or solution, alone or conjoined with 
 bitters, tonics, or stimulants. 
 
 Potassium Permanganate. Potassae Permanganas. Cond/s 
 Fluid. (K Mn O4.) 
 
 When manganese black oxide is fused with potassium 
 oxide and chlorate, a greeij mass, or with addition of water, a 
 green solution, is formed of potassium manganate. When this 
 oxidises slowly by exposure to the air, or more rapidly by 
 addition of a little sulphuric acid, the permanganate is formed. 
 It may be crystallised in dark-purple slender prisms, but is 
 more generally used in the deep crimson or purple solution 
 known as " Condy's Fluid," — a mixture of manganates and per- 
 
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DEODORISERS AND MILD STIMULANTS. 465 
 
 manganates of potassium and sodium. The Pharmacopoeia Liquor 
 potassse permanganas is about double the strength of Condy's 
 Fluid, and contains four graius permanganate to the ounce. 
 
 Actions and Uses. — The manganates and permanganates 
 are deodorisers and nuld stimulants, well adapted for external 
 use. They are of no value as internal remedies, for- when 
 swallowed they are rapidly decomposed, manganese black 
 oxide being evolved. Whilst thus readily parting with a 
 portion of their large supply of oxygen, they also lose their dis-^ 
 tinctive colour, which varies from purple to piak according to 
 concentration. The rapidity with which a known quantity of 
 the permanganate solutioft loses its colour is hence a handy in- 
 dication of the amount of organic contamination in the water, 
 other fluids, or even in the air experimented with. Perman- 
 ganates are used to cleanse the water supplies both of men and 
 animals. Four ounces Oondy's Fluid, stirred amongst a 
 hundred gallons of stale-smelling, unsightly rain water, left too 
 long in a foul cistern, usually precipitates all impurities, and 
 after a few hours renders the clarified water sweet and fit for 
 use. StUl, in virtue of this oxidising power, permanganates 
 attack and break up those gases and organic particles on which 
 bad smells depend. Excepting hydrogen peroxide, which is 
 not generally applicable on account of its cost, no deodorisers 
 are so effectual. Portions of sacking wetted with solutions of 
 one part of Condy's Fluid to fifty or sixty of water, should be 
 suspended about the premises to be deodorised, or shallow 
 vessels containing such solutions placed about the building. 
 But, although promptly removing bad smells, they cannot, like 
 the tar acids or sulphurous acid, arrest the causes on which 
 such smells depend ; they have little antiseptic power ; half a 
 grain potaBsiiim permanganate is less effectual in preventing fer- 
 mentation of saccharine solutions than one-thirtieth of a grain of 
 corrosive sublimate, or one-tenth of a grain of sulphuric acid ; 
 whilst Dr. C. Calvert found that meat soaked in permanganate 
 solution, and placed in closed bottles, became tainted in two days, 
 and putrefied in four, although, when similarly treated with car- 
 bolic acid, it dried up and was effectually preserved. Being 
 thus deficient in antiseptic power, and, moreover, not being volar 
 tile, permangana,tes are not to be depended upon as disinfectants. 
 Potassium permanganate has " been given to horses as an 
 
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466 POTASSIUM ACETATE AND TAETEATE. 
 
 alterative and febrifuge in drachm doses ; but observatioi 
 not justify its preference to the nitrate or chlorate. Diss 
 in fifty to a hundred parts of water, Condy's Fluid prove 
 viceable for cleansing and deodorising the mouth in f 
 cases, in aphtha, ozsena, and ulceration of the fauces, 
 refreshing wash in typhoid fever, and as a mildly stimu 
 deodorising lotion for offensive wounds. 
 
 Potassium Acetate. Potassse Acetas. Acetate of Pot 
 (K C, H3 0,.) 
 
 When potassium carbonate is neutralised by acetic 
 the white, asbestos-like, soluble, deliquescent acetate is 
 duced. It closely resembles the nitrate in its actions 
 uses, is prized in human medicine as a diuretic, and is giv 
 animals in the same or somewhat larger doses. Like 
 alkaline salts containing a vegetable acid, it is niainly conv 
 in the system iato a bicarbonate, and as such is excreted ii 
 ujiae. 
 
 Potassium Acid Tartrate. Potassse Tartras Acida. 
 tassse Bitartras. Acid Tartrate of Potash. Crear 
 Tartar. (K H, C^ H^ Og.) 
 
 The crude tartar or argol, obtained in an impure 
 from the interior of wiae casks, when purified by solutior 
 crystallisation, occurs in white, hard, crystalline masses, w 
 sharp acid taste. Large quantities cause in all animals in 
 mation of the alimentary canal. Several ounces operat 
 horses and cattle as a mUd laxative ; lesser doses act, 
 nitre, as alteratives and febrifuges, are converted in the 
 into the carbonate, and excreted mostly in the urine, cai 
 diuresis. 
 
 PETJSSIC OE HYDEOCYANIC ACID. 
 
 Aciduin Hydrocyanicum. (H E"C or H Cy.) 
 
 Prussic acid is so called from its having been first obti 
 from Prussian blue. Its title of hydrocyanic acid is de 
 from its being composed of hydrogen and the compound ra 
 cyanogen (ON or Cy). It may be extracted from the L 
 
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PEUSSIC ACID. 467 
 
 and seeds of various plants of tlie apple and almond tribes, by 
 crushing and moistening them with water, when their albuminoid 
 emulsin excites in the amygdalin a species of fermentation, 
 from which are evolved hydrocyanic acid, a volatile oil, and 
 some other products. 
 
 The diluted medicinal solutions usually contain 1 to 5 per 
 cent of anhydrous acid. 
 
 Anhydrous Peussic Acid, one of the most active of 
 poisons, is prepared by decomposing any metaUic cyanide with 
 a strong acid, or by treating dry mercuric cyanide with hydro- 
 gen sulphide, and collecting the vapour evolved in a receiver 
 kept cold by a mixture 'of ice and salt. It is a colourless, very 
 volatile liquid, with a specific gravity of "7, is devoid of acidity, 
 has a strong pungent bitter taste, and produces a peculiar sen- 
 sation in the back of the throat. Its odour, generally likened 
 to that of bitter almonds, or cherry-laurel water, is perceptibly 
 different from either, and entirely devoid of ratafia aroma. It 
 unites both with water and alcohol, is inflammable', boils at 
 80°, and when dropped on the skin produces a sensation of 
 coldness and numbness. 
 
 Medicinal oe Diluted Acid may be obtained by decom- 
 posing the cyanides of potassium, mercury, or silver ; but the 
 most convenient and economical method is by the action of 
 sulphuric acid on potassium ferrocyanide, which is thus pre- 
 pared': — ^Azotised animal refuse, such as scrapings of hides, 
 cuttings of hoofs and. horns, are fused in an iron retort with 
 potassium carbonate and iron filings. The carbon and nitrogen 
 of the organic matters at the high temperature, and in the pre- 
 sence of the potassium salt, unite to form the volatile radical 
 cyanogen (GN or Cy), which is fixed by the potassium forming 
 potassium cyanide (K Cy), But iron being also present, a 
 double cyanide of iron and potassium is formed. The ferro- 
 cyanide of potassium, or yellow prussiate of potash, which 
 crystallises in four-sided tabular yellow prisms, gives with iron 
 protosalts a gray precipitate, speedily becoming blue from 
 absorption of oxygen, and with iron persalts a deep Prussian 
 blue at once. It is tetrabasic, with the formula K^ Fe Cyg, 
 3H2 0. When chlorine is passed through a solution of this 
 ferrocyanide an equivalent of potassium is removed, and there 
 is produced the ferricyanide of potaasium or red prussiate of 
 
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468 PEUSSIC ACID : 
 
 potash, which crystallises in bold red right rhomhic prisms, is 
 distiaguished from the yellow prussiate hy giving no precipitate, 
 but only an olive green coloration, with iron persS,lts, but a 
 brOliant deep blue at once with protosalts. It is tribasic, and 
 has the formula Kg Fe Cy^, or Kg Fd Cy. 
 
 For the making of medicinal prussic acid the British Phar- 
 macopoeia gives the following directions : — " Dissolve 2^ ounces 
 of ferrocyanide of potassium in 10 ounces of water. Dilute 1 
 ounce of sulphuric acid with 4 ounces of water, and when the 
 mixture is cold add it to the solution of prussiate of potash in a 
 flask arranged with a suitable condenser and a receiver for dis- 
 tillation. Put 8 ounces of water into the receiver, apply heat 
 to the flask, until by slow distillation the hquid in the receiver 
 is increased to 1 7 fluid ounces. Add to this 3 ounces of water, 
 or as much as may be sufficient to bring the acid to the required 
 strength, viz. that 100 grains (or 110 minims) of it, precipi- 
 tated with a solution of nitrate of silver, shall yield 1 grains of 
 dry cyanide of silver." 
 
 In this process the sulphuric acid and the potassium ferro- 
 cyanide undergo mutual decomposition, cyanogen is evolved, 
 combines with hydrogen, and comes over as hydrocyanic acid. 
 There remains an insoluble double cyanide of iron and potas- 
 sium with hydro-potassic sulphate. The changes, probably some- 
 what complex, are formulised as foUows : — 
 
 Potassium Sulphuric Iron and Potass, Potassium Hydrocyanic 
 
 ferrocyanide. acid. cyanide. acid sulphate. acid. 
 
 K, Fe Cye -|- 3 H^ SO4 = K Fe Cyg + 3 KH SO^ + 3 H Cy. 
 
 Prussic acidf even when carefully made by the same pro- 
 cess, is liable to variation of strength, and is, moreover, apt to 
 volatilise and diminish in activity. The determination of the 
 strength is, however, easy. Silver nitrate throws down a white 
 precipitate of silver cyanide, every five grains of which represent 
 one grata of anhydrous acid. Thus 100 grains of Pharmacopoeia 
 acid should yield ten grains of silver cyanide, or contain, in 
 other words, two per cent of anhydrous acid. Scheele's acid is 
 usually uncertain in strength, cpntaining one to four per cent of 
 anhydrous acid. 
 
 Properties. — The medicinal acid has most of the properties 
 of the anhydrous, exhibits the same distinctive penetrating 
 
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PROPERTIES AKD TESTS. 469 
 
 diffusible odour, causes similar numbness of the parts on wliicli 
 it is dropped, is volatile, and rapidly diminishes in strength, 
 unless kept in well-stoppered bottles protected from Hght. It 
 has the specific gravity -997 ; reddens litmus only very slightly 
 and transiently ; evaporated on a platinum capsule, it leaves 
 no residue. It is generally very pure ; its price, of about a 
 halfpenny per ounce, affords no temptation for intentional 
 adulteration. A trace of sulphuric, or of other mineral acid, is 
 said to improve its keeping properties. 
 
 Tests. — Prussic acid is easily identified, even in small 
 quantity and diluted solution, (a) Its odour is strong, diffusible, 
 and penetrating; and, as above stated, readily distinguished 
 from that of cherry-laurel water and bitter almonds by the 
 absence of ratafia aroma, (b) Scheele's test, or the production 
 of Prussian blue, is very delicate and characteristic. The acid 
 solution, rendered alkaline by potash solution, is treated with 
 iron sulphate solution; a grayish-green precipitate is thrown 
 down, which, on the addition of a little hydrochloric acid to 
 re-dissolve the ferrous oxide, assumes, after a few minutes' 
 exposure, a deep Prussian blue colour, (c) Silver nitrate pro- 
 duces a white precipitate of silver cyanide, distinguished, from 
 the white chloride by its being soluble in ammonia and in hot 
 nitric acid, but insoluble in cold nitric acid, and by its evolving, 
 when heated, the heavy, strong-smelling cyanogen gas, which, 
 if kindled as it passes from a narrow tube, burns with a rose- 
 coloured flame edged with green, (d) Boiled with ammonium 
 hydro-sulphide, previously boiled with sulphur,and with ammonia 
 solution, sulpho-cyanic acid (H Cy S) is produced, and the 
 liquid, when acidified with hydrochloric acid, "gives a blood-red 
 solution with ferric-chloride solution, (e) Schbnbein's test is 
 thus given by Professor Attfield : — " Filtering-paper is soaked 
 in a solution of three parts of guaiacum resin in 100 of alcohol. 
 A strip of this paper is dipped in a. solution of one part of 
 sulphate of copper in 50 of water, a little of the suspected 
 solution is placed on this paper and exposed to the air, when 
 it immediately turns blue." 
 
 Complex liquids, such as the contents of the stomach, are 
 filtered, neutralised with sulphuric acid, cautiously distilled, and 
 the clear liquid which first comes over tested in the usual way. 
 A still simpler and more direct plan, is to place a portion of the 
 
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470 PEUSSIC ACID POISONING 
 
 suspected fluid in a porcelain crucible, a wide-mouthed bottle or 
 beaker, add a few drops of strong sulphuric acid, gently stir 
 with a glass rod ; if needful, the vessel may be placed in a 
 basin of warm water, but the acid added usually evolves heat 
 sufficient to volatilise any prussic acid, which condenses on a 
 watch-glass inverted over the crucible or bottle, and moistened 
 with silver nitrate, when silver cyanide is produced. If the 
 watch-glass is moistened with potash solution, and any prussic 
 acid is given off, potassium cyanide is formed, detectible by add- 
 ing to it a drop of iron sulphate and perchloride or any other 
 mixed ferrous and ferric salt, and then a drop of hydrochloric 
 acid, when Prussian blue is developed. As hydrocyanic acid 
 is readUy volatilised and decomposed by many organic sub- 
 stances, it can seldom be detected in the bodies of animals 
 poisoned by it, unless examination is made within four or five 
 days after death. It sometimes disappears even in less time, 
 especially if the body has been exposed to the weather. 
 
 Actions and Uses. — Prussic acid is equally fatal amongst 
 plants and anima,ls. Poisonous doses paralyse the cerebro-spinal 
 axis, act most notably on the medulla and respiratory centre, and 
 destroy life by paralysis of respiration. Medicinal doses are 
 sedative, anodyne, and antispasmodic. Used externally, it allays 
 irritability and itching in eczema and other skin complaints. 
 
 General Actions. — 'No poison is more active than anhydrous 
 prussic acid. Injected into the jugular vein of the dog, it 
 causes death within a minute. One to four drops, placed on 
 the tongue or within the eyelids of dogs, cats, rabbits, or such 
 small animals, begin to operate in ten to thirty seconds ; three 
 or four rapid laboured inspirations, a hurried convulsive expira- 
 tion, and a general tetanic seizure precede death. Ten to 
 twenty drops produce similar effects' in horses. The two per 
 cent medicinal acid, given to dogs and cats in doses of forty to 
 sixty minims, sometimes acts with a rapidity scarcely inferior 
 to the anhydrous acid ; more commonly, however, life is pro- 
 longed for several minutes, and death is preceded by giddiness, 
 profuse salivation, dilatation of the pupil, impaired power of 
 voluntary movement, slowing of the pulse, a slight rise and 
 subsequent fall of blood pressure, rapid failure of respiration, 
 and tetanic convulsions. The heart continues to pulsate for 
 several minutes after respiration has ceased. When life is pro- 
 
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PARALYSES THE CBREBEO-SPINAL AXIS. 471 
 
 longed 'beyond a few minutes, tlie general sedative effect of the 
 drug is demonstrated ; there is paralysis of motUity, sensibility, 
 and reflex irritability, muscular trembUngs and convulsions. 
 This general paralysis affords the key to the medicinal uses of 
 prussic acid. If the animal lives for half an hour, perfect 
 recovery may be expected. Eecent observations disprove any 
 special action on the vagus (Dr. Bochin, Practitioner, September 
 1874). Convulsions depend upon the paralysing and derang- 
 ing action on the spiaal cord, and not, as with strychnine, 
 on a stimulant action. Professor Coleman gave an aged horse 
 repeatedly, at intervals of several days, one to three drachms of 
 Scheele's acid, containing about four per cent of anhydrous acid, 
 and noted much excitement, the pulse raised to 100, and in one 
 experiment to 160, laboured breathing and tetanic contractions 
 of the muscles ; but the effects gradually passed away. Six 
 ounces of medicinal acid given to WombweU's old elephant, 
 Mlled at Birmingham in 1855, caused only slightly laboured 
 breathing. In experiments made by direction of the Messrs. 
 Young, of Leith, two ounces were found to cause the rapid 
 death of Greenland whales when discharged hj an ingenious 
 device into the wound made by the harpoon. Direct applica- 
 tion of the acid to the medidla of an alligator caused a long 
 deep expiration and collapse of the lungs (Jones and Bartholow). 
 The poisonous effects are observed in aU animals, and by what- 
 ever channel it enters the body — whether introduced into the 
 stomach, injected into a vein, placed in the areolar tissues, or 
 in a wound, or taken up from a serous or mucous surface. It 
 is absorbed and diffused with great rapidity in whatever condi- 
 tion it is administered, but is especially active in. the state of 
 vapour. Air saturated with it killed one dog in ten seconds, 
 another in five, and a cat in two seconds. In combination 
 with bases, it manifests the same tremendous energy, the cyan- 
 ides being very poisonous ; but the ferrocyanides are harmless. 
 As with many other medicines, the mode in which it establishes 
 its effects is unknown. It may act directly on the nerve cells, 
 arresting generation of force, or less directly by checking oxy- 
 genation. The -blood certainly rapidly becomes black and 
 deficient in oxygen, but whether this precedes or follows,^ 
 whether it is the cause or effect of the violent disturbance of 
 health, still remains conjectural. 
 
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472 PRUSSIC ACID ; ANTIDOTES. 
 
 The post-mortem appearances vary with the dose and c( 
 centration of the poison. When death occurs mthin two 
 three miautes the heart contains black blood, its right cavit 
 are gorged. In less acute cases there is, besides, venous C( 
 gestion ; the blood everywhere is fluid, of a blue appearan 
 and evolves the peculiar odour of the acid, which is sometio 
 also perceptible in the contents of the stomach, in the sere 
 cavities, and m most of the secretions. Owing to the volatU 
 of the poison, its odour can seldom, however, be detected whi 
 life has been prolonged for an hour, or the body has li 
 exposed for two or three days. The voluntary muscles a 
 those of the iatestines lose their contractiUty, and beco 
 flaccid ; the villous coat of the intestines is sometimes r 
 shrivelled, and easUy removed ; the nervous centres are usua 
 congested. 
 
 Prussic acid is so rapidly fatal that the animal is of i 
 dead before any remedial measures can be adopted. Ammo 
 counteracts the mortally sedative effects, is given internally, a 
 also inhaled ; care being taken that it be not so strong as 
 irritate the fauces and other parts with which it comes ia ci 
 tact. Inhalation of chlorine gas also acts beneficially. C 
 affasion is sometimes effectual ; should be applied only to 
 head and neck, and continued at short intervals. Artifi( 
 respiration and bleeding from the jugular relieve congestior 
 the lungs, and of the right side of the heart, which are . 
 immediate causes of death. Atropine stimulates the care 
 and respiratory centres, and its hypodermic injection- has th( 
 fore been advised (Preyer) ; but more recent observations thi 
 doubts on the antagonism of atropine and prussic acid (; 
 Practitioner, September 1874). The only reliable chem 
 antidote is solution of potassium carbonate, followed immedial 
 by a mixture in solution of a ferric and ferrous salt, wl 
 convert the acid into the insoluble and inert Prussian b 
 Messrs. T. and H. Smith, of Edinburgh, who proposed this a 
 dote, advise potassium carbonate grs. xx. dissolved in an on 
 of water ; and immediately after this is swallowed, ferrous 
 phate grs. x., and ferric chloride tincture f 3j., dissolved ir 
 ounce of water. These quantities should neutralise nearly 
 grains of prussic acid. 
 
 Medicinal Uses. — As a calmative and antispasmodic : 
 
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A CALMATIVE AND ANTISPASMODIC. 473 
 
 occasionally prescribed in paroxysmal cough, where there is no 
 organic disease. For such cases in horses, twenty minims of 
 acid, with a drachm each of camphor and opium, are made into 
 a ball with licLUorice powder or linseed meal, and repeated 
 twice or thrice a day. In gastrodynia and obstinate vomiting 
 in dogs it is sometimes also given. Mild cases of tetanus, 
 especially in young animals, are sometimes benefited ; but it is 
 of little use in aggravated cases, or in aged animals. Exter- 
 nally it allays the irritation of urticaria and eczema in dogs ; 
 and, for such purposes, two drachms of medicinal acid and 
 twenty grains corrosive sublimate are dissolved in a pint of 
 water. 
 
 Doses, etc. — Of the Pharmacopoeia acid horses and cattle 
 take ii\_xx. to f3i. ; sheep and pigs, TT\_x. to TT^xx. ; dogs, TTLii. to' 
 Tl|_v., given in water sweetened with simple syrup. As its 
 soothing effects are transient, the doses should be repeated 
 three or four times a day'; until perfectly regulated, their effects 
 must be carefully watched. It does not appear to be cumula- 
 tive, so that well-regulated doses may be given with perfect 
 safety for a long time. With a fresh sample of the medicine, 
 to guard against variation in strength, the dose should at first 
 be considerably reduced. To prevent the mistakes apt to arise 
 with a colourless liquid, it is often made up with compound 
 tincture of cardamoms. Used externally, it should be largely 
 diluted with water, and as it undergoes absorption it must be 
 applied with caution, especially when the skin is abraded. 
 
 QUASSIA WOOD. 
 
 Quassise Lignum. The wood of Pioraena excelsa — the Jamaica 
 quassia or bitter wood tree — 'imported from Jamaica. 
 
 Nat. Ord. — Simarubacese. Sex. Syst. — Decandria Monogynia. 
 
 The dense, tough, white quassia wood, the produce of a 
 handsome tree, is imported from Jamaica and other West India 
 islands in billets one to two feet in length, and is met with in 
 the shops in yellow- white chips or raspings. The wood of the 
 Quassia amara from Surinam has similar properties, and is 
 much used in France and Germany. Quassia has no odour, 
 but a purely bitter taste dependent on -j^th per cent of quassin 
 
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474 RHUBARB 
 
 (Ojo Hi2 O3), a neutral crystalline principle, soluble in dilute 
 alcohol apd cUoroform, but scarcely soluble in water or ether. 
 
 Actions and Uses. — Quassia is stomachic, bitter, tonic, and 
 anthelmintic. It nearly resembles gentian, calumba, and cin- 
 chona. It is prescribed for the several domestic animals ia 
 dyspepsia, loss of appetite, and convalescence from debilitating 
 disorders. For removing ascarides the infusion is used both 
 by the mouth and rectum. It acts as a narcotic poison for 
 flies and other insects, and is said also to kill fish (Eoyle's 
 Mat. Med) For the destruction of flties the infusion is placed 
 in shallow vessels about the premises. 
 
 Doses, etc. — -The iafusion prepared by macerating the chips 
 for an hour with cold water is the most convenient preparation, 
 is administered alone or conjoiaed with salines, acids, or iron 
 salts, with which, unlike most vegetable bitters, it mixes with- 
 out decomposition or discoloration. Of the infusion horses 
 and cattle take f §ii. to fgiv. ; sheep and pigs, f3iv. ; dogs, f 3j. 
 Neither the extract nor tincture is used by veterinarians. 
 
 KHUBAEB EOOT. 
 
 Ehei Eadix. The dried root deprived of the bark from one 
 or more undetermined species of Eheum. From China, 
 Chinese Tartary, and Thibet. Imported from Shanghai 
 and Canton, and brought overland by way of Moscow. — 
 Brit. Fhar. 
 
 Nat. Ord. — Polygonacese. Sex. Syst. — Enneandria Monogynia. 
 
 Central Asia is the habitat of the perennial herbaceous 
 plants yielding medicinal rhubarb, of which the finest, coming 
 from Siberia, is recently stated to be produced by the Eheum 
 palmatum, var. tanguticum (Eoyle's Mat. Med.) The root, 
 collected in summer from the mountain ranges of the interior 
 of China, Chinese Tartary, and Thibet, from plants sik years 
 old, is cleaned, peeled, cut into trapezoidal, round, cylindrical, 
 or flat reddish-yeUow pieces, and bored with a hole, through 
 which a cord is run to dry it in the sun. Internally it is 
 marbled with grayish- white .lines. The powder is bright, has a 
 strong peculiar aromatic odour, with a bitter astringent taste, 
 and is gritty when chewed, owing to the presence of crystals 
 
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STOMACHIC, TONIC, AKD CATHARTIC. 475 
 
 of calcium oxalate. The East Indian rhubarb is coarser and 
 less aromatic. English rhubarb, so generally cultivated for its 
 familiar leaf stalks, of which the pleasant acid taste is due to 
 the presence of malic and oxalic acids, is from E. raponticum, 
 is grown extensively for its roots near Banbury, Oxfordshire, and 
 is mixed with or substituted for the Chinese, but is softer and 
 more mucilaginous, has less aroma and grittiness, contains 
 fewer crystals of calcium oxalate, and is deficient probably to 
 the extent of one-third in purgative power. The several 
 varieties are readily dissolved by ether, rectified, and proof 
 spirit ; and less readily by cold and hot water, with the latter 
 of which it forms an orange-coloured solution. Ehubarb con- 
 sists of a bitter extract, probably its chief active constituent, 
 starch, three aromatic resins, the golden yellow, odourless, 
 tasteless, feeble crystaDine, chrysophanic acid, rheotannic and 
 rheumic acids, calcium oxalate, with 13 to 20 per cent of ash. 
 Good qualities are free from decay, not worm-eaten ; boracic 
 acid does not turn the yellow exterior brown — a test showing 
 the absence of turmeric, which, with wheat flour, is often 
 mixed with rhubarb powder. 
 
 Actions and Uses. — Ehubarb is stomachic, tonic, astringent, 
 and cathartic. Small and repeated doses improve the appetite ; 
 correct slight gastric derangements ; in virtue of their tannin, 
 diminish secretion and peristalsis ; by their colouring matter 
 impart to the faeces a yellow -brown hue, and may be de- 
 . tected in the blood, urine, and occasionally in the milk. Larger 
 doses, as in human, patients, act, in dogs and cats, as mild 
 cathartics, stimulate the secretions and movements, especially 
 of the stomach and small intestines, and increase secretion of 
 bile (Professor Eutherford and Vignal). In horses and cattle 
 it has, however, scarcely any purgative effect; a pound has 
 been given to cattle without moving the bowels ; whilst half a 
 pound to a pound caused in the horse only slight laxative 
 effects after thirty-six hours (Moiroud). On the skin or mucous 
 surfaces it acts as a mild astringent. 
 
 Doses, etc. — As a stomachic and tonic, repeated several 
 times a day, horses have gi. ; cattle, gij. ; sheep, 3i- ; dogs and 
 cats, grs. X. to grs. xxx. As a laxative, dogs take 3i. to 3uj., 
 usually combined -with one or two grains of calomel, or with 
 twenty grains of jalap. Ehubarb is used in the form of simple 
 
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476 SALICYLIC ACID 
 
 powder, occasionally as an infusion or tincture. The com- 
 pound powder, or Gregory's mixture, prepared by mixing 
 thoroughly a pound of magnesia, two ounces of ginger, and 
 four ounces of rhubarb — all in fine powder — is an excellent 
 stomachic and antacid, given in doses twice as large as those of 
 the simple rhubarb. In chronic diarrhoea and dysentery in 
 calves and foals it has the advantage of clearing the canal of 
 indigestible matters, and subsequently exerting wholesome 
 astringent effects. For such corrective purposes two drachms 
 each of rhubarb and magnesia, with half a drachm of opium, 
 are also given several times a day in flour gruel, with a table- 
 spoonful or two of brandy or sweet spirit of nitre. One-third ' 
 or one-half this quantity answers for diarrhoea amongst lambs. 
 
 SALICYLIC ACID. 
 
 This valuable antiseptic can be procured by fusing potassium 
 hydrate with salicin — the crystalline bitter principle extracted 
 from willow bark ; but is more commonly obtained by passing 
 dry carbordc anhydride through dry sodium phenol at a temper- 
 ature over 212°. The resulting sodium salicylate is dissolved 
 in water, decomposed by hydrochloric acid, and purified by sub- 
 sequent washing and recrystallisation. It occurs as a soft, 
 light, white powder of minute acicular crystals, odourless, with 
 a sweet, dry, somewhat acrid taste, soluble in 400 parts of 
 water at 60°; very soluble in hot water, alcohol, and ether ; 
 its solubility being increased by admixture with borax or so- 
 dium phosphate. Its formula is H C^ Hj Og. 
 
 Actions and Uses. — Salicylic acid is a powerful antiseptic, 
 is used in surgery in the same class of cases as boracic, ben- 
 zoic, and carbolic acids, and is given internally as a febrifuge, 
 notably reducing animal temperature, and acting almost as a 
 specific in rheumatic fever. 
 
 Like its analogues, carbolic and phenic acids, it arrests fer- 
 mentation and putrefaction. A watery solution containing one 
 per cent of the acid, dissolved with the aid of a little borax, 
 preserved effectually blood, pus, and urine. Such strong solutions 
 dry or shrivel mucous surfaces, but, how freely soever used, 
 exert no irritant effect. Being, Kke boracic acid, devoid of irri- 
 tant and poisonous actions, and moreover without odour and 
 
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ANTISEPTIC AND FEBRIFUGE. 477 
 
 almost without taste, it is preferable to carbolic acid as an in- 
 ternal antiseptic. Its mode of operation when swallowed has 
 not yet been fully studied. It resembles c[uinine in its actions; 
 in its medicinal effects it is identical with, but more active than, 
 salLcin ; it is more than twice as powerful as sodium salicylate, 
 into which salt it is probably converted in the body. It is 
 excreted in the sweat, saliva, and after twenty to thirty hours in 
 still larger amount in the urine, to which it imparts an olive- 
 green hue. Doses of 15 to 20 grains given to men, or one to 
 two drachms to horses, suffering from acute fever, and repeated 
 every hour until six or eight doses are taken, lower the 
 force and frequency of the pulse, reduce temperature one or 
 two degrees, and provoke diaphoresis. It has none of the 
 deliriant or narcotic effects which belong to carbolic acid ; 
 although repeated doses relax the bowels, it has no direct 
 irritant action. Salicylic acid or sodium salicylate is now gen- 
 erally accepted as the most rapidly acting and effectual remedy 
 in rheumatic fever in man ; it lowers temperature, abates pain, 
 and cuts short attacks in twenty-four to forty-eight hours. In 
 typhus and typhoid fevers in man it reduces the pulse ten to 
 fifteen beats, produces a proportional lowering in the number 
 of the respirations, lowers the temperature two or three degrees, 
 and further exerts a beneficial effect on the mucous membrane, 
 arresting foul defecations {London Medical Record, May 15, 
 1876). In veterinary practice it deserves careful trial in 
 rheumatic and typhoid fevers, in strangles and purpura in 
 horses, and in metro-peritonitis in cows and ewes. Mr. DoUar 
 of New Bond Street, and Mr. I. Print, without any curative 
 results, have however given' drachm doses twice a day to horses 
 affected by farcy and nasal gleet. 
 
 In all descriptions of wounds, and in all animals, it arrests 
 suppuration, putrefaction, and foetor, lessens pain, and hastens 
 healing. It is especially applicable in serious wounds that 
 through their sloughing stages have been treated with carbolic 
 dressings, and in which both granulation and epithelium growth 
 require to be encouraged simultaneously. This important two- 
 fold service is usually better done by salicylic than by carbolic 
 acid. It abates the itching, discharge, and smell of eczema in 
 horses' heels. 
 
 Doses, etc. — Horses and cattle take 3i. to 3ii., sheep and 
 
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478 SAVIN 
 
 dogs grs. X. to grs. xv., every hour or two hours, mixed wit] 
 about an equal weight of sugar, mucilage, or glycerin. Sodium 
 salicylate may be used in double the dose of the acid. For 
 surgical- purposes a convenient solution of medium strength is 
 made with eight grains each of salicylic acid and borax to the 
 ounce of water. An ointment is made with one part of acid 
 mixed in a heated mortar with six or eight of benzoated lard. 
 This may be got in the handy state of a paste by addition of 
 one part of parafiBn. Lint, cotton-wool, or jute, soaked in a 
 strong, hot, watery solution, made as above with borax to 
 ensure solubility, absorbs the acid, and may be used as an anti- 
 septic protective in the same manner as the carbolic or boracic 
 lint. Iron salicylate is both antiseptic and astringent, and has 
 been used as a styptic. 
 
 SAVIK. 
 
 Sabina. Fresh and dried tops of Juniperus Sabina, collected 
 in spring from plants cultivated in Britain. — Brit. Pha/r. 
 
 Nat. Ord. — Ooniferse. Sex. Syst. — Dioecia Monadelpliisu 
 
 The Juniperus Sabina is a shrubby evergreen plant, com- 
 mon throughout Middle and Southern Europe, and cultivated 
 in this country. The tops or young branches, with their at- 
 tached leaves, when fresh are green, but become yellow when 
 kept ; have a strong, heavy, disagreeable odour, and a bitter, 
 acrid, resinous taste. They communicate their properties to 
 water, spirit, and the fixed oils, and owe their activity to about 
 three per cent of a colourless or pale yellow volatile oil, pre- 
 pared from the fresh tops by distillation, and isomeric with oil 
 of turpentine (Cio Hig). The brown empyreumatic oil of cade, 
 employed on the Continent as an insecticide, is obtained from 
 the dry distillation of the brown-berried juniper — the Juniperus 
 Oxycedrus. 
 
 Actions and Uses. — Savin applied externally is rubefacient 
 and vesicant; moderate doses are stimulant and diuretic, 
 especially stimulate the urino-genital organs, are allied to the 
 turpentines, and in large doses produce gastro-enteritis. Horses, 
 however, take considerable quantities with impunity. Hertwig 
 has given half a pound twice daily for six or eight days, with- 
 
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IRRITANT, ANTHELMINTIC, AND DIURETIC. 479 
 
 out effect ; whilst Professor Sick continued it with little effect 
 for half a year. But these observations prohably underrate its 
 activity. Mr. Eose records the poisoning of fiv§ horses, of 
 which one died . immediately, and two after five days ; the 
 other two recovered, after suffering much from diarrhoea, intense 
 thirst, quickened pulse and breathing, with great prostration 
 (Veterinary JRecord for 1850). In carnivora it is still more 
 irritant, rour drachms, according to Orfila, destroyed a dog in 
 thirteen hours, when the gullet was tied to prevent vomiting ; 
 and similar effects foUow when powdered savin is applied to a 
 wound or introduced underneath the skin. The stomach is 
 found reddened, and the rectum inflamed. Large doses like- 
 wise irritate the kidneys and bladder, often causing copious 
 .discharge of bloody urine. The irritation also extends to the 
 uterus, and savin on this account is occasionally ignorantly used 
 to produce abortion or hasten parturition. Two cases of abor- 
 tion in mares heavy in foal are recorded by Mr. Mellet of 
 Henley-on-Thames, in the Veterinarian for 1855. In these 
 cases, the continued use of the savin destroyed both .foals, and, 
 being still persevered with, caused their expulsion apparently 
 ten or twelve days later. No judicious practitioner will, how- 
 ever, use savin to produce abortion ; for this result is only 
 attained when poisonous doses are given sufficient to produce 
 violent intestinal irritation. It is occasionally used chopped 
 up with the food for the destruction of intestiagl worms, but is 
 neither so safe nor so certaia as oil of turpentine. If used at 
 all, the best form is the essential oil. Both the tops and oil 
 are occasionally applied as stimulants for indolent sores and 
 warts, and for keepiag up the discharge from blisters and setons. 
 Doses, etc. — As an anthelmintic, cattle or horses take about 
 f3iij. or f3iv. ; dogs, iTLiij. to tt\_v., dissolved in any fixed oil. 
 For external application, an infusion is made with one part of 
 the fresh tops to six or eight of water and two of spirit. The 
 ointment, light green and smeUing of savin, is thus prepared : 
 — ^Melt sixteen ounces prepared lard and three ounces yeUow 
 wax together on a water bath, add eight ounces fresh savin 
 tops, and digest for twenty minutes ; then reiiiove the misture, 
 and strain through calico (Brit. Fliar.) A mixture of equal 
 parts of savin and of verdigris ointments is occasionally used 
 as a stimulant dressing for foot-rot, and other indolent sores. 
 
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480 SILVER NITRATE 
 
 SILVEE AND ITS MEDICIJSTAL COMPOUNDS. 
 
 SiLVEE Nitrate. Argenti Mtras. Lunar Caustic. Lapis 
 Infemalis. (Ag NO3.) 
 
 Wlien metallic silver is heated with diluted nitric acid, 
 nitric oxide gas is evolved, and when the solution is evapo- 
 rated, silver nitrate crystallises in colourless right rhombic 
 prisms. To form the familiar sticks or pencils, the salt is 
 fused and run iato moulds. It is devoid of odour, has a dis- 
 agreeable, caustic, metallic taste, remains permanent in 'the 
 air, but blackens on exposure to light or in contact with organic 
 matters. It is soluble in its own weight of temperate water, 
 and in four parts of boiling rectified spirit. It blackens the 
 cuticle, and corrodes the soft animal tissues. Like other silver 
 salts, it is distinguished by giving, with hydrochloric acid, a 
 white precipitate of chloride (Ag CI), insoluble in nitric acid, 
 but soluble in ammonia. Hydrogen sulphide and ammonium 
 hydro-sulphide yield black precipitates of sulphide (Agg S), in- 
 soluble in alkalies. Potash and soda solutions throw down the 
 brown oxide (Agj 0). 
 
 Actions and Uses. — Salts of silver closely resemble those of 
 copper and zinc. Large doses are corrosive and irritant ; and 
 produce convulsions and paralysis with death from respiratory 
 arrest. Medicinal doses are tonic, stimulant, and astringent. . 
 Applied externally .it is caustic, stimulant, and astringent. 
 Kosenstirn, experimenting on the vessels of the mesentery of 
 frogs witb weak solutions, found that silver nitrate was incom- 
 parably the most powerful astringent; lead acetate followed 
 next in order, requiring a solution five times as strong ; ferric- 
 chloride acted only feebly ; alum caused dilatation (The Practi- 
 tioner, September 1876). Silver nitrate, given to dogs in doses 
 of thirty to sixty grains, acts as a topical irritant, causing fatal 
 gastro-enteritis. ' It is most powerful when in concentrated 
 solution. Medicinal doses are absorbed as albuminates and 
 peptonates, and, when given for some time, the metal is dis- 
 covered in the Uver and spleen, and also in the structure of the 
 skin, where it produces a black stain ; it is chiefly eliminated 
 by the intestines and liver. As a tonic for the dog, it is pre- 
 
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TONIC, ASTRINGENT, AND CAUSTIC, 481 
 
 scribed in chorea, epilepsy, and other nervous diseases. Half 
 a grain is given several times daily ia chronic diarrhoea, dysen- 
 tery, and cholera in dogs ; whilst enemeta of ten to twenty 
 grains to the ounce of distilled water, or of starch gruel, are 
 sometimes also useful. 
 
 Its external applications are numerous and important. 
 Applied to irritable, relaxed, abraded skin or mucous surfaces, 
 it constringes dilated vessels, coagulates mucus and albumip, 
 produces a white film of chloride, which gradually deepens in 
 colour owing to the reduction of the silver salt to the metallic 
 state. The solid nitrate or strong solution rubbed into the skin 
 raises blisters. The eschar remaining, after a liberal dressing, 
 gradually cracks and peels off, leaving usually a healthy surface 
 beneath. The soUd nitrate, being readily localised in its effects, 
 is for many purposes preferable to fluid caustics, or to the deli- 
 quescent caustic potash. It is used to remove fungous growths, 
 warts, and angleberries ; to improve indolent sores ; to heal 
 callous ulcers. A crystal rolled in a piece of tissue paper is 
 sometimes substituted for corrosive sublimate in fistulas, and a 
 few days after its introduction causes sloughing of the hard 
 walls of the canal, and leaves a healthy granulating surface. 
 It is one of the best dressings for obstinately sore teats in cows. 
 Mr. Eobert Littler, of Long Clawson, regards it as one of the 
 most effectual remedies for the interdigital inflammation and 
 discharge which constitute one of the familiar forms of foot-rot 
 in sheep. A solution, containing two to five grains to an ounce 
 of water, abates the pain and congestion of conjunctivitis, and 
 stimulates and heals the inflamed suppurating eyelids of weakly 
 dogs. It removes specks and opacity of the cornea, if of recent 
 origin and produced by accidents, but is of little avail in the 
 cloudiness of the cornea resulting in horses from repeated 
 attacks of periodic ophthalmia. A strong solution of 20 grains 
 to the ounce of water, or of ether, is sometimes applied to arrest 
 inflammation in the early stages of boils, circumscribed erysip- 
 elas, and synovitis. A weak solution relieves the pain and 
 hastens the healing of scalds and burns, and is applied either 
 immediately after the accident, or so long as pain and undue 
 discharge continue. A solution of ten to fifteen grains to the 
 ounce, conveniently blown from a spray-producer, is sometimes 
 useful in controlling congestion and irritation of the fauces and 
 
 2l 
 
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482 SOAP 
 
 throat. Such solutions destroy the parasites of mange, scah, 
 and ringworm, and, as a clyster, have sometimes been used to 
 bring away ascarides from the rectum of horses and dogs. It 
 is occasionally employed as a hair-dye, uniting with the sulphur 
 of the hair to form the black sulphide. Where too freely used, 
 whether internally or externally, injurious consequences, are best 
 controlled by solution of common salt, which forms the insol- 
 uble and inert chloride. 
 
 Doses, etc. — Horses and cattle, grs. v. to grs. x. ; sheep, grs. ij. 
 to grs. iv. ; pigs, gr. ss. to gr. j. ; dogs, gr. -J- to gr. ss. It is re- 
 peated three or four times a day, and on accoxmt of disagreeable 
 taste, is given in bolus, made with meal, bread crumb, or other 
 convenient excipient. For external purposes the little sticks 
 are used, sometimes coated with wax to preserve them from the 
 decomposing action of air and light, and held in quHls or for- 
 ceps to prevent their blackening the fingers. An ointment is 
 occasionally made with grs. v. to grs. viij. to the ounce of lard. 
 The solutions, protected from light and kept in bottles with 
 glass stoppers, vary in strength with the uses to which they are 
 applied. 
 
 SOAPS. 
 
 Potassium or Soft Soap. Sapo mollis. 
 Sodium or Hard Soap. Sapo durus. 
 
 OUs and fats consist of fatty acids — the oleic (HCig Ngg 0^, 
 palmitic (HCig Hj^ Oj), and stearic (HCu H35 Og), united with 
 glycerin (Cg Hg O3) (p. 319). These fats, when boiled with solu- 
 tions of potash, soda, or ammonia, are decomposed. The alkali 
 displacing the glycerin- unites with the fatty acids forming' 
 soaps, which chemically are oleates, palmitates, and stearates of 
 the alkalies. The process is similar to that occurring in the 
 making of lead plaster (p. 364), in which lead oxide takes the 
 place of the alkali. Soft soap is usually made by boiling crude 
 potashes with seal or whale oil, excess of water being got rid 
 of by evaporation. Hard soap is prepared by boiling carbonate 
 or caustic soda with taHow, palm oil, cocoa-nut oil, or other 
 fatty matters. The commoner sorts are run at once into moulds. 
 To get the better qualities, the boihng gelatinous solution is 
 treated with common salt, when the soap, in flakes, separates^! 
 
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DETERGENT, LUBRICANT, AND STIMULANT. 483 
 
 from the alkaline impurities, and glycerin floats to the top, is 
 ladled off, and transferred to moulds. Hard soap is a mixture 
 of sodium stearate with about one-third of oleate, and 20 to 30 
 per cent of water. Yellow soap, whilst heing concentrated, is 
 treated with considerable quantities of resin. Many soaps are 
 now made with a large percentage of sUicates. Mottled and 
 marbled soaps owe their colour to the presence of a little iron. 
 Castile soap is made from olive oil. Glycerin soap is got by 
 heating the soap ley with water for two or three hours at 400°. 
 The mass run into moulds contains a mixture of soap and 
 glycerin. The Pharmacopoeia soaps are directed to be made 
 with olive oil, which is, however, much too expensive for 
 ordinary soap making. Soaps have an alkaline acrid taste, 
 dissolve readily in water and spirit, but ought not to impart an 
 oUy stain to paper. When heated they fuse, swell up, and 
 leave charcoal and carbonate of their, alkalies. Lime and 
 magnesia in solution, as in hard water, displace the alkali and 
 combine with the fatty acids, forming insoluble flakes. This 
 property has led to the use of soap as a test for the hardness 
 of water. 
 
 , Actions and Uses. — Soaps are mildly laxative, diuretic, 
 emetic, and antacid ; are used externally as stimulants, deter- 
 gents, and lubricants ; and in pharmacy as excipients. They 
 form convenient adjuncts to more active laxatives or diuretics, 
 and an excellent addition to laxative clysters. As antacids 
 they are less effectual than the alkaline carbonates or bicar- 
 bonates, but are occasionally used in poisoniag by acids and 
 metallic salts. As a stimulant for bruises and strains, to warm 
 horses' chilled legs, and produce counter-irritation in cold and 
 sore throat, six ounces of hard soap, cut into small pieces, are 
 macerated with six fluid ounces of dilute liquor ammoniae and 
 one pint each of proof spirit and linseed oil. To this are some- 
 times added two or three ounces of camphor. In grease, mange, 
 scab, and other skin diseases, the diligent use of soap and water 
 is very effectual, both for cure and prevention. Dr. M'CaU 
 Anderson's prescription -of equal parts of soft soap, oil of cade, 
 and rectified spirit, is useful for eczema and other itching skin 
 disorders. Gently rubbed over slight burns or scalds, soap 
 prevents access of air, and greatly relieves irritation. They 
 are much used for making boluses, liniments, and ointments. 
 
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484 SODIUM CARBONATES 
 
 SODIUM AND ITS MEDICIKAL COMPOUNDS. 
 
 Sodium Caebonatb. Sodae Carbonas. Carbonate of Soda. 
 
 Naa COg^ IOH2 0. 
 Sodium Bicaebonate. Sodae Bicarbonas. Bicarbonate of 
 
 Soda. NaH CO3. 
 
 Sodium hydrate or caustic soda (Na. HO) and solution of 
 soda resemble in their preparation and general properties the 
 corresponding potassium compounds, but are little used in 
 veterinary practice. 
 
 The carbonate was formerly prepared by lixiviating the 
 ashes of marine or maritime plants, and from the native sesqui- 
 carbonate or natron found as an efHorescence on the margins of 
 lakes ia warm chmates. To the extent of about 200,000 tons 
 annually, it is now obtained from common salt by heating it in 
 furnaces with sulphuric acid ; the sulphate thus obtained is 
 converted into sulphide, and thence into carbonate, by roasting 
 with coal or slack and limestone; lixiviating, calcining, and 
 crystallising. From a saturated solution of this soda ash there 
 separate large transparent rhombic crystals of hydrated carbon- 
 ate, used for washing purposes. The water may be driven off 
 by heat, when the dried Pharmacopoeia sodium carbonate remains. 
 The carbonate in any of its forms is alkaline, efflorescent, and 
 soluble in water. Sodium salts are soluble, with the single 
 exception of the antimoniate, which goes down very slowly 
 from solution. They are distinguished by their negative re- 
 action with the several group tests, and by their communicating 
 to the flame of burning alcohol a bright yellow colour. 
 
 The bicarbonate,, produced when the carbonate is exposed 
 to carbonic acid, is a white crystalline powder, or aggregation 
 of irregular opaque scales, has a saline, slightly alkaliae taste, 
 is soluble in about ten parts of cold water, and is distinguished 
 from the, carbonate by its feeble alkalinity, and its giving a 
 colourless instead of a coloured precipitate with corrosive sub- 
 limate. Soda water, as ordinarily sold, is simply aerated water; 
 but the officinal article contains in every pint 30 grains of 
 bicarbonate, and is saturated with carbonic acid gas, dissolved 
 under pressure of seven atmospheres. 
 
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ANTACIDS AND ALTERATIVES. 485 
 
 Actions and Uses. — ^Sodium carbonate and bicarbonate are 
 antacids and alteratives. They are constituents of the blood, 
 bile, and serous fluids, and, used medicinally, they restore any 
 deficiency of soda salts. During their absorption, their con- 
 tinuance ia the body, and their eLLmiriation, they exert antacid 
 properties, or, in other words, combine with lactic, uric, and 
 other organic acids. They are also antidotes for poisoning by 
 mineral and other acids. They favour endosmosis, and thus 
 promote interchange, oxidation, reconstruction, and excretion. 
 Beneficial effects thus result from their moderate use in febrile 
 attacks, rheumatism, and irritation of the kidneys. Injurious 
 and wasteful effects ensue from their continued abuse (Dr. 
 Johii Harley). Small doses increase the secretion of gastric 
 juice, and assist the emulsion and digestion of fats. Young 
 calves too exclusively fed on skim milk, and suffering from 
 indigestion with constipation, are often relieved by dissolviag 
 three or four drachms of bicarbonate in each meal of milk. 
 Weak solutions are used, especially by Continental veterina- 
 rians, as soothing lotions for the irritable weeping stages of 
 eczema, and as injections in leucorrhcea. The carbonate and 
 bicarbonate differ only ia the degree of their action, closely re- 
 semble the corresponding potassium salts, are less penetrating 
 and irritant, but, containing a higher percentage of alkali, have 
 a greater neutralising power. 
 
 Doses, etc. — Of the carbonate horses and cattle take 3ij. to 
 3vj. ; sheep and pigs, grs. xx. to grs. ■ Ix. ; dogs, grs. x. to grs. 
 XX. The bicarbonate, although about half the activity of the 
 carbonate, is more convenient for general use, and is given in 
 double these doses. Both salts are used in bolus and solution. 
 
 SoDitTM Borate. Sodee Biborate. Borax. NagB^Oj, lOHgO. 
 
 Borate of soda occurs native in certaia Austrian mineral 
 waters, and as an iacrustation on the edges of various lakes in 
 Thibet and Persia. As crude borax or tincal, it is imported 
 from Calcutta in greenish pieces covered with a greasy deposit, 
 to prevent efiELorescence. It is purified by calcining and recrys- 
 taUisiag. Borax is also readily got by boiling together boracic 
 acid and sodium carbonate. Its colourless, oblique, six-sided 
 prisms speedily effloresce and become opaque, have a saline 
 
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486 SODIUM SULPHATE 
 
 cooling taste, are soluble in twelve parts of cold, and two of hot, 
 water, and are still more sohible in glycerin, which is hence a 
 capital vehicle for applying it. Heated, it melts in its water of 
 crystallisation, and swells into the porous borax usta ; at a red 
 heat it becomes the transparent glass of anhydrous borax 
 (Naj B4 O7), much used as a flux. A hot saturated solution, treated 
 with a mineral acid, deposits the crystalline scales of boracic acid. 
 Actions and Uses. — Borax resembles the carbonate and 
 bicarbonate, is feebly irritant and antacid, and is excreted by 
 the kidneys unchanged. It is used externally as a stimulant, 
 detergent, and destroyer of fungi. The powder or strong solu- 
 tion is a useful dressing for the small, round, superficial ulcers 
 of aphtha, occurring especially in calves and lambs, for abating 
 the irritation of skin abrasions, and allaying the itching of 
 eczematous eruptions, especially in dogs, when it is best alter- 
 nated with zinc oxide. In America it is prized for the destruc- 
 tion of cockroaches. 
 
 Sodium Sulphate. Sodse Sulphas. Sulphate of Soda. 
 Glauber's Salt. Fa^ SO4, lOH^ 0. 
 
 The sulphate effloresces on the surface of the soil in various 
 parts of India; occurs in masses in Spain, and is a constituent 
 of sea water, of many aperient mineral waters, of various plants, 
 and of several animal secretions. It is a by-product in the 
 preparation of chlorinated lime and of sodium carbonate, but is 
 usually got when hydrochloric acid is made from sulphuric acid 
 and common salt by adding sodium carbonate to the acid sodium 
 carbonate (E"a H SO4) left in the retorts. It occurs in large 
 rhombic or in needle-like crystals, is colourless, transparent, 
 efflorescent, of a saline, bitter taste, and soluble in three parts 
 of water at 60°. 
 
 Actions and Uses.- — -It is cathartic, diuretic, alterative, and 
 febrifuge. It not only purges away bile lodged in the intes- 
 tines, as do saline and resinous cathartics, but is found by Pro- 
 fessor Eutherford directly to increase the secretion of bile, and 
 is therefore a true cholagogue — a property not possessed by the 
 allied magnesian sulphate. It has a solvent action on fibrin; 
 large doses are excreted, mostly unchanged, with increased 
 secretion, chiefly by the intestinal mucous membrane ; smaller 
 
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CATHARTIC, DIURETIC, ANB CHOLAGOGUE. 487 
 
 doses, also in great parfc unchanged, are given off by the kid- 
 ,neys. Like other saline purgatives, it acts irregularly on 
 horses. Among cattle it is said to be less effectual than Epsom 
 or common salt, and more apt to act on the kidneys. In the 
 dog it acts both as an emetic and purgative. It is applicable 
 to the several purposes of a saLuie cathartic, and is stUl occa- 
 sionally given to cattle. 
 
 Boses, etc. — As a purgative, cattle take lb. j. to lb. iss; sheep, 
 gij. to giv. ; given with ginger and treacle, and succeeded by 
 Hberal supplies of chilled water. 
 
 Sodium Sulphite* Neutral or Normal Sulphite. 
 Na^ SO3, 10 H2O. 
 
 Sodium Hyposulphite. Hyposulphite of Soda. 
 Na^ Ha S^ 0„ 4 H2O. 
 
 The sulphite is manufactured chiefly for the dyer. ' By 
 passing sulphurous acid gas through a concentrated solution of 
 sodium carbonate, four-sided crystals of sulphite are deposited, 
 acid in taste and reaction, and with an odour of sulphurous 
 acid. When this acid salt is saturated with sodium carbonate, 
 the normal or neutral sulphite is obtained. This salt, gently 
 heated with sulphur, yields sodium hyposulphite, which is 
 largely used in photography and in paper-making as an anti- 
 chlore. Exposed to the air, the sulphites absorb oxygen, and 
 are converted into sulphates ; the hyposulphites are more per- 
 manent ; but all are decomposed by mineral acids, yielding the 
 active sulphurous acid. 
 
 Actions and Uses. — The sodium sulphites and hyposulphite 
 are antiseptics, deodorisers, alteratives, and insecticides. In the 
 presence of acids, and in the stomach, they give off sulphurous 
 acid, which they therefore resemble. They arrest fermentation, 
 destroy septic germs, and remove offensive smells — properties 
 greatly increased when they are used along with carbolic oi- 
 cresylic acids. When standing long in contact with water, 
 the sulphite has the disadvantage of decomposing, and gives off 
 hydrogen sulphide. 
 
 The sulphites and hyposulphites, when swallowed, are ab- 
 sorbed, often remove noisome smeU and acridity from unhealthy 
 secretions, and are excreted mostly as sulphates. Being less 
 
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488 SODIUM SULPHITES AND HYPOSULPHITES 
 
 irritant than carbolic acid, they may' be administered more - 
 freely without risk of poisoniag. Professor Polli, of Milan, ;;; 
 made upwards of three hundred experiments with acid sulphite, 
 mostly upon dogs, and found that it neutralised, or at any rate 
 materially diminished, the effects of animal poisons. He gave 
 dogs 225 grains daily with impunity for a fortnight, and so 
 thoroughly did it permeate the system, that even moderate 
 doses were found in twenty-four hours in the blood, liver, and 
 urine. Two ounces of blood drawn from dogs, which for five 
 days had received daily with their food 3 grains of the sul- 
 phite, kept fresh for three weeks ; whilst blood taken from dogs 
 similarly fed, but receiving no sulphite, became putrid within 
 a few days. Full doses, given previous to death, retarded or 
 prevented putrefaction of the body. Into the thighs of two 
 dogs Professor Polli injected 15 grains of foetid pus from an 
 unhealthy abscess, and next day repeated this injection. Both 
 dogs were stupefied, reeled, and tottered when made to walk, 
 whilst their pulse and breathing were much quickened. For 
 five days previously both dogs had been treated exactly alike, 
 with this difference only, that one had received daily 30 grains 
 of sodium sulphite, which was continued throughout the experi- 
 ment. In four days after the injection this dog was again eat- 
 ing, and the wound in his thigh healing. The other, however, 
 getting no sulphite, daily became worse, the limb got gangren- 
 ous, and in ten days he died of typhus. Very similar results 
 followed the injection into the femoral vein of bullock's blood 
 kept for four months, and offensively putrid. Dogs that had 
 previously received the sulphite had recovered their appetite and 
 were almost well in three days ; whilst those managed in the 
 same manner, but not receiving the sulphite, died comatose in 
 five days, suffering from typhoid fever, and with the limb gan- 
 grenous. Another experiment, still more striking, was made 
 with the muco-purulent discharge from a glandered horse. 
 Forty-five grains were injected into the femoral veins of two 
 strong healthy dogs, one of which for several days had received 
 two drachms daily of sodium sulphite. Both were drowsy and 
 panted, but the one protected by the previous administration of 
 the sulphite, although at first' seeming to suffer most from the 
 injection, was in a few hours able to eat, and was next day in 
 tolerable health. The other, however, became more drowsyi'"** 
 
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ANTISEPTICS, ALTERATIVES, AND INSECTICIDES. 489 
 
 and stood with difficulty. By the third day, the 'limb was 
 tender and (Edematous ; by the fourth, gangrene set in, and a 
 purulent discharge ran from the nose and eyes ; whilst, during 
 the sixth day, the beast died, worn out by pain, diarrhcea, and 
 foetid suppuration. 
 
 The,se experiments held out great hopes that septic disorders 
 might be antagonised by sulphites. But the high expectations 
 which were formed of them unfortunately have not been cor- 
 roborated by repeated careful clinical observation, and their 
 internal use does not appear toi arrest or materially alter the 
 course of febrile, contagious, or zymotic diseases. Amongst 
 horses they are sometimes given in febrile attacks, purpura, 
 inveterate skin disorders, tedious cases of strangles, rheumatism, 
 and farcy. In some cases of indigestion they counteract flatu- 
 lence. Ounce doses of acid sulphite, given thrice daily, I have 
 found, lower -temperature, and ease breathing in contagious 
 pleuro-pneumonia in cattle* In cattle plague it has been given 
 both by the mouth, and injected into the veins, and although it 
 did not act as a specific, or save life, it abated fever, lowered 
 excessive temperature, and postponed the unfavourable issue 
 {Report on Cattle Plague). Mixed with treacle and placed 
 within the lips, it diminishes irritation, smell, and acrid dis- 
 charge in foot-and-mouth disease. With potassium chlorate it 
 has been given to young cattle to prevent attacks of congestive 
 fever or black leg, and for this object half-ounce or ounce doses 
 are administered with the ordinary food for three or four days 
 consecutively during every fortnight. Twenty grains given 
 twice daily help to keep the bowels regular, arrest the offensive 
 smell of the secretions, and abate the low fever occurring in 
 distemper in dogs. 
 
 Doses, efc.^Horses and cattle have §i. to §ij. ; sheep and 
 pigs, 3ss. to 3i. ; dogs, grs. x. to grs. xxx., given in powder or 
 solution, and repeated several times daily. Having little taste, it 
 mayusuaUy.be taken mixed with the food. It is sometimes 
 conjoined with ginger, gentian, camphor, or anamonium carbonate. 
 
 Sodium Chloride. Chloride of Sodium. Common Salt. 
 
 Muriate of Soda. Na 01. 
 Salt is found in immense strata in Poland, Spain, and other 
 parts of Europe, and in this country in Cheshire and "Worcester- 
 
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490 SODIUM CHLORIDE — COMMON SALT : 
 
 shire. It exists in variable amount in every soil, and hence ia 
 every water, is the largest saline constituent of the ocean, and 
 abounds in the tissues of plants and animals. It is obtained 
 for medicinal and economical purposes by quarrying the solid 
 beds of rock salt, or by evaporating brine springs or sea water. 
 It forms cubical crystals, which vary in size according to 
 the rapidity of their formation. When pure, it occurs "in 
 small, white, crystalline grains, or transparent cubic crystals free 
 from moisture, and has a purely saline taste " (Brit. Phar) 
 From the presence of magnesium and calcium chlorides, many 
 samples are deliquescent. It is soluble in about 2-J parts of 
 water, at aU temperatures. It is rather more than twice as 
 heavy as water. 
 
 Actions and t/ses.— Salt is an essential article of food ; 
 small doses are restorative, stomachic, alterative, and antiseptic; 
 larger doses are irritant, cathartic, and emetic; it- is used exter- 
 nally as a stimulant, antiseptic, and refrigerant. 
 
 So essential is the regular or frequent use of salt for the 
 maintenance of health, that animals in a state of nature instinc- 
 tively travel many miles to saline springs, the sea-shore, or 
 incrustations or beds of salt. M. Boussingault, experimenting 
 regarding the dietetic value of common salt {Annates de Chemie 
 et de Physique, 1847, torn, xix.), selected six cattle, as equal as 
 possible in weight and appearance, and fed them in exactly the 
 same manner, except that three received each 1"2 ounce of salt 
 daily, whilst the other three got none. In about six months, 
 the skin and hair of those without salt became rough, dry, and 
 staring, presenting a striking contrast to the smooth, oily coats 
 of the others, which, although not much superior to their neigh- 
 bours in weight, were more lively, and of so much better appear- 
 ance that they brought a somewhat higher price. The cattle 
 receiving salt exhibited throughout much greater appetite and 
 relish for their food, consumed it in a shorter time, and also 
 drank larger quantities of water. Salt is especially necessary 
 for animals receiving cooked grains, or roots ; for the salt natu- 
 rally present in such prepared food is usually in small amount. 
 During convalescence from acute disease, most animals are 
 especially fond of salt. Besides being itself restorative, it pro- 
 bably favours absorption of nutritive matters. On the absorp- 
 tion of calcium salts it has a marked effect, for when withheld 
 
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RESTORATIVE, CATHARTIC, AND ANTISEPTIC. 491 
 
 from dogs with fractured limbs, repair and union are tardy. 
 Animals should have access to salt at all times ; a piece of rock 
 salt should constantly lie in the horse's manger, the ox's crib, 
 and the sheep's trough. The condiment not only gratifies the 
 taste, but probably also serves other useful purposes. It ap- 
 pears to be the natural stimulant of the digestive system ; to 
 furnish hydrochloric acid for the gastric juice, and soda salts 
 for the bile ; to preserve the fluidity of the blood ; and to assist 
 in nutrition, for it always abounds where active reparative or 
 formative changes are taking place. It is excreted by the 
 mucous membranes and kidneys. 
 
 On horses the cathEtttic action of common salt is uncertain, 
 often violent, and usually accompanied by considerable irrita- 
 tion of the kidneys. On dogs it usually operates as an emetico- 
 cathartic, being used to clear out the stomach and intestines, 
 and to induce that sedative action which accompanies the opera- 
 tion of most emetics. Doses insufficient to act on the stomach 
 or b«wels are determined to the kidneys, increasing secretion 
 of urine and proportion of urea. On pigs it acts as a purgative, 
 but is scarcely so safe or certain as oil, jalap and calomel, or 
 aloes. In the Veterinarian for 1839 and 1862, cases are re- 
 corded of pigs suffering flatulence, diarrhoea, vertigo, convulsions, 
 paralysis, and death in eight to twenty-four hours, from the 
 eating of about four and a half ounces, repeated during several 
 days. ■ The mucous membrane of the stomach and bowels was 
 found after death highly injected and inflamed. Dr. Charles 
 Cameron, Professor of Hygiene, Eoyal College of Surgeons, 
 Dublin, reports the poisoning of thirty-one pigs conveyed by 
 rail in a salt truck, from the sides of which they had licked 
 the salt. Por many hours they had been deprived of water. 
 They appeared in a state of asphyxia ; emetics and subsequently 
 stimulants were ordered, and eleven recovered. The carcases 
 of those that died exhibited " signs of gastro-intestinal inflam- 
 mation, the brain was greatly congested, and there was con- 
 siderable extravasation of blood in the cerebellum and medulla 
 oblongata" {Veterinarian, December 1871). Although very 
 suitable as a cathartic for cattle and sheep, they occasionally 
 suffer from overdoses. I have seen dangerous effects produced 
 by several ounces given to young and dehcate calves, for which 
 on is a much more suitable purge. Mr. Dobson, of Ashby de 
 
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492 SODIUM CHLOEIDE AND NITRATE 
 
 la Zoucli, reports that one-pound doses given in four quarts of 
 water to healthy yearlings in half an hour induced irritation, 
 excitement, staggering, paralysed hind quarters, and death 
 {Veterinarian, April 1865). 
 
 Nitrate of soda, much used as a manure, has irritant and 
 cathartic properties, somewhat resembling those of common salt ; 
 has sometimes injured both horses and cattle that have licked 
 it, or eaten grass strongly saturated by large recently applied 
 doses. (See "Mtre," p. 4 6 1 ; and Veterinarian, September 1876.) 
 
 For vigorous adult cattle and sheep common salt is a very 
 useful purgative, as prompt and powerful as Epsom or Glauber 
 salts, and especially effective when given with Epsom salt. 
 By causing thirst, it induces the animal to drink largely of 
 water or other bland fluids, which, in torpidity of the bowels 
 and constipation among cattle, soften and carry onwards the 
 hard, dry, impacted matters, so apt to accumulate in the first 
 and third stomachs, and resist the action of ordinary purgatives. 
 Among cattle and sheep it is administered to evacuates the 
 bowels in distension of the rumen with food, in fardel-bound, 
 and in diarrhoea depending on over-feeding, or kept up by the 
 presence of irritating matters in the canal. It is given to 
 relieve irritation and iaflammation of the eyes, brain, respiratory 
 organs, or limbs ; and in such cases probably proves serviceable 
 by unloading the stomachs and bowels, freeing the blood of 
 peccant matters, and exciting counter-irritation. It is the best 
 antidote for silver salts. Small and repeated doses are 
 stomachic, and are prescribed with gentian, ginger, or spirits and 
 water, for all animals suffering from indigestion and irregularity 
 of the appetite. Salt regularly given lessens the liability to 
 intestinal worms, and an injection of half an ounce to a pint of 
 water often brings away ascarides from the rectum. It obviates 
 in great measure the evil effects of damp and badly kept fodder, 
 and prevents or retards the progress of Kver-rot in sheep. It 
 is a common addition to laxative clysters. From its action as 
 a stimulant, as well as from the cold it produces during solution, 
 it is of benefit in various diseases of the joints and feet, parti- 
 cularly amongst cattle and sheep. Where a cooling mixture is 
 required, one part each of salt nitre and sal-ammoniac is dis- 
 solved in 30 to 40 parts of water; or one part of salt is mixed 
 with two parts of pounded ice. Such freezing mixtures re- 
 
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PURaATIVES FOR CATTLE AND SHEEP, 493 
 
 quire, however, to be used warily ; for if applied for many 
 minutes at a time, they are apt dangerously to lower vitality. 
 For preventing and arresting putrefaction, salt is cheap and 
 effectual, and stands on the list of antiseptics next after zinc 
 and iron chlorides and carbolic acid. Dr. Angus Smith found 
 that one hundredweight of night soil was preserved for thirty- 
 four days, with scarcely any putrefaction, by two ounces of salt 
 {Cattle Plague Beports). For antiseptic purposes, salt is advan- 
 tageously conjoined with carbolic acid. To disinfect skins and 
 other such animal matters, a pound of salt and two ounces of 
 carbolic acid are used, dissolved in a gallon of water. "Waste 
 chlorides, known as Cooper's salts, are now recommended to 
 preserve the meat seized at the Metropolitan markets as unfit 
 for human food. 
 
 Doses, etc. — As a purgative the adult ox or cow takes lb. | to 
 lb. i. ; sheep, §i. to gui. Instead of using common salt by itself, I 
 prefer as more prompt and effectual for cattle half-doses of 
 comlhon and Epsom salts, dissolving the mixture in about two 
 quarts of tepid water, adding two ounces of powdered ginger, 
 anise, or other aromatics, and a pound of treacle. When the 
 mixture is thus sweetened, some cattle readily drink it, and the 
 trouble of putting it over may thus be saved. In treating 
 gastric derangements and other cattle cases, accompanied with 
 torpidity of the bowels, it is often necessary to hasten and in- 
 crease the effects of salines by the addition of other purgatives ; 
 jand in such cases an effectual combination may be made with 
 half a pound each of common and Epsom salts, two or three 
 drachms of calomel (or twenty powdered croton beans), a 
 pound J of treacle, and two ounces of oil of turpentine — all dis- 
 solved together in three quarts of water. Where such a dose 
 fails to act in twelve or fifteen hours, it may be again repeated, 
 or a pint or two of linseed oil may be substituted for the salts. 
 Frequently reiterated large doses of drastic physic are, however, 
 to be avoided, since they induce nausea and depression, which 
 prevent purgation. When a patient has got two, or at most 
 three, fuU doses of physio without effect, he should have fre- 
 quent clysters, plenty of treacle, and -as much salt and water, 
 or simple water, as he will drink of his own accord, but rarely 
 any more active cathartic medicine. As an alterative and 
 stomachic for horses or cattle, one or two ounces are given. 
 
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494 SODIUM CHLORATA 
 
 usually united -with aromatics, bitters, or vegetable tonics. As 
 an emetic for the dog, the dose varies from one to four drachms 
 dissolved in tepid water. A stiQ more effectual popular emetic 
 for a medium-sized dog consists of a table-spoonful of salt, and 
 half a tea-spoonful of mustard flour, dissolved in three or four 
 ounces of water. A more prompt result is obtained by adding 
 to the salt a grain of zinc or copper sulphate ; whilst more 
 marked sedative effects are gained by the addition of a grain 
 of tartar emetic. 
 
 Sodium Chlokata. Chlorinated Soda. Liquor Soda Chloratee. 
 Hypochlorite of Soda. 
 
 When chlorine is, passed into a solution of sodium carbo- 
 nate, a colourless alkaline bleaching Kquid is produced, recognised 
 by the Pharmacopoeia as liquor sodse chloratse, khown also as 
 Labarraque's disinfecting fluid, and containing sodium chloride, 
 hypochlorate, and bicarbonate. Like the analogous chlorinated 
 lime, the liquor may be evaporated, and chlorinated soda ob- 
 tained as a soft white powder, with a chlorine odour and 
 alkaline astringent taste. 
 
 Actions and Uses. — It is antiseptic, stimulant, and antacid, 
 is also used as a disinfectant and deodoriser, and resembles 
 chlorine and chlorinated lime. Like other hypochlorites, it is 
 decomposed, even by the feeblest acids, with liberation of the 
 unstable hypochlorous acid, which readily parts with its oxygen, , 
 and as a bleaching agent is twice as active as chlorine. Sodium 
 chlorate is absorbed into the blood either unchanged or as 
 hypochlorous acid ; it probably oxidises, as it does out of the 
 body, urea, hippuric acid, and other secondary organic com- 
 pounds ; converts the coUoids which are unable to permeate the 
 walls of the capillaries iato crystalloids, which readily pass 
 through the capillary walls (Dr. John Harley ; Eoyle's Mat. 
 Med., 6th edition). Hence in febrile cases it favours excretion 
 of imperfectly oxidised matters. It is prescribed in typhoid 
 fever, puipura, and erysipelas in horses. Coster found that the 
 solution neutralised the poison of rabies and of syphilis ; but 
 its power of destroying the germs of smallpox, scarlet fever, or 
 typhus is not established. It is an antidote for poisoning by 
 hydrogen sulphide, the hydro-sulphides, and prussic acid. It 
 
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ANTISEPTIC, STIMULANT, AND ANTACID. 495 
 
 is a valuable antiseptic and deodoriser for fou] slougMng wounds 
 and ulcers, for checking excessive noisome discharges from the 
 skin or mucous surfaces, for controlling eczema and prurigo, 
 and for douching with a spray-producer relaxed and irritable 
 sore throats, especially in horses. As an antiseptic, although 
 more expensive, it is for some purposes preferable to chlorinated 
 lime, for by exposure it becomes converted into common salt — 
 itself a very valuable antiseptic, and more permanent and con- 
 venient than the deliquescent, moist calcium chloride, left from 
 the bleaching powder. 
 
 Doses, etc. — Of the Pharmacopoeia solution, containing one 
 part of the chlorinated "feoda dissolved in one of water, horses 
 and cattle take fji. to fgij. ; sheep and pigs, f 3i. to f3ij. ; dogs, 
 X\\xy. to iTl_xxx. dissolved in water. 
 
 SPEEMACETI. 
 
 Spermaceti or cetaceum is nearly allied to the fats and solid 
 oils, and is found in the cells of the large quadrangular head of 
 the sperm whale, which inhabits the Pacific and Indian* Oceans. 
 It is extracted by openings made through the skull, and occa- 
 sionally by boiling the cellular and adipose tissues, which do 
 not, however, yield it so abundantly as the head. Purified by 
 melting, straining,, and solution in weak potash ley, it is a 
 translucent, pearly white, crystalline fat, with the density -940, 
 tasteless, odourless, tough, and difficult to powder, unless pre- 
 viously moistened with a few drops of rectified spirit. It is 
 insoluble in water, sparingly soluble in cold alcohol, readily 
 soluble in hot alcohol and oils, and does not melt under 100°. 
 Along with a little sperm oil, it consists of cetin (Cgj Hg^ O2), 
 which, unlike ordinary fats when saponified, does not yield 
 glycerin; but taking up an atom of water separates into 
 palmitic acid (HCig H31. Og) and the solid crystalline ethal (C15 
 H3, 0). 
 
 Actions and Uses. — It is emollient and demulcent, resembles 
 wax, is rarely given internally, but is used for making oint- 
 ments and plasters. 
 
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496 STARCH — AM YLUM 
 
 STAECH. 
 
 Tlie farina or flour of seeds and soft cellular roots and stems 
 
 (Eoyle). 
 
 Starch is largely present in the cereal grains, in the stems 
 of many plants, and ia most roots. Wheat flour contains 70 
 per cent of starch, which receives the special title of amylum, 
 1 of glutiQ, with sugar, gum, bran, water, and ash ; oatmeal 
 contains 6 6 of starch and about 1 6 of glutin ; barley, 6 8 starch, 
 14 glutin; rice, 70 starch, 8 glutin; potatoes, 20 starch, 2 '8 
 glutia. From any of these sources starch is got by finely 
 dividing the grain or root ; sometimes facilitating the separa- 
 tion of the plant constituents by fermenting; washing the 
 starch granules from fibrous matters, straining, and drying. 
 The white starch, used for medicinal and dietetic purposes, is 
 dried in powder or granules. The blue preferred for the 
 laundry is in blocks, splits, as it dries, into columnar masses, is 
 coloured, by addition of a little iadigo, and also generally con- 
 tains about 1 8 per cent of water. Arrowroot is the starch of the 
 Maranta arundinacea ; sago, the granular starch from the sago 
 palm ; tous-les-mois, the large ovular granules from the rhizomes 
 of several species of Canna ; tapioca or cassava starch, from the 
 expressed juice of the roots of Manihot utilissima. Corn flour 
 or oswego is the flour of Indian corn deprived of glutia by a 
 weak solution of soda. Starch consists of flattened ovate granules, 
 varying in size and appearance with the source from which they 
 are obtained ; the large granules of tous-les-mois being ^^^h of 
 an inch long, the small ones of rice being -j^jtHTth of an inch. It 
 is insoluble in cold water ; has a specific gravity of 1'5, and hence 
 is deposited when mixed with water. With water above 140°. 
 its granules sw;en up and burst, forming the viscid gelatinous 
 mucilage used by the laundress. It is converted first into 
 dextrin or British gum, and thence into grape sugar, by diluted 
 sulphuric acid, by a temperature of 400°, or by diastase and 
 various fermentescible animal matters. Its distinctive test is 
 the blue compound which boiled solutions, allowed to cool, give 
 with iodine. Starch is isomeric with celLulin, and has the for- 
 mula Cg Hjo O5. 
 
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NUTRITIVE, DEMULCENT, AND EMOLLIENT. 497 
 
 Anions and Uses. — Starch is easily digested and nutritive, 
 especially when given conjoined -with albuminoids. Like other 
 such proximate principles, pure starch alone is inadequate to 
 support Ufe for any lengthened period. As a demulcent and 
 emollient, starch mucilage protects and softens irritable surfaces. 
 In diarrhoea and dysentery it is used about the consistence of • 
 cream, at the temperature of 100°, either alone or with laud- 
 anum, sugar of lead, or other astringents, and is given both by 
 the mouth and rectum. It is an antidote for excessive doses 
 of iodine. Dry starch is occasionally dusted over wounds and 
 open joints to absorb discharges. Mixed with equal parts of 
 zinc oxide it relieves the irritation of eczema. Heated with 
 about eight parts of glycerin until it forms a translucent jelly, 
 it is applied with three or four parts of water. Starch is 
 used for mixing and subdividing medicines, and as a vehicle for 
 their administration. 
 
 STAVESACEE SEEDS. 
 
 Staphisagrise Semina. The ripe seeds of Delphiaium Staphi- 
 sagria, imported from Germany and the south of France 
 (Eoyle). 
 
 Nat. Ord. — Eanunculacese, Sex. Syst. — Polyandria Trigynia. 
 
 Stavesacre or larkspur is a stout biennial herb, two to four 
 feet high, growing throughout the south of Europe. Its offi- 
 cinal seeds are brown, wrinkled, irregularly triangular, about 
 i inch long and scarcely so wide ; contain a white oily kernel ; 
 are bitter, acrid, and nauseous, and have a disagreeable smell. 
 The kernel contains one-fourth of its weight of a fixed oU. In 
 the shelly covering are two acrid, colourless, crystaUisable alka- 
 loids, dephinine (C24 H35 N Oj) and staphisaine (Cje Hjg N Oj). 
 
 Actions and Uses. — Stavesacre seeds and their alkaloids 
 are irritant poisons and insecticides. The seeds were formerly 
 prescribed as a vermifuge. Their only veterinary use is for the 
 destruction of lice, whence they have been called louse seeds. 
 They are effectually applied in infusion made by boiling an 
 ounce of seeds in a quart of water. The seeds boiled in vinegar 
 yield a solution which not only kills pediculi, but when rubbed 
 
 2 K 
 
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498 CANE AND GEitPE SUGARS. 
 
 into the skin also destroys their eggs. Strong solutions, too 
 freely applied, sometimes nauseate and prostrate delicate sub- 
 jects. Occasionally they are conjoined with sulphur and tar. ' 
 
 SUGAE. 
 
 Sugar is present in many plants; is prepared in France 
 from heetroot, and in America from the sugar-maple. But 
 that used in this country is chiefly got from the sugar-cane, 
 which is extensively cultivated in the West Indies, has a per- 
 ennial root, a jointed annual stem six to twelve feet high, and 
 long grassy leaves, which send out a flowering stem terminating 
 in a panicle of beautiful silver-gray flowers. The lower parts 
 of those canes which have not previously borne flowers are 
 richest iu saccharine matter. The canes are crushed between 
 heavy rollers ; the pale-green expressed juice, which contains 
 nearly 20 per cent of sugar, is mixed with a little slaked Ume 
 to neutralise acids and precipitate albuminoids, and concentrated 
 in shallow vacuum pans, at a temperature not exceeding 140° ; 
 the coagulating albumin, entangling impurities, is Skimmed off ; 
 the syrup is cooled ia wooden vats, and dried in the sun, 
 yellow dark-brown crystals of raw sugar are formed, and 
 there drains away a variable quantity of brown uncrystaUised 
 molasses. The raw brown or muscovado sugar brought to this 
 country often contains 40 per cent of water and impurities, and 
 is refined by solution in steam-heated water, mixed with a little 
 nulk of lime, animal charcoal, and occasionally with the serum 
 of bullocks' blood. Impurities thus coagulated rise to the sur- 
 face and are removed ; colouriug matters are further got rid of 
 by filtration through animal charcoal ; the clear syrup is con- , 
 centrat^d in vacuum boilers about 170°, quickly dried in small 
 crystals, or poured into conical moulds and crystallised as loaf 
 sugar.' A cwt. of raw sugar yields about 80 lbs. refined sugar 
 and 16 lbs. treacle. 
 
 Cane sugar, sucrose, the saccharum purificatum of the Phar- 
 macopoeia (Ci2 H22 Oil), is colourless, odourless, porous, friable, 
 and sweet. Like sulphur, it has an amorphous and a crystalline 
 form ; its crystals are monoclinic prisms ; its specific gravity is 
 1"606. It is soluble in one-third of its weight of water at 
 
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UNORYSTALLISABLE MOLASSES. 499 
 
 0°, phosphoresces in the dark, is decomposed by mineral 
 cids, and readily fermented by yeast. When slowly crystal- 
 sed at 170°, by suspending threads in a strong watery solu- 
 Lon, to which a little alcohol is generally added, bold prisms 
 f sugar-candy are formed. • A strong solution, evaporated and 
 eated to 320°, fuses, and the vitreous mass can be moulded 
 ito barley-sugar. Above 356° sugar parts with two mole- 
 ules of water, loses its sweet taste, acquires a. dark colour, and 
 ecomes caramel, which is used by confectioners and distillers 
 s a colouring agent. 
 
 Acids, ferments, and prolonged boiling cause cane sugar, 
 ad also starch and celluldse, to assimilate a molecule of water 
 nd form fruit sugar, fructose, or Isevulose, so 'called on account 
 f its rotating a ray of polarised light to the left, instead of, 
 ke cane sugar, to the right (Cg Hjg Og). This is the form of 
 ncrystallisable sugar present in ripe fruits, new honey, and 
 erminatiug seeds. Exposure to air, further action of the acid, 
 lie ferment, or the heat, cause the fruit sugar to assume 
 nother molecule of water, when it constitutes grape sugar, 
 lucose, or dextrose (Cg H12 Og, HjO), and regains its crystalline 
 roperty. This change, from fructose to glucose, gradually 
 3curs in ripe fruits and fresh honey, on which the crystals of 
 rape sugar form. Grape sugar occurs ■ in the blood, in the 
 aimal textures, and in urine ; is the variety formed from 
 ;arch, whether in or out of the body ; and is yielded by a 
 umber of proximate vegetable principles, termed glucosides, 
 icluding tannin, amygdalin, digitalin, etc., when these are 
 oiled with diluted acid. Glucose is neither so sweet nor so 
 )luble as sucrose, crystallises in cakes or square plates, and is. 
 ot charred by sulphuric acid ; but forms with it sulpho-sac- 
 laric acid. It produces a readily crystalhsable compound 
 ith common salt. But its most distinctive test is .a, few drops 
 ■ cupric sulphate solution, and enough caustic potash to make 
 le liqmd blue ; when the mixed solutions are gently heated, 
 red precipitate of copper suboxide goes down if fructose or 
 ucose is present, but no reddening or precipitation occurs 
 ith pure sucrose unless the solution is boiled. 
 
 Molasses, treacle, theriaca, or sacchari fsex, is the uncrys- 
 IKsed, fermentable, sjmipy residue from the preparing and 
 fining of sugar. It has a brown colour, a pleasant sweet taste, 
 
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500 SUGARS 
 
 and a specific gravity of about 1-4. Molasses is the drainings 
 from the raw sugar ; treacle the darker, thicker residue from 
 the moulding process. Liquorice contains the uncrystallisabl&| 
 unfermentable sugar glycyrrhizin (p. 371). 
 
 Honey or mel, the saccharine secretion deposited in the 
 honeycomb by the hive bee, when first collected, is yeIlow> 
 translucent, and viscid, but gradually a portion of its uncrystal- 
 lisable fructose becomes converted into the crystallisable glucose 
 and sucrose. Forty ounces honey, liquefied by heat, and mixed 
 with five ounces each of acetic acid and water, constitute the 
 detergent expectorant oxymel. 
 
 Milk sugar or lactose (Cja H24 Ojj) is prepared by evapor- 
 ating whey, filtering, and crystallising. It is obtained from 
 the homoeopathic chemists, who use it for subdividing their 
 medicines. It occurs in translucent, grayish-white, hard, cylin- 
 drical masses of rhombic prisms. It is gritty, and not so sweet 
 as the vegetable sugars ; is not directly fermentable ; is in- 
 soluble in alcohol and ether, and requires for solution six times 
 its weight of cold water and two of boiling water. 
 
 Actions and Uses. — The sugars are readily absorbed, are 
 employed as respiratory fuel, or converted into and stored away 
 as fat, are decomposed and got rid of as water and carbonic 
 anhydride, or in excessive doses and in certain disordered states 
 are formed into lactic and oxalic acids. They are stated to 
 destroy frogs, leeches, and earthworms ; to stupefy fish, and 
 poison pigeons, with swelling of the head and convulsions. 
 But Hertwig gave pigeons three to five drachms without any 
 bad consequences. One or two pounds given to horses, eight 
 to twelve ounces to dogs, increase the amount and fluidity of 
 the faeces, and usually augment secretion of urine. As a de- 
 mulcent and emollient, sugar is used in human practice in the 
 dry stages of catarrh; in poisoning with salts of mercury and 
 copper ; and as a domestic remedy for sores, and for removing 
 specks on the cornea. Its antiseptic properties recommend it 
 for preserving many vegetable, and some soft animal, substances, 
 and for making up various, medicines. It increases the solu- 
 bility of lime salts (p. 210), and retards the oxidation of fer- 
 rous compounds (p. 346). Simple syrup, the syrupus simplex 
 of the Pharmacopoeia, used for flavouring, preserving, and sus- 
 pending medicines, is made by dissolving, with the aid of gentle 
 
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NUTRITIVE, DEMULCENT, AND ANTISEPTIC. 501 
 
 jat, five pounds refined sugar and two pints water, and adding 
 'ter cooling sufficient water to make the weight of the product 
 |- Ihs. The specific gravity is 1-330 {Brit Phar) 
 
 Molasses and treacle, in veterinary practice, are often sub- 
 ituted for sugar. They are palatable, digestible, laxative 
 :ticles of diet, well adapted for sick animals and convalescents, 
 hey are convenient auxiliary purgatives, especially valuable 
 ir hastening the action, preventing the nausea, and coveriag 
 le disagreeable flavour of active cathartics. Where full doses 
 : physic have been previously given, and their repetition is 
 lexpedient, large and repeated doses of treacle often accelerate 
 le action of the bowels, especially in cattle and sheep. As a 
 ■irgle for horses with sore throat, three or four ounces of treacle 
 id an ounce of nitre are dissolved in a pint of water ; ' a few 
 inces of the sweet solution are slowly administered every hour 
 r two, or when the cough is troublesome ; an ounce of bella- 
 onna extract is sometimes added. Treacle, like sugar, is anti- 
 iptic, and one of the best excipients for making ball masses, 
 iving them a proper consistence, and preventing their becoming 
 ry, hard, or mouldy. The common mass, so largely used as 
 a. excipient, is made by thoroughly mixing with gentle heat 
 ^Lual weights of treacle and linseed flour. 
 
 Doses, etc. — Of sugar and treacle, as laxatives, horses and 
 ittle take Ibi. ; sheep, giij. or §iv. ; pigs, gij. or giij. ; dogs, 
 i. ; administered with aromatics and salines, usually dissolved 
 1 water or beer, or mixed with gruel. 
 
 SULPHUE. 
 
 Sulphur, or brimstone, is a chemical element, and one of 
 le most ancient articles of the materia mediea. It occurs in 
 lany animal substances as sulphates, and notably in bile and 
 le albuminoids, in garlic, the Brassicacese, UmbelliferBe, and 
 ther strong-smelling plants, in some mineral waters as hydro- 
 3n sulphide, and in the various pyrites or metallic sulphides, 
 ■om which it is got by roasting. It is, however, mostly ob- 
 lined from the native uncombined sulphur, occurring as a pro- 
 act of volcanic action in beds of blue clay in Italy and Sicily, 
 his crude stilphur is purified by distillation, and when run 
 
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502 SULPHUR 
 
 into wooden moulds, forms the stick or roll sulphur. The finely 
 divided, impalpable, minutely crystaEdne sublimed sulphur, or 
 ilowers of sulphur, is prepared by subliming sulphur, and intro- s 
 ducing its vapour into large chambers, where it condense^.;! 
 When five parts sublimed sulphiir are boiled with three parts 
 slaked lime and twenty parts water, filtered and acidulated 
 with hydrochloric acid,' there is thrown down a grayish-yeUow 
 soft powder of milk of sulphur or precipitated sulphur, the 
 molecules being much more finely divided than those of sub- ' 
 limed sulphur. Sulphur vivum, caballinum, or horse sulphur, 
 the residue left in the sublimuig pots, if obtained from iron py- , 
 rites, must be used with caution, as, besides other impurities, it 
 occasionally contains arsenic. Sulphur unites with many other 
 elements ; with metals to form sulphates ; with hydrogen pro- 
 ducing hydrogen sulphide ; with oxygen forming seven acids ; 
 and also with chlorine, iodine, and bromine. 
 
 Properties. — Sulphur has a yellow colour, a spec. grav. of 
 about 2-, but varying iu its different conditions, has a peculiar 
 faiat odour and taste, is insoluble in water and cold alcohol, 
 feebly soluble in chloroform and ether, and more soluble in 
 benzol, carbon bisulphide, and fixed and volatile oUs. It 
 is entirely volatilised by heat, inflames at 500°, burning with | 
 a pale blue flame, and giving off suffocating fumes of sulphurous 
 anhydride. It boils at 836°, producing heavy brown-red ,j 
 vapourg. Sulphur, when heated, undergoes remarkable changes. J 
 At 240° it melts, becoming clear, limpid, and amber coloured; * 
 about 300° it gradually gets darker and opaque, and so viscid- 1 
 that it adheres to the vessel even when inverted; above 350° 
 heat becomes latent, the sulphur recovers its liquidity, and when 
 about 500°, if poured into cold water, it is so viscid and vitre- 
 ous that it may be drawn into threads, but in a few hours this '\ 
 ductility disappears, latent heat is lost, and the mass returns 
 to the normal brittle crystalliue form. Sulphur thus occurs in 
 three allotropic states : it is crystaUine, as in roll sulphur ; • 
 amorphous, as in the sublimed and precipitated varieties ; and 
 vitreous, as in the temporary condition just described, as occur- 
 ring when sulphur is raised to 500° and slowly cooled. Eoll > 
 sulphur occurs in opaque, crystaUine, brittle roUs or masses. 
 When grasped in the warm hand, being a bad conductor of • 
 heat, it crackles and sometimes splits into fragments. Sublimed |l 
 
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STIMULANT OP MUCOUS SURFACES. 503 
 
 siilphux is a yellow, amorphous, granular powder, less soluble 
 than the crystalline roll sulphur. For medicinal and pharma- 
 ceutical purposes, sulphur is usually of sufficient purity ; but 
 traces of arsenic are sometimes present in that made from 
 pyrites. 
 
 Actions and Uses. — Large doses are irritant; medicinal 
 doses, laxative, alterative, and stimulants of the mucous sur- 
 faces. Applied externally, sulphur is a stimulant and effectual 
 antiparasitic. 
 
 In horses, a pound causes colic, purging, prostration, and 
 sometimes fatal gastro-enteritis (Moiroud). A horse affected 
 with glanders received dbses beginning with an . ounce, and 
 gradually increased by additions of an ounce daily, until the 
 sixteenth day, when he had got 136 ounces. DiarrhcEa super- 
 vened on the seventh day ; but the appetite remained through- 
 out unimpaired, the urinary secretion unaffected, the pulse and 
 breathing normal. By the third day; the perspiration smelt of 
 sidphur, and a piece of paper moistened with lead acetate, and 
 laid on the skin, became gray. The muco-purulent discharge 
 from the nostrils increased daily ; the patient, though weU fed, 
 became gradually emaciated, and so debilitated, that by the 
 seventh day he was unable to rise. After the tenth day, the 
 blood, even in the arteries, became dark coloured, thin, and 
 slow to coagulate. On the seventeenth day the animal was 
 destroyed. The mucous lining of the stomach, colon, and 
 caecum was reddish-blue, soft, and easily torn. The lungs, 
 muscles, and intestinal contents smelt strongly of hydrogen- 
 sulphide, but the blood had no such odour (Hertwig). Passing 
 through the alimentary canal, sulphur acts as a mechanical 
 irritant ; only a small quantity is converted into a soluble sul- 
 phide and absorbed ; whilst within the body it stimulates the 
 mucous surfaces, is excreted by the skin and mucous membranes 
 in the form of hydro-sulphuric and sulphuric acids, and com- 
 municates the disagreeable hydrogen-sulphide odour to all the 
 secretions. Waldinger mentions that even smaU. quantities 
 given repeatedly to sheep impart a disagrefeable flavoiu- to the 
 
 Sulphur is given to the several domestic animals gently to, 
 open the bowels in piles or pregnancy, where more powerful 
 purgatives might irritate ; in chronic pulmonary disorders, in 
 
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504 SULPHUR DRESSINGS 
 
 convalescence from acute diseases, and occasionally in rheuma- 
 tism and skin affections. Its efficacy as a vermifuge has been 
 over-estimated. A piece of roll sulphur in the water which the 
 animal drinks is a popular preventive of distemper and other 
 canine disorders. But, heing quite insoluble in water, its effects 
 when thus used are nil. Its sudorific effects are scarcely 
 observable in the domesticated animals. Eubbed daily into the 
 skin, it is said to abate the pain of rheumatism. For aU veter- ■ 
 inary patients it is much used for the destruction of acari and 
 lice. To effect a prompt and effectual cure of mange and scab, 
 it is essential to destroy the butrows in which the female acari 
 have deposited their ova, by diligently scrubbing the patient 
 with soft soap and water. The scarf skin being thus removed, 
 the sulphur dressing comes into immediate and fatal contact, 
 not only with fully developed, but with embryo acari In cases 
 of long standing a second or even a third application at an 
 interval of a few days may be requisite to destroy any acari 
 which have been hatched since the first dressing. In intract- 
 able mange, besides scrupulous attention to cleanliness and the 
 internal use of arsenic and alkalies, it is desirable to vary the 
 application, using in turn sulphur, tar oil, diluted mercurial 
 ointment, and alkaline washes. 
 
 Doses, etc. — As a laxative, horses take giij. to giv. ; cattle, 
 §iv. to gvi ; sheep and pigs, Ji to §ij. ; dogs, 3vi As an 
 alterative, one-fourth of these doses suffices. The precipitated, 
 being more finely divided than the sublimed, sulphur, is some- 
 what more certain and active as a laxative. Sulphur is conve- 
 niently admioistered suspended in gruel or treacle and water, 
 or dissolved in milk or oil, and is often conjoined with aroma- 
 tics, salines, antimonials, and mercurials. For horses or cattle, 
 a laxative mixture is made with two or three ounces each of 
 sulphur and cream of tartar, dissolved in water, with half a 
 pound of treacle ; one-third of this dose suffices for sheep and 
 pigs, one-sixth part for dogs. A convenient alterative for horses 
 or cattle consists of an ounce each of sulphur and giager, and 
 half an ounce of nitre, repeated twice daily. For external use 
 almost every practitioner has his own formula. The simple 
 ointment consists of one part of sulphur and four of 'lard ; one- 
 fourth part mercurial oiatment is sometimes added. The simple 
 hniment is made with one part of sulphur and six or eight of 
 
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FOR MANGE AND RINGWOEM. 505 
 
 linseed or other common oil ; one part of tar oil or of Barba- 
 does tar is often added. A useful mange dressing is made with 
 two parts of sulphur, one each of tar oil and potassium car- 
 bonate, and ten or twelve of lard or of oil. For mange, ring- 
 worm, and other itching skin complaints, few remedies are equal 
 to sulphur iodide (p. 341). For itch cases and aU papules and 
 vesicles; Dr. Tilbury Fox recommends in human patients a 
 drachm of sulphur, eight . gTains each of mercury ammonia 
 chloride, and creasote, twenty minims chamomile oU, and two 
 ounces lard : this prescription answers very well for dogs. 
 
 SULPHUEIC ACID. 
 
 Acidum Sulphuricum. Hydrogen Sulphate. Oil of Vitriol. 
 An acid produced by the combustion of sulphur and the 
 oxidation of the resulting sulphurous acid by means of 
 nitrous vapours. Hg 804.- — Brit. Phar. 
 
 Into large leaden chambers, the floors of which are covered 
 witli water, gaseous sulphurous anhydride (SO2) is uitrod]iced 
 from the burniag of sulphur or the roasting of iron pyrites. 
 Jets of steam convert it into liquid sulphurous acid (Hg SO3). 
 Nitric acid (H NO3), obtained from potassium or sodium nitrate, 
 treated with sulphuric acid, is discharged into the chambers, 
 and supplies the oxygen which converts the sulphurous into 
 sulphuric acid (Hj SO4). The nitric acid, after oxidising the 
 sulphurous acid, is reduced to the condition of nitric oxide 
 (N 0), absorbs oxygen from the air, becomes nitric peroxide 
 (N O2), is again deoxidised by the sulphurous acid, and without 
 itself undergoing much diminution thus becomes the carrier of 
 oxygen from the air to the sulphurous acid. The diluted sul- 
 phuric acid formed in the chambers is concentrated in. leaden 
 vessels to 1'72, when it constitutes the brown acid of com- 
 merce. For pharmaceutical or chemical purposes, it is further 
 concentrated in platina or glass vessels to the specific gravity 
 of 1-843. 
 
 Properties. — The strong acid of commerce contains 9 6 '8 
 per cent of real acid (H SO4), and corresponds to 79 per cent 
 of anhydrous acid (SO3), has the specific gravity 1'843, is oily- 
 looking, colourless, odourless, with an intensely acid acrid taste. 
 
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506 SULPHURIC ACID 
 
 It freezes about -30°, boils at 640°, absorbs moisture from the 
 air, and bence, if kept ia unstoppered bottles, speedily becomes 
 dililted. It has great afBnity for water, mixes with it in all 
 proportions, and in combining with it evolves much heat. This . 
 affinity for water causes it to decompose and char organic sub- 
 stances and soft animal tissues ; whilst its readily giving off 
 oxygen causes its conversion into sulphurous acid when it is 
 heated with charcoal, sulphur, or metals. The acidum sul- 
 phurieum dilutum, or medicinal acid, contains about 13-|- per 
 cent of strong acid. The acidum sulphuricum aromaticum, 
 flavoured with cinnamon and ginger, is of similar strength. 
 Sulphuric anhydride or sulphur trioxide (SO3) occurs in silky 
 needles, resembling asbestos, has no acid reaction, forms four 
 definite compounds with water, the most important being the 
 fuming or Nordhausen acid used for the solution of indigo, 
 and generally represented as Hg Og SO3, and the monohydrate 
 H SO3 or H2 SO4. The test for sulphuric acid is its forming, 
 in diluted solution, with soluble barium salts, an abundant 
 white precipitate (Ba SO4), insoluble in other acids. 
 
 Impu/rities. — The specific gravity and the neutralising power 
 of the volumetric solution of soda indicate the proportion of 
 water. 50 '6 grains by weight of the strong acid, 'mixed with 
 an ounce of distilled water, require for neutralisation 1000 
 grain measures of the volumetric solution of soda {£rit. 
 Fhar.) Any trace of organic matter causes discoloration. Lead 
 or arsenic is discovered by diluting the acid, and adding 
 hydrogen sulphide. Iron ferrous sulphate solution poured over 
 the specimen in a test-tube produces a purple colour where the 
 two liquids Ineet, if nitrous compounds are present. 
 
 Actions and Uses. — Sulphuric acid is a corrosive irritant 
 poison ; is used medicinally as a refrigerant, antiseptic, tonic, 
 and astringent; and externally as a caustic, stimulant, and 
 astringent. 
 
 Concentrated doses in all animals corrode and inflame the 
 surfaces of the mouth and fauces, peel off the mucous mem- 
 brane, blacken the teeth, excite colic, with vomiting in dogs and 
 pigs ; the bowels are usually rekxed, the breathing difficult, the 
 pulse frequent and feeble. The contents of the stomach are 
 found after death acid ; the alimentary canal stripped in 
 patches of its mucous covering and studded with black spots ; 
 
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COEEOSIVB, TONIC, AND ASTKINGENT. 507 
 
 the Mood in tlie surrounding vessels coagulated. When the 
 acid has been strong, the walls of the stomach are soinetimes 
 eroded ; when the animal lives for some days, the mucous mem- 
 brane becomes thickened and inflamed. The appropria,te anti- 
 dotes are alkaliae bicarbonates, chalk, and magnesia, with such 
 diluents and demulcents as oil, milk, and linseed gruel, followed 
 by, opium and fluid nutrients. 
 
 Medicinal doses help to form peptones, and improve the 
 relaxed condition of the alimentary mucous membrane. An acid 
 solution on one side, and an alkaline solution on the other side 
 of the moist gastric membrane stimulate osmosis. Of ordinary 
 doses a certain proporti3n is absorbed unchanged into the blood, 
 as is evident from the fact , that acids and their salts are not 
 identical in action, which should be the case were acids alto- 
 gether converted into salts previous to absorption. The small 
 c[T!iantity of. alkali present ia the intestinal canal, is moreover 
 insufficient to neutralise the doses of acid usually given. 
 Absorbed into the blood, they liberate weaker acids and lessen 
 alkalinity. Salivary and other alkaline secretions are increased ; 
 thirst is diminished ; refrigerant properties are brought out by 
 combination with salines; administered with gentian, quassia, and 
 other bitters, astringent and tonic effects are developed. It is 
 got rid of chiefly through the bowels and skin, exerting on these 
 excreting channels its special astringency. For arresting exces- 
 sive sweat sulphuric or phosphoric acid is often conjoined with 
 zinc sulphate, and the patient sponged over with a tepid acid 
 solution. Comparing the three mineral acids. Dr. Bence Jones 
 states that hydrochloric acid specially promotes digestion, nitric 
 acid secretion, sulphuric acid astringency. 
 
 Sulphuric acid is prescribed in feebleness and a:tony, during 
 convalescence from acute disease, and in other cases where 
 mineral tonics and astringents are indicated. In dyspepsia 
 hydrochloric acid is generally preferred, but in these cases acids 
 cannot be long freely used without injuriously diminishing 
 gastric secretion. In diarrhoea, dysentery, and cholera, when 
 accompanied with weakness and alkaline discharges, a drachm 
 of acid is administered twice daily to horses and cattle, united 
 with an ounce each of laudanum and ginger, and administered 
 in starch . gruel or mucilage. In those cases of influenza in 
 horsey, with a tendency to oedema or purpura, I have seen much 
 
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508 ST7LPHUEIC ACID. 
 
 benefit from thirty drops -sulpliuric acid given in gruel or ale 
 several times a day, with an ounce each of ether and powdered 
 cinchona bark. In relaxed and ulcerated sore throat amongst 
 horses, a diluted solution, slowly given, exerts the twofold 
 influence of a local astringent and general tonic. In contagiou^ 
 pleuro-pneumonia amongst cattle, it usually reduces the pulse 
 and temperature, relieves the breathing, and sustains the vital 
 powers. Its success, however, is by no means invariable, nor 
 is the percentage of recoveries greater than when iron sulphate 
 or other tonics have been given. Two and even three ounces 
 have been used with impunity, but repeated large doses in 
 pleuro-pneumonia, as in other cases,, are apt to cause diarrhoea 
 and colic. It sometimes stays purpura hsemorrhagica as well 
 as bleeding from the lungs, stomach, or other internal organs. 
 It often arrests the itching of chronic nettle-rash and lichen. It 
 is an effectual antidote for lead poisoning. 
 
 In a state of concentration the acid, applied to the skin, 
 combines with its moisture, bases, and albuminoids', and dis- 
 organises the cuticle, exposing the nervous fibrillse. Its fluidity 
 adapts it for cauterising irregular, sinuous, and poisoned wounds, 
 and for most of the uses of a styptic and astringent. Three 
 parts strong acid, thoroughly mixed with one of asbestos, rubbed 
 to fine powder, are used in France for removing cancerous and 
 other swellings ; half an inch layer placed over a tumour the 
 size of an egg is stated to remove it in twelve hours. For the 
 des,truction of cancer the late Professor Syme made sulphuric 
 acid into a thin pulp with ' sawdust, protecting the neighbour- 
 ing tissues by a wall of gutta percha. It is used in like manner 
 to destroy warts, which, from their shape or situation, cannot 
 readily be removed by the knife or by ligature. It is added to 
 blistering ointments, b,ut, unless in small amount, is apt to cause 
 blemishing. A few drops given along with Epsom salt and 
 other saline purgatives, diminish their disagreeable taste and 
 rather increase their activity. 
 
 Doses, etc. — Of the medicinal acid horses take f3i. to f3ij. ; 
 cattle, f 3ij. to f 3iv. ; sheep, f 3ss. to f 3i. ; pigs, Tr(_x. to nv.xx. ; 
 dogs, TTj^ij. to iTl^vi. ; repeated several times a day ; given diluted, 
 so that it does no topical injury, and often conjoined with 
 aromatics and bitters. As an external astringent, ten to twenty 
 drops of medicinal acid are mixed with an ounce of water. 
 
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GASEOUS AND LIQUID SULPHUROUS ACID. 509 
 
 SULPHUEOUS ACID. 
 
 Acidum SulpliurosTmi. A solution in water of 9 '2 per cent of 
 Sulphurous anhydride. 
 
 When sulphur is burned in air or oxygen, or when sul- 
 phuric acid is heated with charcoal, iron, copper, or other bodies 
 having affinity for water and oxygen, there is given off a heavy, 
 colourless, liquefiable, suffocating gas — sulphurous anhydride, 
 popularly styled sulphurous acid (SOj). This' gas, in the pre- 
 sence of moisture, or when it is passed into water, evolves heat, 
 and becomes true sulphurous acid (Hg SOg), which is crystal- 
 lisable, unstable, and forins a series of soluble sulphites. The 
 sulphurous acid of the Pharmacopoeia contains, dissolved in 
 water, 9 '2 per cent by weight of sulphurous anhydride. It is 
 a colourless Liquid, has a pungent sulphurous odour, reddens 
 litmus, bleaches colouring matter, leaves no residue when 
 heated, has the specific gravity 1'04. It is distinguished by its 
 pungent odour ; when in combination it is liberated by hydro- 
 chloric acid. Both the gaseous and liquid forms are used as 
 bleaching agents, especially for wooUen and silk goods. Unlike 
 chlorine, which is an oxidiser, it abstracts oxygen, becoming 
 converted into sulphuric acid. 
 
 Actions and Uses. — Both the gaseous and liquid acids are 
 irritants. The gas, insufficiently diluted, irritates the upper 
 air-passages and causes suffocation. Both gas and solution 
 are administered as stimulants and antiseptics. Externally 
 they are applied as stimulants, antiseptics, and insecticides. 
 They are employed generally as antiseptics, disinfectants, and 
 deodorisers. 
 
 Sulphurous acid possesses in a concentrated form the same 
 antiseptic properties as the sulphites and hyposulphites (p. 
 487). Its chemical affinity as a deodoriser enables it to 
 decompose hydrogen -sulphide, and thus remove bad smeUs ; 
 and also accounts for its bleaching properties. It destroys the 
 yeast plant, and thus arrests fermentation. A little sulphur 
 burned in the casks before they are filled prevents the souring 
 of beer or cider. It Mils bapteria and other of the lower forms 
 of life, and thus -prevents or stays putrefaction. Sir Eobert 
 
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510 SULPHUROUS ANHYDRIDE 
 
 Christison found that one-fifth of a cubic inch, diluted with 
 ten thousand volumes of air, destroyed the leaves of various 
 plants in forty-eight hours. It prevents the putrefaction of 
 the gelatin used in paper-works ; is the only agent that 
 effectually checks the noisome effluvia of the cochineal dye- 
 works; meat suspended in bottles containing gaseous acid 
 remained perfectly preserved for years. Professor Graham 
 stated that " animal odours and emanations are immediately 
 and most effectually destroyed by it." Dr. Baxter, reporting 
 to the Privy Council, states that sulphurous acid has greater, 
 activity than chlorine or carbolic acid in destroying vaccine 
 virus. Dr. Dewar, of Kirkcaldy, first showed its extended 
 application in medicine and surgery. He uses it in solution, 
 in fumigation, and in spray. He treats with it wounds and 
 bruises, and arrests the pain and progress of erysipelas. In 
 colds in the head, sore throat, bronchitis, phthisis, and typhoid 
 fever, he causes its inhalation and administers it in solution. 
 In rheumatism, he further directs the bedclothes to be exposed 
 to the vapours from the burning sulphur, and then laid over 
 the patient, when refreshing perspiration is evoked. In 
 analogous cases amongst the lower animals, sulphurous acid is 
 equally serviceable. Dr. Dewar and others have, with con- 
 siderable advantage, used both the solution and the gas in the 
 treatment, as well as in the prevention, of the contagious 
 pleuro-pneumonia of cattle. In this, as in other typhoid cases, 
 it probably neutralises the specific poison, and also modifies 
 dangerous symptoms. In tedious influenza cases, and in pur- 
 pura and erysipelas in horses, I have seen it do good when 
 used internally, and also as a wash for the tender or broken 
 skin. In such cases it is prescribed with salines, tonics, and 
 stimulants. In hoven in cattle, and tympanitis in horses, I 
 have tried the medicinal solution in two-ounce doses without 
 the prompt and certain relief which usually follows ammonia- 
 solution or spirit. In young calves, tympanitic from hasty or 
 careless feeding, ounce doses act, however, more certainly than 
 in older animals. The gas mixed with air, as when sulphur 
 is burned on red-hot charcoal, in a loose box, destroys bronchial 
 [ilaria in calves and lambs. About two fumigations at intervals 
 Df a few days usually effect a cure, which is hastened by a dose' 
 of turpentine. 
 
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STIMULANT) ANTISEPTIC^ AND INSECTICIDE. 511 
 
 It^is one of the cheapest and best antiseptics for irritable 
 weakly noisome wounds. The spray of the undiluted acid, 
 applied for six or eight minutes, or until the part gets cold, 
 often arrests the pain and inflammation of bruises, strains, or 
 enlarged joints. For irritable and relaxed sore throat in horses 
 a spray of one part of acid and ten of water proves useful. 
 UnKke carbolic acid, its liberal use does not irritate, interfere 
 
 • with granulation, or get absorbed and produce dangerous con- 
 stitutional effects. It is sometimes substituted for sulphur in 
 the treatment of mange ; it destroys the parasites of ringworm ; 
 and relieves the itching of eczema and psoriasis. 
 
 Burning sulphur, used since the time of Homer, is stOl one 
 of the most effectual disinfectants. By its help smallpox was 
 stamped out in Iceland in 1871 ; by its free use at Marlborough 
 College in 1875 scarlet fever was arrested (The Practitioner, 
 May 1877); its employment has frequently stayed the pro- 
 gress of foot-and-mouth disease. The gas is readily evolved 
 in the stable or premises to be purified, by scattering flowers of 
 sulphur- over a few embers on a shovel or in a chauffer ; and it 
 burns best when previously mixed with about -^th. part of 
 finely divided charcoal. ; Where men or animals remain in 
 the premises, care must be taken that the gas eVolved is not 
 in such quantity as to cause coughing, irritation, or discomfort. 
 In tehahtless buHdings, the doors and windows should be 
 closed, and a large amount of gas evolved and allo-v^ed to per- 
 meate every corner ; a fresh evolution may be made after a 
 day^s interval. During the prevalence of any epizootic of 
 plague, pleuro, or mouth-and-foot disease in cattle, or of in- 
 fluenza, typhoid fever, or glanders in horses, or of distemper 
 amongst dogs, to protect healthy animals in the same or ad- 
 jacent premises, they should breathe daily for half an hour the, 
 diluted acid, and should also be daily sponged over with a weak 
 solution, which wiU be rendered stiU more destructive to 
 disease germs if mixed with a little carbolic acid. Besides 
 antiseptic and disinfectant effects, sulphurous acid also destroys 
 offensive smeUs ; it attacks and oxidises hydrogen sulphide ; it 
 converts ammonia into ammonium sulphite, itself a valuable 
 antiseptic. The lime about the walls of infected buildings is 
 converted by the sulphurous acid into calcium sulphite, a valu- 
 
 • able disinfectant, and one of the constituents of M'DougaU's 
 
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512 SWEET SPIRIT OP NITEE 
 
 powder. If used constantly or repeatedly, articles of clothing 
 should be kept out of its way, otherwise they get bleached, and 
 eventually rotted, from the sulphuric acid condensed upon them. 
 JDoses, etc. — Of the mediciual solution horses and cattle take 
 f §i. to fgij. ; sheep and pigs, f3ss. to f3i. ; dogs, TlT_xx. to tt|_]x. ; 
 given every two hours in water or other cold bland fluid, and 
 continued until the system is saturated and the skin gives off 
 its odour. It is often conjoined with aromatics, alcohol, ether, 
 or opium. Dr. Dewar believes the solution of the acid is a 
 more effectual antiseptic than either the sulphites or hypo- 
 sulphites. For surgical purposes, the medicinal solution is 
 diluted usually with three or four parts of water; with 
 this the lint or other dressiugs are kept saturated ; in irritable 
 or painful wounds a little laudanum is added ; in skin irritation 
 admixture of glycerin proves soothing. Baths are readily made 
 by conducting the vapours of burning sulphur into water ; and 
 baths or strong solutions are more effectual than fumigation in 
 curing mange and other skin complaints in veterinary patients. 
 As a disinfectant, it is fittingly used "with carbolic acid, but not 
 with chlorine or bleachuig powder, which neutralise it. 
 
 SWEET SPIEIT OF NITRE. 
 
 Spiritus ^theris Mtrosi. A spirituous solution containing 
 nitrous ether (Cj H5, NOg). 
 
 When rectified spirit, sulphuric and nitric acids are heated 
 with copper wire, the nitric acid is deoxidised by the copper ; 
 the resulting nitrous acid (NOg) seizes the ethyl of the alcohol 
 (C2 H5 HO), and there is formed, nitrous ether (Cj Hg NOj) 
 which distils over with a portion of the alcohol, and, when 
 diluted with three times its bulk of rectified spirit, constitutes 
 sweet spirit of nitre. In this process complicated reactions 
 doubtless occur, but the ultimate results are represented by the 
 formula — 
 
 Alcohol. ^ Copper. ^-^S"" ^Tp^ ^^ter. X^ 
 
 C2H5 HO + H NO3 + Cu + H2SO, = Cu SO4 + 2H2O + C2H5 NO2 
 
 In preparing nitrous ether, to'prevent tumultuous ebullition, 
 violent succussions, and liability to explosion, sand is placed 
 
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STIMULANT, DIUKETIC, AND DIAPHOEETIO. 513 
 
 within the retort or mattrass, a powerful refrigerator and safety- 
 tube employed, the acid added slowly and gradually, proximity 
 to a naked flame avoided, and the temperature not allowed to 
 exceed 180°, The British Pharmacopoeia furnishes the follow- 
 ing explicit details : — To one pint of rectified spirit add gradu- 
 ally two fluid ounces of sulphuric acid, stirring them together; 
 then add gradually two and a half fluid ounces of nitric acid. 
 Put the mixture into a retort, with two ounces of fine copper 
 wire (No. 25). Insert a thermometer, and attach an efficient 
 condenser, and, applying a gentle heat, let the spirit distil, 
 commencing at 170°, and raised to 175°, but not exceeding 
 180°, until twelve ounces have passed over into a receiver, 
 cooled, if necessary, with iced water ; then allow the contents 
 of the r6tort to cciol; introduce half an ounce more of nittic 
 acid, and resume the distillation as before, until the distOlate 
 measures fifteen fluid ounces. Mix this with sufficient (about 
 two piats) rectified spirit to make the product correspond to 
 the tests given below. Preserve in well-closed vessels. 
 
 Properties and Tests. — Transparent and nearly colourless, 
 with a very slight tinge of yellow, specific gravity 0-'845, 
 mobile, iaflammable, of a peculiar penetrating, apple-like odour, 
 and sweetish, cooling, sharp taste. It effervesces feebly or not 
 at all when shaken with a little sodium bicarbonate, indicating 
 absence of acid. Agitated with solution of iron sulphate and 
 a few drops df sulphuric acid, it becomes deep olive-brown or 
 black, owing to the formation and solution of nitric oxide. 
 When agitated with twice its volume of saturated solution of 
 calcium chloride in a closed tube, two per cent of its original 
 volume will separate in the form of nitrous 'ether, and rise to 
 the surface of the mixture, showing the presence of ten per 
 cent by volume of nitrous ether in the spirituous solution 
 {Brit. Phar.) 
 
 Actions and Uses. — Large doses are narcotic, produce deli-, 
 rium and coma, with a variable amount of preliminary excite- 
 ment. Medicinal doses are stimulant, antispasmodic, diuretic, 
 diaphoretic, and antiseptic. Applied externally, it is refrigerant. 
 It closely resembles alcohol and ether. 
 
 For all animals it is a valuable carminative and antispas- 
 modic in indigestion, tympanitis, and cohc ; a ready rouser of 
 the heart's action ; a serviceable stimulant in typhoid cases and 
 
 2l 
 
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514 TOBACCO. 
 
 convalescence from debilitating disorders; an effectual excitant of 
 the skin and kidneys in cold, rheumatism, and local congestion. 
 Like alcohol and ether, properly regulated doses lower excessive 
 animal temperature and antagonise pyaemia and most forms of 
 blood-poisoning. It is excreted mainly through the lungs. 
 
 Doses, etc. — As a stimulant and antispasmodic, horses take 
 f§i. to fgij. ; cattle, f§i. to fgiv. ; sheep, fSij. to f3iv. ; pigs, ill 
 to f 3ij. ; dogs, TH_xv. to f 3i. As it is readily decomposed, even 
 by water, it should not be diluted or mixed with other medicines . 
 until immediately before it is administered. It is usually given 
 in cold water, beer, or • linseed tea. As an antispasmodic, it is 
 united with opium, chloral, belladonna, or hyoscyamus. Tor 
 colic in horses, two ounces are given, with two or three drachms 
 of aloes, dissolved in a pint of cold gruel, ale, or water, often 
 advantageously conjoined with one or two ounces of laudanum. 
 Two ounces, with the same quantity of laudanum, repeated every 
 hour, counteract the spasms which occasionally follow parturi- 
 tion in cows. Por influenza and typhoid ailments in horses, 
 two ounces each of sweet spirit of nitre and ammonium acetate 
 solution, with a drachm of belladonna extract, are a good stimu- 
 lant anodyne draught. In most typhoid cases continuous and 
 permanent effects are produced by combination with a couple 
 of ounces of spirit, and by repeating the draught at intervals of 
 two or three hours. To combat serous exudation, one or two 
 ounces of sweet spirit of nitre are usefully conjoiued with half 
 a drachm each of iodine and potassium iodide. Special diuretic 
 effects are secured by combination with nitre or oil of turpen- 
 tine. Diaphoresis is developed when the patient is kept weU 
 clothed in tolerably warm quarters, and the medicine given in 
 small and frequently-repeated doses. 
 
 TOBACCO. 
 
 Tabaci FoHa. Leaf Tobacco. The dried leaves of Virginian 
 Tobacco — Nicotiana Tabacum. Cultivated in America. — 
 Brit. Fhour. 
 
 Nai. Ord. — Atropacese. Sex. Syit. — Pentandria Monogynia. 
 Tobacco derives its name from tabac, the instrument used 
 by the American aborigines for smoking the leaf, from the 
 island of Tobago, or from the town of Tobasco in New Spain. 
 
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NICOTINE AND NICOTIANIN. 515 
 
 It appears to have been cultivated from time immemorial by 
 the natives of America ; and is still grown largely about the 
 great river Orinoco, in the United States, and in many parts of 
 the world. It was unknown in the Old "World, at all events 
 in Europe, until after the discoveries of Columbus, and was first 
 introduced into England by Sir Erancis Drake in 1586. 
 
 The Nicotiana Tabacum, which yields the Virginian and 
 several important commercial tobaccos, is an herbaceous plant, 
 with a branching fibrous root, a tall annual stem, funnel-shaped 
 rose-coloured flowers, and large, moist, clammy, brown leaves, 
 mottled with yellow spots, covered with glandular hairs, and 
 distinguished by a strong peculiar narcotic odoUr, and a nause- 
 ous, bitter, acrid taste. The leaves readily commiinicate their 
 properties to hot water and alcohol. The plant is cut down in 
 August, and the leaves dried, twisted, and carefully packed, 
 with great compression, in hogsheads. For many purposes the 
 leaf is fermented, so as to destroy resinous and albuminous 
 matters, which, when smoked, give rise to oUs and unpleasant 
 products. Sugar and liquorice are added to give mellowness 
 and pliability. The Several tobaccos of the shops owe their 
 peculiarities chiefly to the manner in which they are prepared 
 for sale ; the unmanufactured Virginian, being the strongest, is 
 generally preferred for medicinal purposes. Snuff is prepared 
 by cutting tobacco into small pieces, piling it into heaps, and 
 pouring water over it to encourage fermentation. The heaps 
 heat, and evolve ammonia ; the process continues during one to 
 three months, according to the sort of snuff required ; the fer- 
 mented product is ground and sifted. 
 
 Commercial tobacco contains about 1 2 per cent of moist- 
 ure, '20 to 25 of lignia, and nearly the same amount of inor- 
 ganic matters, chiefly salts of potash and Mme. The active 
 priQciple is nicotine or nicotia (Cjo Hj^ Oj) — a colourless, vola- 
 tile, inflammable, oily alkaloid, with an acrid odour and taste. 
 It is present in all parts of the plant, occurs in combination 
 with phosphoric, malic, and citric acids; constitutes six to 
 seven per cent of the dried leaf; and is soluble in water, alco- 
 hol, ether, the fixfed and volatile oUs. It is an energetic poison, 
 almost as potent as prussic acid. Distilled with water, tobacco 
 yields a tasteless, crystalline, concrete, volatile oil— nicotianin 
 or tobacco camphor. 
 
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516 TOBACCO, A TOPICAL lEEITANT 
 
 Actions and Uses. — Tobacco is a topical irritant ; it causes 
 emesis and catharsis. Medicinal doses iaduce motor depression 
 and muscular relaxation; hence its antispasmodic properties. 
 Poisonous doses are irritant, motor depressants, paralysing the 
 motor centres and nerves, and 'killing by respiratory arrest. It 
 is used as an anthelmintic, and to poison acari, lice, and other 
 skin parasites. 
 
 General Actions. — Hertwig carefully investigated the action 
 of tobacco on the lower animals. He gave horses half an ounce 
 to an ounce of the powdered leaves, and found that the pulse 
 was lowered three to ten beats per minute, and became 
 irregular and intermittent ; whUst a repetition of such doses 
 increased the evacuation both of fasces and urine. Large doses, 
 especially when injected into the veins, accelerated the pulse, 
 increased the action both of the bowels and kidheys, and made 
 the animal generally irritable and restless. Two ounces pow- 
 dered tobacco, in a pound and a half of water, given in divided 
 doses, but within two and a half hours, to a healthy middle- 
 aged cow, heightened the skin temperature, raised the pulse 
 from 65 to 70, caused quickened but somewhat oppressed 
 breathing, coldness of the horns, ears, and extremities, dilatation 
 of the pupil, and copious perspiration continuing all night. 
 Next day the animal continued dull, but by the third day she 
 was perfectly well. An ox consumed about four pounds of 
 tobacco leaves, and speedily became very restless, ground his 
 teeth and groaned, lay with outstretched limbs and distended 
 rumen, passed quantities of thin, foetid faeces, and died in eleven 
 hours in convulsions. The leaves were found in the alimentary 
 canal, and the mucous membrane, especially of the fourth 
 stomach, was red and eroded, particularly where iu contact 
 with the tobacco. Hertwig further mentions that goats are 
 sirrdlarly affected by one or two ounces, and generally die ia 
 about ten hours. Orffla introduced five drachms and a half of 
 powdered tobacco (rappee) into the stomach of a dog, and re- 
 tained it there by ligature of the oesophagus. There ensued 
 violent efforts to vomit, nausea, purging, tremors of the extremi- 
 ties, giddiness, accelerated respiration, quicker and stronger 
 action of the heart, convulsions, stupor frequently interrupted 
 by spasms, and in niue hours death. Convulsions and stupor 
 are dependent on imperfect oxygenation of the blood, and not 
 
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AND MOTOR DEPRESSANT. 517 
 
 on any direct action on the brain. A decoction containing 
 half a drachm, injected into the rectum of a dog, produced 
 similar symptoms/but was not fatal. Two and a half drachms, 
 applied to a wound, destroyed a dog in an hour. The pupils 
 are contracted, and in fatal cases are insensible to light. The 
 usual appearances after death are fluidity and dark colour of 
 the blood, venous congestion, and redness of the alimentary 
 mucous membrane. 
 
 As a motor depressant it is allied to prussic acid, hemlock, 
 and Calabar bean, and is a physiological opposite of strych- 
 nine. Its appropriate antidotes are the stomach-pump and 
 emetics ; alcohol, ether, ammonia, or other diffusible stimulants ; 
 warmth and artificial respiration. 
 
 Medicinal Uses. — As a muscle-relaxer, tobacco acts bene- 
 ficially in colic, contraction of the neck of the bladder, and occa- 
 sionally in strangulated hernia, which is now, however, more 
 generally relieved by chloroform or by operation. Impacted 
 colon and obstinate torpidity of the bowels, whether from lead 
 poisoniag, or other conditions depending upon paresis of the 
 muscular layer, are usually relieved by tobacco, generally given 
 in the form of smoke clysters. One or two drops of nicotine 
 - — equivalent to about a drachm of Virginian tobacco — given 
 at intervals of two hours, usually allay the spasms of tetanus 
 in man ; a decoction applied directly to the affected muscles, 
 has also afforded relief, but, as with other remedies used ia 
 tetanus, the sjinptoms are only temporarily removed {Bartho- 
 low, Mat. Med. aiid Therapeutics). Howsoever administered, it 
 poisons intestinal worms, and diluted solutions thrown into the 
 rectum readily bring away ascarides lodged there; but for any 
 such purposes its irritant poisonous properties necessitate its 
 being employed with extreme caution. 
 
 , Externally, it is used to kill the acari of mange in horses 
 and dogs, and of scab in sheep ; whilst it also effectually de- 
 stroys lice, fleas, and ticks. Strong solutions, liberally applied, 
 are apt to cause nausea, fainting, and sometimes death ; but 
 one part to thirty or forty of water may be used with safety. 
 A useful wash or dip for sheep, effectual in destroyiag ticks, 
 warding off for a considerable time attacks of flies, and not 
 injurious to the colour or texture of the- fleeccj is made with 
 one pound each of tobacco, sulphur, potashes, and soft soap, 
 
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518 TURPENTINES : 
 
 dissolved in thirty gaUons of water, part of whicK, as ia other 
 dips, may be used hot. For such purposes the tobacco is pre- 
 viously boiled for ten or fifteen minutes in a couple of quarts 
 of water, and the decoction mixed with the other ingredients. 
 These quantities suffice to dip thirty lambs or a score of big 
 sheep. For the destruction of the scab acari, double the amount 
 of tobacco may be cautiously used. 
 
 Doses, etc. — The larger quadrupeds take 3i. to 3ij. ; sheep, 
 grs. X. to grs. xx. ; dogs, gr^. v. to grs. x. ; dissolved iu hot 
 water. As an antispasmodic laxative, clyster, the smoke is 
 preferred to the infusion, and is conveniently given by filling a 
 common barrel syringe with smoke drawn from a clay pipe. 
 Three or four syriugefuls are repeated at intervals of an hour, 
 or as required. For external application, or for enema, the 
 infusion is made by boiling or digesting one or two drachms of 
 tobacco with a pint of hot water. Stronger solutions require 
 to be used with great caution, especially if swallowed, injected 
 into the rectum, or placed in contact with an abraded absorb- 
 ing surface. A single drop of nicotine destroys rabbits and 
 small dogs in five minutes. 
 
 TUEPENTHsTES. 
 
 Nat. Ord. — Coniferse. Sex. Syst. — MoncEcia Monadelphia. 
 
 Most of the Coniferae contain an oleo-resinous juice, which 
 exudes spontaneously or from incisions made into the, stems 
 and branches. In this way are obtained common and Venice 
 turpentine, Canada balsam, and frankincense. These natural 
 turpentiaes, when strongly heated, give off the volatile or 
 essential oil of turpentine, and leave a residuum of resin. The 
 roots and refuse timber, subjected to smothered combustion, 
 yield tar, which, when distilled, evolves impure pyroligneous 
 acid, acetone (p. 1 1 2), and, as the temperature is further raised, 
 methyHc alcohol (p. 398), a series of less soluble hydrocarbons, 
 and volatile oil of tar, leaving a residue of pitch. These coni- 
 ferous products are conveniently grouped as follows : — 
 
 I. The several turpentines — ^the oleo-resiuous juices of the 
 Coniferae. 
 
 II. The oil of turpentine — the volatile or essential oil pror 
 cured from turpentines by distillation. 
 
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THE OLEO-EESINS OF THE CONIFEE^. 51& 
 
 III. The resins — the residue of the distillation of turpen- 
 tine. 
 
 IV. Tar and pitch — got hy subjecting the roots and wood 
 to destructive distillation. 
 
 I. The Turpentines. 
 
 The terebinthinate juices recently exuded from the Coniferee 
 are fluid, or nearly so ; but when exposed to the air they 
 solidify, from their volatiLe oil being partly given off and partly 
 oxidised. They have a peculiar pungent bitter taste and odour, 
 are scarcely soluble in w'&,ter, are partially soluble in rectified 
 spirit, but soluble in oils, ether, and alkaline solutions ; are 
 inflammable, and leave, when burnt, a flnely-divided residue 
 of carbon or lamp-black. The most important varieties are 
 common and Venice turpentines, Canada balsam, and frank- 
 incense. 
 
 Common or Horse Turpentine, principally imported from 
 the United States, and from Bordeaux, is the produce chiefly 
 of the Pinus palustris or australis, or swamp pine — a tree 60 
 or 70 feet high, having bright green linear leaves about a foot 
 in length, and collected into bundles like those of the Pinus 
 sylvestris, or Scotch fir, from which turpentine is also procured. 
 During winter or early spring three holes, pockets, or boxes, as 
 they are termed, six or eight inches long and about the same 
 •width, and capable of holding about a quart of juice, are cut 
 with a small axe in each tree. Selection is made of trees 12 
 to 15 inches in diameter. The bark above each box is hacked 
 so as to tap the oleo-resin cavities and ducts, which in this 
 species lie chiefly between the wood and bark, and this hacking 
 is repeated every eight or ten days. The turpentine is re- 
 moved from the boxes by a spoon, and a large proportion is 
 distilled in the locality of its collection. In the south-west of 
 France, the Bordeaux turpentine is got by bleeding or hacking 
 the bark, and conducting the juice into suitable vessels placed 
 at the foot of the tree. The trees continue productive for 
 , fifty years, (Fliickiger and Hanbury). Turpentine is semi-fluid ; 
 its consistence varies with the temperature ; it gradually solidifies 
 from volatilisation and resinification of the volatile oil ; it has a 
 yellow colour, an aromatic odour, 9,nd a warm pungent taste. 
 
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520 VENICE TURPENTINE — CANADA BALSAM : 
 
 Unless melted and strained it usually contains leaves, twigs, 
 and other iniipurities. "Water acquires its flavour, but does not, 
 separate its active principles. Eectified spirit and ether dis- 
 solve it; eggs and mucilage form with it an emulsion conv^ 
 nient for administration. Of essential oil, the American variety, 
 when recent, yields 14 to 16 per cent. Bordeaux or French 
 turpentine is inferior in aroma to the American, is obtained 
 from Pinus pinaster, but at present is imported in small 
 amount. 
 
 Venice Tuepentine (Terebinthina Yeneta), chiefly extracted 
 in the Tyrol, Switzerland, and Piedmont, is got from the 
 common larch, the Abies, or Larix europsea — a lofty tree with 
 graceful droopiag branches, and leaves at first in fasciculse, like 
 the pine tribe, but afterwards becoming solitary by the elonga- 
 tion of the twigs. In winter or early spring a hole is bored 
 reaching the heart wood, in which the turpentine mostly occurs; 
 the hole is then plugged, and when opened in autumn about a 
 pound of the honey-like juice is removed and purified by filtration. 
 It is tenacious, rather opaque, and fluorescent ; less apt than 
 common turpentine to concrete with keeping ; h?is a pale 
 yellow colour, an acrid bitter taste, a disagreeable terebinthiaate 
 odour, and contains 15 per cent of volatile oil of turpentiue. 
 The Venice turpentine of the shops almost invariably consists 
 of five ounces of oil of turpentiue melted with a pound of 
 black resiu. This artificial mixture is distiaguished by its 
 stronger odour, and its more quickly evaporating and leaving 
 a varnish on a sheet of paper, on which Venice turpentine re- 
 mains viscid. 
 
 Canada Balsam, chiefly brought from Lower Canada, is 
 obtained by making incisions into the bark or puncturing the 
 special vesicles lying between the bark and wood of Pinus or 
 Abies balsamea. It is a pale greenish-yellow oleo-resin of the 
 consistence of thin honey, with an agreeable balsamic terebin- 
 thinate odour, and a slightly bitter, feebly acrid taste; on 
 exposure drying very slowly into a transparent adhesive varnish; 
 solidifying when mixed with a sixth of its weight of magnesia 
 {Brit. Phar.) It contains about 18 per cent of oU, is much 
 used by varnish makers, opticians, and microscopists, and with 
 collodion and castor oil constitutes flexible collodion. It is 
 sometimes improperly termed balsam of Gilead, which is, how- 
 
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STIMULANTS, ANTHELMINTICS, AND DIUEETICS. 5,21 
 
 ever, derived from an Arabian Balsamodendron. Strasburg 
 turpentine is a fluid citron-smelling oleo-resin obtained in the 
 vicinity of the Alps from Abies picea. Chian or Cyprus tur- 
 pentine from the Island of Scio nearly resembles Canada 
 balsam in its properties and uses ; is a greenish-yellow liquid 
 oleo-resin from the Pistacia terebinthus, a tree of the Mastich 
 order. 
 
 Frankincense, or Thus Americanum, is the semi-opaque, 
 soft, concrete turpentine scraped from the stems of Pinus palus- 
 tris, and imported from the American Southern States. A 
 similar concrete turpentine comes from the south of France, 
 under the name of galipot or barras. Turpentine from the 
 Norway spruce fir, when melted in hot water and strained, con- 
 stitutes Burgundy pitch, which occurs in yellow-brown masses, 
 breaks with a shining conchoidal fracture, and has an empy- 
 reumatic turpentine odour and aromatic taste. Spread upon 
 leather it is used for stimulant and adhesive plasters, applied 
 in swellings of joints, chest affections, and rheumatism. 
 
 Actions and Uses. — The turpentines are topical irritants. 
 Given internally, they are speedily absorbed, act as general 
 stimulants, and are discharged by the kidneys, bronchial mem- 
 brane, and skin, stimulating whatever channels are employed 
 in their excretion. Their uses resemble those of their active 
 constituent, oil of turpentine. In percentage of oil, and hence 
 in activity, they stand as follows : Canada balsam, Venice 
 turpentine, common turpentine, and frankincense. They are 
 occasionally used as stimulants in indigestion, coHc, and general 
 debility ; as laxatives, especially when in combination ; and as 
 anthelmintics, diuretics, and inspissants of mucous discharges. 
 Externally they are applied as mild stimulants, astringents, and 
 rubefacients, and for making up diuretic and stimulant balls, 
 In the south of France, the resinous vapours of the Coniferae 
 have been successfully used in the treatment of rheumatism, 
 bronchitis, and phthisis in human patients {Edinburgh Medical 
 Journal, February 1864). 
 
 Doses, etc. — Horses and cattle take gi. to guj. ; sheep, 3i. 
 to .3iij. ; pigs, 3i. to 3ij. ; dogs, grs. xx. to grs. Ix. The maxi- 
 mum doses are stimulant and antispasmodic, the minimum, 
 frequently repeated, are diuretic and inspissant. They are 
 administered with linseed gruel, mOli, oUs, mucilage, eggs,' 
 
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522 OIL OF TDEPENTINE 
 
 treacle and water, or about 1-2 0th part of magnesia. For 
 external purposes they are made into liniments and ointments. 
 
 II. Oil of Turpentine. 
 
 The crude turpentines contain 15 to 30 per cent of oil of 
 turpentiae, oleum terebinthinee, often improperly called spirits 
 or essence of turpentine. It is usually got from the common 
 white or American turpentine by melting, straining, and dis- 
 tilling. Leaving the resin, the volatile oil passes over, is recog- 
 nised as common or unrectified oil of turpentine, or turps, is 
 denser, more viscid and acrid than the rectified Pharmacopceia 
 on, obtained by redistilling the crude oil with water and potash 
 solution. This purified oil varies somewhat, according to 
 its source, is colourless, limpid, very volatile, neutral, with a 
 penetrating odour, and pungent, bitter taste. Its specific gravity 
 is about '864;' it boUs about 314°; is very inflammable, burn- 
 ing with a heavy yellow flame, and producing much smoke ; 
 is very sparingly soluble in water ; more soluble in alcohol ; 
 and readily dissolved in ethers, fixed and volatile oils. It is 
 itself a valuable solvent for resias, fats, many alkaloids, india- 
 rubber, and gutta-percha, and has been economically sub- 
 stituted for alcohol in making some veterinary tinctures. 
 Exposed to the air, it oxidises and thickens from formation of 
 resin. Its composition is' Cjo Hjg. It is isomeric with various 
 essential oils, such as juniper, savin, citron, and nutmeg ; with 
 water, it forms three distinct hydrates ; with hydrochloric acid, 
 two artificial camphors. Digested with a small quantity of oil 
 of vitriol it yields the isomeric aromatic hydrocarbon, terebene, 
 recently iatroduced as a stimulating antiseptic. 
 
 Actions and Uses. — Oil of turpentine is a stimulant of the 
 vaso-motor sympathetic system. Poisonous doses are irritant and 
 narcotic. Mediciual doses are stiraulant, antispasmodic, and 
 anthelmintic ; in their passage out of the body they excite the 
 particular excretory channel by which they are got rid of, large 
 doses beiag cathartic, smaller doses diuretic and diaphoretic. 
 It is used externally as a counter-irritant, antiseptic, haemo- 
 static, and antiparasitic. Its actions and uses resemble those 
 of alcohol. 
 
 General Actions. — Applied to the skin, it causes heat, red- 
 
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STIMULANT, ANTISEPTIC, AND ANTIPARASITIC. 523 
 
 ness, vesication, and even ulceration. Swallowed, it is rapidly- 
 absorbed, and may speedily be detected in the chyle, breath, 
 and sweat, which have a strong terebinthinate flavour, and in the 
 urine, to which it imparts the odour of violets. It stimulates 
 the, sympathetic system, iacreases the action of the heart, and 
 raises blood pressure. Larger doses exhaust the irritability of 
 tiie sympathetic ganglia; the lungs are congested; carbonic acid 
 poisoning ensues, with symptoms of inebriation, muscular weak- 
 ness, dilated pupils, and delirium. Injected into the veins of 
 the horse, it causes fatal pulmonary congestion. Two drachms 
 produced in a dog staggering, cries, tetanus, failure of circula- 
 tion and respiration, with death in three minutes (Christison 
 on Poisons). Less rapidly fatal doses irritate and redden the 
 alimentary mucous membrane, cause vascular excitement, 
 ecchymosis of the air -passages, lung congestion, and hyper- 
 semia of the kidneys. It poisons Kce, worms, and other entozoa, 
 whether lodged ia the bowels, bronchial tubes, or skin. As an 
 antiseptic, although inferior to the members of the alcohol 
 series and the naphthas, it is superior to most other volatile 
 oils ; it arrests fermentation and putrefaction, and destroys 
 vibrios and bacteria. 
 
 Medicinal Uses. — It is administered to the several domestic 
 animals in many diseases. Amongst horses it is often service- 
 able in indigestion, flatulence, and overloading of the stomach, 
 and even in some cases of diarrhoea, owing its good results to 
 its stimulant, antiseptic,' and invigorating effects on the mucous 
 and muscular coats of the intestine. It is second only to 
 alcohol in sustaining the action of the heart, relieving internal 
 congestion, promoting skin and kidney secretion, and restoring 
 appetite in influenza,' congestion and inflammation of the lungs, 
 and in prostration from overwork, cold, or disease. In scarla- 
 tina, purpura, typhoid fever, in passive haemorrhage, especially 
 from the lungs, stomach, and bowels, and in excessive or morbid 
 mucous discharges, it is sometimes superior to alcohol, for besides 
 stimulating the heart, it braces dilated, weakened vessels, and 
 exerts haemostatic and antiseptic properties. As a prompt 
 antispasmodic in colic, it is usually conjoined with aloes or oil, 
 and with laudanum. Its combination of stimulant and anti- 
 septic, diuretic and diaphoretic actions, renders it useful in aU 
 animals in rheumatism, in which it is employed alike internally 
 
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524 OIL or TURPENTINE : 
 
 and externally. Its cathartic action is uncertain when given 
 alone, but, in combination with aloes, oils, and salines, it is of 
 service in all veterinary patients in overcoming long-standing 
 and obstinate torpidity of the bowels, and for such cases it is 
 given daily both by the mouth and rectum. Conjoined usually 
 with salines, oil of turpentine sometimes relieves suppression of 
 urine and dropsy, especially when depending upon cardiac and 
 vascular weakness, and unconnected with kidney irritation. 
 Lilte most other diuretics, its continued or excessive use pro- 
 duces strangury, and sometimes even hsematuria. Its dia- 
 phoretic action is brought out by administering it ■vs^ith am- 
 monium acetate solution, or sweet spirit of nitre, and keeping 
 the patient warm and well clothed. When ozonised by ex- 
 posure to the air, it is an antidote to phosphorus, convertiag 
 it into an insoluble spermaceti-like substance. It prevents the 
 necrosis of the jaw and other serious disorders so apt to occur 
 in persons working with the ordinary phosphorus (Dr. Letheby). 
 Personne gave phosphorus to iive dogs, and all died. To five 
 others, an hour or two after similar lethal doses, he gave tur- 
 pentine, and only one died. /Of five dogs to which he gave 
 turpentine immediately after the phosphorus, only one died 
 (Dr. Einger's Handbook of Therapeutics). 
 
 In cattle practice, full and reiterated doses are valuable in 
 hoven. Chronic diarrhoea and dysentery, especially when 
 accompanied by fiatulence, are often benefited by a few doses 
 conjoined with lime-water, aromatics, or opium. In the second 
 stages of contagious pleuro-pneumonia, one or two ounces, given 
 every three or four hours, usually abate febrile symptoms, ex- 
 cessive temperature, cough, and difficulty of breathing ; but 
 these results are produced with fully equal certainty by smaller 
 doses of whisky. In puerperal apoplexy it is advantageously 
 given with ammonia carbonate ; in puerperal peritonitis with 
 laudanum, and in such cases is also applied externally. Fre- 
 quently repeated doses, conjoined with iron salts, check that 
 form of hsematuria in cattle popularly known as red-water. A 
 useful antidote for the* septicemia and congestion of blackly 
 amongst young cattle or sheep consists of oil of turpentine dis- 
 solved in mucilage, white of egg, or milk, conjoined with 
 potassium chlorate, or sodiimi sulphite, and given to the sur- 
 vivors every second morning for ten days. Used either alone 
 
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VERMICIDE PKESCRIPTIONS. 525- 
 
 or witli iron chloride tincture, turpentine is often serviceable in 
 chorea and epilepsy in dogs, in such cases sometimes doing 
 good by destroying worms. 
 
 To bring away intestinal worms, turpentiae should be given 
 after the bowels have been emptied by a cathartic, after the 
 patient has had a long fast, and CQujoined with a laxative. 
 Large and sometimes reiterated doses are often required to destroy 
 tapeworms; unless the head is expelled the parasite grows again. 
 For horses male shield fern may be used along with the tur- 
 pentine. A few doses of copper sulphate, continued for several 
 morniags, are a valuable help. For tapeworm in dogs areca 
 nut is, however, safer and more effectual. To dislodge ascarides 
 from the rectum, turpentine enemata are very effectual. For 
 removing the bronchial filarise of calves and young cattle, a 
 teaspoonful of oil of turpentine is sometimes poured into the 
 nostrils, often causing much irritation, and occasionally choking 
 the patient. But the volatile oil is so rapidly absorbed and 
 diffused that it is equsiUy destructive to the thread worms, and 
 much safer for the calf, when given in a state of dilution by 
 the mouth ; two or three doses, at intervals of two or three 
 days, seldom, faUing to effect a perfect cure. FilariEe similarly 
 invade the air-passages of lambs, giving rise to paroxysms of 
 cough and rapid wasting. Turpentine here also proves the, 
 most reliable remedy. Dr. Crisp, in his Bath and West of 
 England prize essay on The Lamh Disease, advises " Epsom salt, 
 six ounces ; nitre, four ounces ; boiling water, three pints ; add- 
 ing, when milk-warm, four ounces oil of turpentine and half 
 an ounce bole armeniac ; mix well, and give three to four 
 tablespoonfuls every other day. Another formula consists of 
 common salt, three pounds ; powdered ginger and nitre, half a 
 pound each; dissolved in three gallons warm water, with 
 twenty-four ounces oil of turpentin'e added when nearly cold. 
 The dose for lambs between four and six months old is two 
 ounces. These quantities suffice for 1 6 lambs." A good mix- 
 ture for coughing, purging, delicate lambs, is made with two 
 ounces each of oil of turpentine, powdered gentian, and laudanum, 
 dissolved in a quart of linseed tea or lime water. This will make 
 ten or twelve doses. Where bronchial filarise prevail, three or 
 four doses of such vermifuge mixtures, given at intervals of a 
 fortnight throughout July and August, not only ward off 
 
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526 OIL OF TURPENTINE 
 
 attacks of thread and tape worm, but diminisli the scouring and 
 mortality so common amongst lambs when first put upon roots. 
 A few drops of a solution made with one of turpentine and 
 eight of milk placed in the mouth kill the filariae which 
 cause gapes in poultry. A dressing of one part of turpentine 
 and two of bland oil, sprinkled round the outside of the throat 
 of ailing chickens is in part absorbed, and helps the destruction 
 of the parasites. 
 
 Externally, oil of turpentine is used as a stimulant, anti- 
 septic, and counter-irritant. Applied to the skin of horses, it 
 causes almost immediately topical irritation and restlessness, 
 and if used largely and repeatedly, it is besides apt to blemish. 
 On the less sensitive hides of cattle it often usefully hastens 
 and increases the activity of other vesicants ; and, conjoined 
 with oils, mustard, and ammonia, helps to control inflammation 
 of the air-passages, bowels, and joints. A piece of flannel 
 wrong out of hot water and sprinkled with the turpentine oil 
 is often used. As with other external irritants, a continuous 
 moderate action is more serviceable than a single violent effect. 
 As a stimulant it is applied in rheumatic swellings, more 
 particularly of cattle and sheep ; in sptains and bruises, after 
 the first pain and tenderness have been subdued by fomentation; 
 in overcoming congestion arising from frost-bite, which is not 
 uncommon in the limbs of horses used for night -work; in 
 promoting more vitality in old sores, sitfasts, in the trouble- 
 some chronic abscesses occurring about the heels of heavy 
 draught horses ; in dry gangrene of dogs' ears ; and in tedious 
 foot-rot in sheep. In such cases it is used mixed with two 
 or three parts of bland oil or glycerin. A similar mixture 
 destroys lice and other skin vermin. It is often added to staves- 
 acre, tobacco, and other antiparasitic solutions. Held in anti- 
 pathy by most insects, it enters into the composition of various 
 mixtures used by shepherds to protect their flocks from fly and 
 to kill maggots. Such a dressing is made by mixing in a pint 
 of water or whey three ounces of oil of turpentine, one ounce 
 each of oil of amber and mucilage, and one drachm corrosive 
 sublimate. Turpentine is contra-indicated either for internal 
 or external use where there are acute febrile symptoms, violent 
 action of the heart, or irritation or inflammation of the bowels 
 or urino-genital organs. 
 
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COUNTEfi-IREITANT, ANTISEPTIC, AND ANTIPARASITIC. 527 
 
 Doses, etc. — For horses and cattle as a stimulant and anti- 
 spasmodic, the dose is fgi. to fgij. ; as a diuretic, fgss. to fgj. ; 
 ,as an adjuvant cathartic or anthelmintic, about fgij. It is 
 combined with aloes in solution, with castor or linseed oUs, 
 with iron salts, quassia, gentian, or other bitters. Big adult 
 cattle wiU take these doses increased to the extent of a third 
 or even a half. I have repeatedly given cattle suffering from 
 hoven four ounces of oil of turpentine with impunity. Sheep 
 and pigs take f 3i. to f 3iv. ; dogs, TTl_xxx. to f 3ij. It is ad-' 
 ministered dissolved , in ether or bland oils ; shaken up with 
 linseed gruel or nulk, or made into an emulsion with mucilage 
 or eggs. Aromatics, bitters, or flavouring matters are sometimes 
 added. For clysters, turpentine is usually diluted with fifteen 
 or twenty parts of mild oil, or with a little oil or mucilage for 
 solution, and then mixed with twenty to thirty parts of soap 
 and water ; in diarrhcEa or dysentery it is mixed with laudanum 
 and starch gruel. For external purposes it is usually applied 
 with linseed oil, soap, ammonia, or mustard. A stimulating- 
 mixture is made with equal quantities of bland oil, soft soap, 
 and oil of turpentine. Two or three ounces of oil of turpentine 
 added to a pint of the ordinary soap liniment make a useful 
 stimulating embrocation. A smart blister for cattle is prepared 
 with haK a pint each of oil of turpentine, medicinal ammonia, 
 and linseed oil. As an embrocation for rheumatism, one part 
 each of oil of turpentine and laudanum is mixed with two or 
 three of linseed oil or soft soap. For dogs a prompt blister is 
 got by mixing with three ounces of any bland oil an ounce 
 each of oil of turpentine and medicinal ammonia. 
 
 Terebene is a cheap and useful stimulant, antiseptic, and 
 deodoriser, serviceable for unhealthy indolent wounds ; it has 
 no injurious irritant action ; as it evapprates it leaves on raw 
 surfaces a protecting film ; it is applied to most of the pur- 
 poses for which carbolic and salicylic acids have been recom- 
 mended. 
 
 III. Eesin, Eosnsr, Eesina. 
 
 The crude turpentines contain 70 to 90 per cent of resin 
 or colophony. The commercial article is mostly prepared from 
 the American turpentine. When the turpentine is distilled 
 with a little water, which the resin retains, the residue is the 
 
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528 WOOD AND COAL TAR 
 
 yellow or white resin ; when deprived of water, it becomes trans- 
 parent resin, and when rather more strongly heated, it is still 
 clearer, and is tnown as black or fiddlers' regin. Eesias are yel- . 
 low or dark brown, of variable transparency, accordiag to the pro- 
 portion of water they contain; are inflammable, of a faint turpen- 
 tine odonr and taste, have the spec. grav. 1-07 ; are iasoluble in 
 water, partially soluble in alcohol, readily dissolved in ether, 
 volatile oUs, and caustic alkalies ; unite with fats, wax, and 
 spermaceti ; and are largely used in the manufacture of yellow 
 soap. Eesia chiefly consists of pinic acid (H Cgo Hgg Oj), a 
 little sylvic acid, isomeric with pinic acid, and a neutral resin. 
 The Bordeaux resin or galipot contains, besides the isomeric, 
 pimaric acid. 
 
 Actions and Usesr — ^^Eesin is a gentle stimulant, diuretic, 
 and astringent. Two to four ounces swallowed by horses or 
 cattle cause diuresis. It is added to diurel^ic masses to increase 
 their consistence. Externally, it is used as a stimulant, astriu- 
 gent, and styptic. In castration, a few grains applied to the 
 severed end of the spermatic cord, when melted by contact of 
 the hot iron, help to seal bleeding vessels. It is largely used to 
 impart firmness and adhesiveness to stimulant plasters. The 
 simple digestive ointment is made with equal weights of resin, 
 yellow wax, lard, and almond oil, melted with gentle heat, 
 strained while hot through flannel, and stirred constantly while 
 it cools. This simple ointment is much used as a lubricant 
 and mild stimulant for wounds, ulcers, blistered surfaces, and 
 for giving bulk and consistence to other ointments. 
 
 IV. Tae, Oil oi" Tae, and Pitch. 
 
 Tar, or Pix liquida, is a dark brown, thick, viscid, aromatic,' 
 bituminous liquid obtained from the wood of Pinus sylvestris 
 and other pines by destructive distillation {Brit. Phar) Mineral 
 or Barbadoes tar has already been noticed under petroleum (p. 
 445). Coal tar, obtained from the destructive distillation of 
 coal, is a by-product in the manufacture of gas. There are 
 two sorts of wood tar, that got from such hard Exogens as oak, 
 birch, and ash, as the residue in the making of pyroligneous acid, 
 or of charcoal for gunpowder ; and that imported from Stock- 
 holm, Archangel, and America, got from the Coniferse by roasting, 
 
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STIMULANTS, EXPECTORANTS, AND VERMICIDES. 529 
 
 or distiUatio per descensum. Billets of the wood, branciies, and 
 refuse timber, are stacked m pits dug on a bank or inclined 
 plane ; tbe beaps are closely covered witb turf ; fire is applied ; 
 and whilst smothered combustion proceeds, as iu the makiag of 
 charcoal, tar, yielded to the amount of seven to ten per cent, 
 runs into iron pots placed at the bottom of the pit, and 
 thence by spouts into the barrels ia which it is exported. This 
 process is being superseded by the distillation of the refuse 
 wood in cast-iron stills, and nearly double the yield of tar is 
 thus obtained. Tar is soluble in ether, oils, and alkaline solu- 
 tions, but not in water, which, agitated with it, acquires, how- 
 ever, its odour, taste, and brown colour, and constitutes tar 
 water, once regarded a valuable medicine. Tar is a complex 
 substance : it contains impure pyroligneous acid, including 
 acetic acid, acetone, and methylic alcohol; a series of liquid 
 hydrocarbons sparingly soluble in water, with crystals of the 
 pungent irritating pyrocatechin ; that made from hard woods 
 contains creasote. When tar is distilled, oil of tar, oleum picis 
 Hquidae, a red-brown, limpid, impure oil of turpentine, passes 
 over, and there remains pitch or pix nigra, a black, bitumiaous 
 substance, solid and brittle, with a shining fracture, dissolved 
 by the same solvents as tar, and consisting of modified resin. 
 
 Actions and Uses. — Tar is stimulant, diuretic, diaphoretic, 
 expectorant, and vermicide. It often' benefits chronic cough in 
 hard-worked horses, and in troublesome eczema in all animals 
 is alternated or conjoined with arsenic. It is not much used 
 internally. Externally, it is a capital stimulant for thrush 
 and canker of the horse's foot, being used either alone or 
 with copper sulphate, sulphuric or nitric acid. Mixed with 
 equal parts of fatty matters, or with cow-dung, so as to give 
 proper consistence, it forms a capital stopping for horses' feet, 
 keeping the hoof moist and soft, and stimulating secretion of 
 horn. For maintaining the horn in a tough, elastic, and healthy 
 state, Mr. Miles, in his useful pamphlet on the Foot of the 
 Horse, recommends a quarter of a pound each of tar, bees' wax, 
 and honey, a poimd and a half lard, and three ounces glycerin : 
 melt the lard and bees' wax together, stir in the lard, tar, and 
 glycerin, and continue to stir untO. the mass begins to set. Tar 
 is serviceable in foot-rot in sheep, and has the several advan- 
 tages of stimulating and deodorising unsound noisome textures, 
 
 2m 
 
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530 VALEEIAN AND VALERIANATES 
 
 and preventing attacks of flies. Undiluted, it is the test 
 remedy for chronic mallenders, being preferable to carbolic acid 
 (Professor Williams) ; it dries up grease in horses and other 
 forms of eczema, and checks ringworm in calves. It is used 
 for securing wounds, binding up broken horns, and making 
 adhesive plasters. 
 
 Oil of tar is sometimes used instead of oil of turpentine. 
 Containing various empyreumatic substances, it is an admirable 
 antiseptic, cures mange and scab, destroys' other parasites, is 
 sometimes added, to sheep dips, but has the disadvantage of 
 discolouring the wool, does not mix well with the other ingre- 
 dients, whilst large doses or strong solutions are apt to become 
 absorbed and cause pulmonary congestion. 
 
 Pitch is used in veterinary practice as a mild stimulant 
 in such diseases of the horse's feet as thrush, canker, and sand- 
 crack ; in foot-rot in sheep ; for giving adhesiveness to plas- 
 ters ; whilst its fumes are occasionally disengaged as a disin- 
 fectant by inserting a red-hot poker into an iron pot containing 
 the pitch. 
 
 VALEEIAlSr BOOT. 
 
 Valerianse Eadix. The dried root of Valeriana ofScmalife. 
 From plants indigenous to and also cultivated in Britain; 
 coUeeted in autumn, wild plants being preferred. — Brit. 
 Phar. 
 
 Nat. Ord. — Valerianacese. Sex. Syst. — Triandria Monogynia. 
 
 The ofS,cinal valerian consists of the short yellow-white 
 tuberous root stock, with the attached radicles, which are about 
 the thickness of a quill, two or three inches in length, and of 
 a yellow-brown colour. It has a penetrating odour, which 
 becomes stronger and even foetid by keeping, and a bitter, 
 acrid, camphoraceous taste. It contains 12 '5 per cent of 
 resinous extract, 6 of resin, 1 of watery extract, with a 
 little sugar and maKc acid, and 1 to 2 of a clear, vola- 
 tile oil, which yields, when distOled, 2 5 per cent of valerene 
 '(C5 H3), resembling oil of turpentine, several oxygenated bodies 
 of the constitution of camphor, and about 5 per cent of valeri- 
 anic acid (H Cj Hg Og), a colourless, limpid, acrid liquid, with 
 the pungent odour and taste of valerian, sparingly soluble in 
 
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DIFFUSIBLE STIMULANTS AND NERVE TONICS. 531 
 
 water, but soluble in alcobol and ether, and obtained artificially 
 by tbe oxidation of fusel or grain oil, otherwise known as amylic 
 alcohol (Cg Hi2 0) (Eoyle). 
 
 Actions and Uses. — Valerian is aii excitant of the cerebro- 
 spinal system, a diffusible stimulant, antispasmodic, nerve tonic, 
 and anthelmintic. It resembles assafcetida, the other gum resins, 
 camphor, and the Sumbul or musk root imported from Eussia 
 and India, and produced, by an umbelliferous plant. It has 
 little effect on "horses or cattle, eren in doses of several 
 ounces. In dogs and cats it causes giddiness, reeling gait, and 
 symptoms of intoxication. It, is occasionally given to dogs to 
 aUay nervous irritabUit/, and relieve chorea and epilepsy ; but 
 little dependence can be placed on it. It attracts and excites 
 cats, developing their amatory propensities ; but this results not 
 from any special nervous influence, but rather from its suggest- 
 ive odour. Eepeated doses are stated to improve the appetite, 
 and produce tonic effects. Its pungent volatile oil imparts 
 feeble vermifuge properties, and is chiefly excreted by the skin 
 and kidneys. 
 
 Dpses, etc. — If used for horses or cattle, it' may be given in 
 
 ,c[uantities of Jij. to giv.; for dogs, 3i. to 3ij-; for cats, grs. xx. 
 
 to grs. Ix., given in powder or infusion several times a day ; 
 
 conjoiaed with ginger, gentian, or camphor, or dissolved in 
 
 spirit of ammonia. 
 
 Sodium Valerianate, Sodse Valerianas or Valerianate of 
 Soda (Na Cg Kg Oj), is obtained by oxidising fusel oil, by heat- 
 ing it with potassium bichromate and sulphuric acids, and 
 saturating the distilled liquid with solution of soda. It is a 
 white solid, with a greasy, soapy feel, a sweet, nauseous taste, 
 and a strong odour of valerian, developed by moistening it with 
 sulphuric acid. Dissolved and heated with zinc sulphate 
 solution it yields zinc valerianate, which crystallises in snow- 
 white tabular plates, has a slight odour of the acid, and a taste 
 resembling its metallic base. Sodium and zinc valerianates 
 are nerve tonics. Four or five grains are given to dogs, and 
 one or two grains to cats, without success, in chorea and 
 epilepsy, but, are believed to soothe in nervousness and hysteria. 
 The tonic and antispasmodic virtues ascribed to the conjunction 
 of valerian and the metals are probably more certainly obtain- 
 able by prescribing with the metallic salts the oil of valerian. 
 
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532 VERATRTJM — WHITE HELLEBORE 
 
 which concentrates the properties of the drug. Valerianic acid 
 itself resembles acetic acid (Eoyle). 
 
 Iron Valeeiajjj ate is made by mixing, in the cold, solu- 
 tions of sodium valerianat| and iron sulphate. The precipitated 
 valerianate dries as a loose, light red powder, with a faint taste 
 and odour of the acid. As a tonic for the smaller domesti-,, 
 cated animals, and a remedy in chorea and epilepsy, it is used in 
 similar doses, and is stated to be more certain than the zinc salt. 
 
 Quinine Valerianate, prepared by the nlutual decomposi- 
 tion of sodium valerianate and quinine sulphate, occurs in silky, 
 needle-like crystals, which have. a bitter taste of quinine and a 
 slight odour of valerian, are decomposed by acids and by tem- 
 peratures exceeding 120°, and are dissolved with difficulty in 
 water, but readily in rectified spirit and ether. As a nerve 
 tonic two or three grains are given to dogs and cats in chorea, 
 and in those troublesome nervous disorders which accompany 
 and follow distemper. On account of its bitterness, it is 
 administered in piU, often with a few grains of camphor. 
 
 VEEATEUM. 
 
 Veratri Albi Ehizoma. Whilie Hellebore Ehizome, Dried 
 Ehizome of Veratrum album, 
 
 Nai. Ord. — ColoMcacese or Melanthacese. Sac. Syst. — Polygamia ' 
 Monoecia. 
 
 White hellebore is a native of the Alps and other moun- 
 tainous regions of Europe. The rhizome, or underground stem, 
 occurs in cylindrical pieces, two to four inches in length, an 
 inch in diameter, usually with the radicles attached to their 
 lower surface, whilst on the upper remain the scales of the 
 dried leaf-sheaths. Externally, they are gray or brown and 
 rough; internally, grayish-white and rather fibrous. When 
 dried they have little odour,, but a bitter, acrid taste. Vera- 
 trum viride, the green or American hellebore, is collected in 
 autumn in Canada and the States. The bitter acrid rhizome 
 is generally met with in slices or small frfigments. In common 
 with such allied species as cevadilla or sabadilla, and Colchieum 
 autumnale, white and green hellebores are stated to contain 
 the pale gray, acrid, crystaUisable, alkaloid veratrine or veratria 
 
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IRRITANT AND SEDATIVE. 533 
 
 (C32 H52 N2 Og) occurring in combination with sabadillic or 
 cevadic acid. Eecent observations however throw some doubt on 
 the presence of veratrine, but have discovered another alkaloid 
 — jervine, in combination with jervic acid, and an amorphous 
 bitter principle, veratramarin (Fliickiger). 
 
 Actions and Uses. — ^White hellebore and veratrine are 
 irritants causing sneezing, vomiting, and purging. Poisonous 
 doses besides depress the functions of the spinal cord, cause 
 muscular paralysis, ending in death by asphyxia. Carefully 
 regulated doses are nauseants and sedatives, are occasionally 
 used as counter-irritants, and to kill lice. The green or 
 American hellebore is 'scarcely so irritant ; both resemble 
 colchicum, and are allied to aconite, tobacco, and other' vaso- 
 motor depressants. 
 
 The prominent symptoms of hellebore poisoniiig are vomiting, 
 purging, depression and irregularity of the circulation, great pro- 
 stration, muscular spasm, followed by muscular paralysis. Wald- 
 inger states that two ounces of white hellebore cause in horses 
 slavering at the mouth, efforts to vomit, and relaxed bowels. ' 
 Eytz declares that one ounce induces purgation and gastric 
 derangement. Mr. Miller, Bradnich, in the Edinburgh Veteri- 
 nary Beview for 1863, records that a three-year-old filly acci- 
 dentally ate about two ounces of the powdered root, and in 
 half an hour was in much pain, frothing at mouth, attempting 
 to vomit, heaving at the flanks, with a full pulse, numbering 
 forty ; painful spasms, involving especially the muscles of the 
 neck, injection of the mucous membranes of the nostrils and 
 eyes, stiffness in walking, and after a few hours, partial 
 paralysis of the hind limbs. The animal was bled, and had 
 drachm doses of tannin given in starch gruel. In three hours 
 the sjTnptoms abated, gradual recovery took place, and in four 
 days the filly was again at work. The antidotes are demulcents 
 and mild laxatives, wjth diffusible stimulants to counteract 
 cardiac depression, and morphine to antagonise nausea and 
 gastric irritation.^ Such astringents as infusion of nut-gaUs or 
 solution of tannin, may also be given, as they form insoluble 
 compounds with any unabsorbed veratrine. 
 
 Some veterinary authorities consider that hellebore " power- 
 fully rouses the absorbent system " (Morton) ; and recommend 
 it for chronic cedema of the legs. As a sedative it is highly 
 
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534 water: 
 
 spoken of by Percivall ' and Morton, who prescribed it for 
 horses in doses of twenty to thirty grains, repeated every four 
 or iive hours ; but, unless in combination, its actions are 
 irregular, uncertain, and often violent. It was formerly used 
 m rheumatism and to control nervous pain, but has been 
 superseded by aconite. Externally, it is applied for destroying 
 lice, for smearing setons, and as an addition to blisters ; but it 
 must be used cautiously, as it is apt to irritate imduly, or get 
 absorbed and produce constitutional effects. Dogs are especially 
 liable to suffer in this way ; and liberal dressings of the oint- 
 ment were observed by Mr. Howard, to cause nausea, sometimes 
 vomiting, accelerated and weakened action of the heart, short, 
 catching, and moaning respiration, prostration, with death some- 
 times iu four hours. Congestion of the mucous membrane of 
 the stomach, lungs, and heart, was the notable post-mortem 
 appearance (Veterinarian, February 1873). 
 
 I)oses, etc. — As a sedative horses and cattle take of the 
 powdered rhizome 3ss. to 3i. ; sheep and pigs, grs. xx. to grs. 
 XXX. ; dogs, grs. ij. to grs. vi. It is given in bolus, or dissolved 
 in dilute alcohol, and repeated at intervals of three or four 
 hours. Externally, there are used the powder, a watery 
 decoction improved by a little spirit, and an ointment made 
 with one part of hellebore to eight of lard, and occasionally 
 applied with tar or sulphur dressings. 
 
 Magendie found that one grain of veratrine acetate killed 
 a dog in a few seconds when iajected into the jugular vein, 
 and in nine minutes when injected into the peritoneum. One 
 to two grains swallowed by dogs caused great uneasiness, 
 nausea, vomiting, violent purging, slowness of respiration, slow- 
 ness and irregularity of circulation, extreme prostration of 
 strength, spasmodic twitching of the voluntary muscles, 
 especially those of the extremities, and death usually amid 
 convulsions from paralysis of the respiratory muscles. 
 
 WATEE. 
 
 Aqua. Hydrogen Oxide or Monoxide. Hg 0. 
 
 Two volumes of hydrogen and one of oxygen in the pre- 
 sence of a light or an electric spark unite with explosive force. 
 
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HARD AND SOFT WATERS. 535 
 
 yielding two volumes of gaseous water or steam. It exists in 
 the solid, liquid, and gaseous forms. The familiar liquid is 
 transparent, neutral, colourless, odourless, and tasteless. A 
 minim weighs '91 grain: a fluid ounce, 437-5 grains. It is 
 the standard of comparison for specific gravities ; its specific 
 gravity being represented as 1 or 1000. It solidifies, freezes, 
 or crystallises at 32°, expanding and giving out latent heat; 
 it reaches its greatest density at 39-2°; it slowly volatilises 
 at all temperatures; at 212° it boils, rising in steam or gas, 
 and increasing in bulk 1700 times. A cubic inch of water 
 becomes a cubic foot of steam. When the solid ice melts, 
 heat is absorbed or becomes latent ; when the liquid water 
 boils, or gives off gas, still more heat is absorbed. A cubic 
 foot of water expanding into steam renders latent 1000° of 
 heat. The melting ice or evaporating water, thus abstracting 
 heat from bodies in contact with them, are valuable refriger- 
 ants. Water readily dissolves a variety of salts, gases, and 
 organic matters, and hence natural waters are scarcely ever 
 perfectly pure. They hold in solution common salt and other 
 chlorides ; calcium carbonate and other lime salts ; atmospheric 
 air and carbonic anhydride, which render good drinking-waters 
 sparkling, refreshing, and palatable, whilst the absence of such 
 gases accounts for the flatness and mawkishness of rain aiid 
 recently-distilled waters. Gases are more soluble in cold than 
 in hot water ; salines the reverse. Organic matters are present, 
 especially in river and marsh waters, cause them to spoil 
 rapidly, and occasionally ptoduce diarrhcsa and dysentery. In 
 suspension also occur such dangerous impurities as the germs 
 of various catching diseases, and the ova of parasites. The 
 solid constituents of drinking waters vary greatly. Glasgow 
 has from Loch Katrine the purest water supply of any large 
 city jxi the world, containing only f grain of organic matter 
 and 1^ grain of inorganic matters to the gallon. The water 
 of the Thames supplied to part of London contains about 3 
 grains of organic and - 1 6 grains of inorganic matters to the 
 gallon (Eoyle's Mat. Med,' 6th ed.) When the saline ingre- 
 dients exceed one-5000th part, the water is said to be hard, 
 and is unsuitable for many pharmaceutic and domestic pur- 
 poses ; it curdles or precipitates soap instead of forming with 
 it a froth or lather ; it is not so well liked by animals, and is 
 
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536 PURIFICATION OF WATER. 
 
 apt to cause diarrhoea and other digestive derangements, 
 especially in subjects unaccustomed to it. When the salts do 
 not amount to one-5000th part, the water is considered soft 
 Mineral waters are unfit for general use on account of their 
 undue proportion of mineral matters, or gases, or from their 
 heiag at a higher temperature than that of the locality ia 
 which they are found. The most common mineral waters are 
 those containing iron and salines. 
 
 Various methods are adopted for the piirifying of water. 
 Subsidence and decantation get rid of grosser mechanical par- 
 ticles, riltration through sand, charcoal, or gravel, removes- 
 organic and organised impurities. Oxidation gradually destroys 
 disagreeable or dangerous defilements ; hence a running stream 
 contaminated even by sewage, a few hundred yards lower down 
 may again become clear and wholesome. All^aUne permanga-v 
 nates, by similar oxidation, promptly destroy organic contamina- 
 tion. Boiling kills vegetable and animal matters, drives off 
 carbonic anhydride, and thus throws down calcium carbonate, 
 the cause of temporary hardness. Sodium carbonate or lime, 
 as in Clarke's process, diffused through hard water, which is 
 then allowed to sfittle, causes abstraction of carbonic anhydride 
 and subsidence of lime and magnesium carbonates, and also re- 
 duces the more permanent hardness caused by calcium sulphate. 
 For delicate chemical aad pharmaceutical purposes aqua distil- 
 lata is requisite, and distillation leaves behind all impurities 
 except a trace of organic matters and one to two per cent 
 per volume of air. Such distilled or other pure water is under- 
 stood to be used when ia this work " watet " is ordered for 
 pharmaceutic purposes. 
 
 Actions and Uses. — ^Water is nutrient, diluent, evacuant, and 
 detergent. Hot water is an auxiliary emetic, cathartic, and dia- 
 phoretic ; topicaUy it is emollient and anodyne ; and at still 
 higher temperatures is an active irritant. Cold water is refrigerant^ 
 and tonic ; it is applied to wounds and bums in the form of the 
 familiar water dressing ; and at low temperatures it abstracts 
 heat, and antagonises local congestion and hsemorrhage. 
 
 Water is an imfaUing constituent of all living tissues, and is 
 essential to the support of animal Hfe. It constitutes a large pro- 
 portion of every kind «f food, rendering it more easily digested 
 and assimilated. It supplies the loss of fluid constantly talking 
 
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water: nutrient, diluent, and evacuant. 537 
 
 place by the skin, lungs, and kidneys. It promotes tissue meta- 
 morphosis and increases excretion. Insufficient and excessive 
 supplies of water are alike injurious ; but animals in health 
 and with constant free access to water rarely take more than 
 is good for them. Excepting for a few hours previous to any 
 -great exertion, and when much overheated and prostrated,' it is 
 unnecessary to restrict the water supplied to horses. Indeed, 
 in most weU-managed modem stables a small amount of water 
 is constantly at the horse's head, and less is a,ctually drunk in 
 the twenty-four hours than when the animal is allowed to slake 
 his thirst three or four times daily. A moderate amount of 
 water is essential for digestion ; an excessive quantity injuri- 
 ously dilutes the gastric juice. Horses, especially if tired and 
 hungry, should have a few swallows of water, or, better still, a 
 bucket of gruel, before feeding. A copious draught of water, 
 taken immediately after a rapidly eaten meal, hurries the im- 
 perfectly digested food too rapidly into the large iatestines, 
 where it is very apt to set up colic and inflammation. In feb- 
 rile and inflammatory diseases, water in moderation is a valu- 
 able diluent, febrifuge, and evacuant ; and is perfectly safe and 
 greatly more palatable and satisfying When given cold than in 
 the usual -tepid state.. As with human patients, troublesome 
 thirst is often appeased by faintly acidulating the water with 
 hydrochloric acid, and sometimes rendering" it feebly bitter with 
 a little cascarilla or quassia infusion, additions which', favour 
 secretion of the alkaline saliva. Horses disposed to be greedy 
 of water, and especially those with damaged wind or liability 
 to acidity or diarrhoea, should be supplied with small quantities 
 and often, whil'st further to relieve thirst the food should be 
 damped. After a cathartic dose, and until the physic has 
 ceased to operate, even moderate draughts of cold water in many 
 horses cause griping. Calves and lambs, feverish and purging, 
 soon kUl themselves if they have free access to water. 
 
 As a diluent, water mechanically relieves choking and 
 coughing ; dilutes corrosive and irritant poisons ; assists the 
 action of diaphoretics, diuretics, and purgatives ; is mainly 
 got rid of by the kidneys, lessening acridity of the urine, and 
 augmenting its watery and solid parts. Tepid water is a con- 
 venient auxiliary emetic for dogs and pigs. Injected into the 
 rectum, warm water allays irritability of the bowels and'urino- 
 
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538 HOT WATER, DETEEGENT AND EMOLLIENT. 
 
 genital organs, and promotes the action of the bowels. Injec- 
 tion of cold water checks bleeding, produces general reaction, 
 and occasionally expels ascarides. Injected into the vagina, it 
 stays the discharge of blood or of leucorrhoea. A good scrubbing 
 with tepid water/ and soaji is a very essential preliminary to the 
 successful treatment of mange or scab. It removes the scales 
 which abound, especially ia inveterate cases, and the subsequent 
 dressings hence more readUy get at and destroy the parasites. 
 
 Water is the important constituent of most emollients. 
 Hot fomentations relieve tension, tenderness, and pain ; moisten, . 
 soften, and relax dry and irritable surfaces, Applied early,, 
 they control or prevent congestion or inflammatory action of 
 bruises, strains, and severely contused wounds. Mainly by 
 reflex action, their application externally often soothes internal 
 parts which have been irritated or inflamed. Thus, fomenta- 
 tions allay the pain of colic and inflammation of the bowels. 
 Steaming of the head and throat, in like manner, often relieves' 
 catarrh, sore throat, and strangles. Such soothing vapours, 
 medicated, if need be, by laudanum, belladonna, ether, vinegar, 
 sulphurous acid, or alkaliae hypochlorites, are readily evolved 
 from a weU-rmade bran mash, placed in a roomy nose-bag, or 
 by holding the head over a bucketfiJ. of water, from which 
 steam is driven off by plunging a hot iron into it at short in- 
 tervals. Several folds of lint or tow, saturated with hot water, 
 and covered with oiled silk or gutta-percha cloth to retard 
 evaporation, or a sheet of well-soaked spongio-pUine, are 
 frequently substituted for fomentations and poultices, and 
 are usually preferable, especially to the poultices, on accoimt 
 of lightness, cleanliness, and less tendency to sodden and injure 
 adjacent parts. Water nearly boiling is a prompt and powerful 
 cdunter-irritant, especially useful in cattle practice.- It is laved 
 over the part either with a sponge or piece of flannel or soft 
 rug. When applied to the chest or abdomen of horses or cattle, 
 several folds of thick woollen horse-rug are sometimes placed 
 round the patient, and nearly boiling water from time to time 
 poured amongst the folds of the rug. The extensive counter- 
 irritation thus rapidly developed, in careful hands does not 
 blemish, and frequently proves of service in the first stages of ■ 
 pneumonia and pleurisy, colic, enteritis, peritonitis, and obstinate 
 constipation both of horses and cattle. 
 
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COLD WATER, REFE,IGEEANT AND STIMULANT, 539' 
 
 Cold -water is a useful refrigerant. When the acute con- 
 gestion, heat, and tenderness of bruises, strains, and other such 
 injuries, have been so far abated by hot applications, cold exerts 
 wholesotne, refrigerant, tonic, and constringing effects. Calico 
 bandages, constantly wetted, relieve chronic strains, jars, and 
 windgaUs in the legs of horses.' The cold water treatment is 
 also serviceable in broken knees, open joints, and circumscribed 
 burns and scalds ; such wounds should not, however, be 
 directly wetted, but kept scrupulously covered by folds of 
 antiseptic wadding constantly wetted. Such continuous irriga- 
 tion is readily effected through a small vulcanised india-rubber 
 pipe brought from a supply tank on a higher level. Cold 
 water similarly supplied also keeps at low temperature the 
 swabs round the coronets and feet of horses suffering from 
 laminitis. Cold water dashed over the head and neck is a 
 powerful stimulant serviceable' in megrims, sunstroke, phrenitis, 
 convulsions, syncope, and the later stages of puerperal apoplexy 
 in cattle, as well as in poisoning with alcohol, chloroform, 
 opium, and prussic acid, and for encouraging respiration in 
 young animals . that breathe tardily at birth. The shock is 
 increased when very cold water is used, and when it falls on the 
 patient from a height of several feet. Ice in smaU fragments 
 in a bag or bladder exerts similar but more intense effects, and 
 is serviceable in inflamed and prolapsed uterus and rectum, 
 and in those violent bleedings which occur at the time or 
 shortly after parturition. But care must be taken that vascular 
 parts are not kept too long at such a reduced temperature as 
 to interfere with their nutrition. Two parts of ice mixed with 
 one of salt form a powerful freezing mixture of the temperature 
 -4°, and are applied to prevent too sudden rise of temperature 
 and gangrene in frost-bite, to arrest circumscribed congestion 
 and inflammation, to check bleeding, and to stop convulsions. 
 Four or five minutes' contact with the skin removes sensation, 
 so that opening of abscesses, neurotomy, and such operations, 
 can be performed without pain ; but for inducing local 
 anaesthesia, ether spray is preferable. Dr. Chapman has 
 taught that the ice-bag applied along the back and loins " not 
 only exerts a sedative influence on the spinal cord, but also on 
 those nervous cehtres which preside over the blood-vessels in 
 an parts of the body ; it partially paralyses them." It appears 
 
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540 COLD, HOT, AND, VAPOUR BATHS 
 
 to diminish muscular tension, sensibility, and Secretion, and hence 
 has been used in tetanus, chorea, epilepsy, cramps, in neuralgic 
 pains, and in inordinate discharges from the bowels or kidneys. 
 
 Baths are important alike for the preservation of health and 
 the cure of disease. As in human medicine, they are used of 
 varying temperature. Cold baths range from 36° to 60°, 
 teraperate from 75° to 85°, tepid from 85° to 92°, warm from 
 92° to 98°, hot from 98° to 112° ; the vapour bath, especially 
 if the animal is to breathe the heated air, should not exceed 
 120°. Few complete veterinary baths are met with in this 
 country, except in some training establishments, at the Eoyal 
 Veterinary College at Camden Town, and at Mr. Thomas 
 Dollar's Hospital at Manchester Street, Manchester Square, 
 London, where the arrangements for hot, cold, and vapour 
 baths are particularly good. Tepid baths cleanse the skin, 
 promote perspiration, allay thirst, and are grateful -to tired and 
 heated horses. Hot baths stimulate the skin, incite perspira- 
 tion, raise temperature, and when long continued, quicken and 
 enfeeble the pulse, retard oxidation, and impede electric 
 currents through the nerves (Ringer). They soothe animals 
 subjected to severe muscular exertion, relieve colic and cramps, 
 benefit chronic skin disorders, arrest colds and attacks of weed, ' 
 promote the excretion of noxious matters, and thus prevent or 
 alleviate rheumatism and various forms of blood-poisoning. 
 Cold baths abstract heat or prevent its excessive formation, are 
 tonic and stimulant. Under proper control, they are useful in 
 febrile cases, chorea,, and convalescence from acute disease. 
 As curative agents, they should rarely be continued for more 
 than three or four minutes, whilst healthful reaction is 
 encouraged by careful drying, hand-rubbing, clothing, and, if 
 need be, by stimulants. 
 
 Vapour, Eoman, or Turkish baths, when followed, as they 
 shordd be, by cold affusion, combine most of the advantages of 
 hot and cold baths. They are less depressing than the hot, 
 and produce less nervous shock than the cold bath. They 
 should not exceed the temperature of 120°. They promptly 
 cleanse the skin, evoke perspiration, stimulate circulation, and 
 increase both the destruction and construction of tissue. They 
 are specially useful in chronic cough, dyspepsia, want of appe- 
 tite, rheumatism, laminitis, in the shivering cold stage of fever. 
 
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VALUABLE HYGIENIC AMD CURATIVE AGENTS. 541 
 
 and in disorders depending upon Wood contamination. Pro- 
 fessor Gamgee thus strongly sets forth their advantage : — " I 
 unhesitatingly say that we have in the therniEe the most 
 effectual diaphoretic, the most active depurant, and the most 
 effectual means of inducing a healthy reaction that we have yet 
 had at our disposal. It is a great addition to our therapeutic 
 means. We needed a satisfactory means of acting on the skin 
 of the lower animals in febrile and other diseases, and we here 
 have it " {Our Domestic Animals in Health and Disease). ' 
 Where proper baths cannot be obtained, many of their curative 
 advantages are secured by rapidly sponging the patient with, 
 tepid, hot, or cold water. Noxious and irritable matters are 
 removed from the skin, circulation is equalised, excessive heat 
 reduced, spasm counteracted. In febrile cases, whether in 
 horses or cattle, the temperature of the water at first should 
 not be less than 80° or 85°; the sponging should not occupy 
 more than three minutes ; the animal should be wisped dry 
 and immediately clothed. Within two or three hours the 
 operation may be repeated, especially if the temperature rises 
 again to 103° or 104°; after the first or second sponging, 
 temperate water at 60° or 65° may be used; and antiseptics 
 and stimulants given internally. Such hydropathic treatment 
 is especially suitable for that large class of eases above noted 
 as being benefited by the vapour bath. Wet packing, either 
 with tepid or cold water, is not adopted with veterinary 
 patients, and is seldom so serviceable as the sponging or bath, 
 
 WAX. 
 
 Many plants produce wax resembling that furnished from 
 the glands on the ventral scales of the bee ; but bees' wax is 
 an animal secretion, and is produced by bees fed exclusively 
 upon pure sugar. The comb, after removal of the honey, 
 when pressed, fused in boiling water, strained, and poured 
 into moulds, constitutes the' yellow wax, or cera flava. 
 This has a dull yellow colour, a granular fracture, a slightly 
 sweet and pleasant taste, but no odour or greasiness ; it is 
 insoluble in cold rectified spirit, but entirely soluble in oil of 
 turpentine. YeUbw wax, purified by melting with steam, 
 straining, and decolorising by exposure in thin ribbons for one 
 
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542 WAX, DEMULCENT AND EMOLLIENT. 
 
 or two weeks to air and sunshine, loses colour and odour, and 
 becomes white wax, or cera alba. Wax has the specific gravity 
 •960 to '965, is tough and solid, insoluble in water, soluble in 
 fixed and volatile oUs, and iu about twenty parts of boiling 
 alcohol, fuses at about 145°, and readily unites with fats and 
 resins. Two thirds of its weight consists of myrcin or melissyl 
 palmitate (C30 Ti^ Cje, Hjj O2), a body analogous to spermaceti 
 or Chinese wax, insoluble in alcohol, soluble in benzol and in 
 ether, saponified by alkalies. It further contains 22 per cent 
 of the crystalline cerotic ^cid or cerin (HCjy Hgg Og ) soluble in 
 boiling alcohol or ether, but imperfectly saponified by alkalies, 
 and about 5 per cent of ceroline, a soft acid fat, commuhieatiag 
 colour and odour, and soluble in cold alcohol The ordinary, 
 impurities of wax do not interfere with its veterinary uses : 
 starch may be detected by iodine ; resin, by its separating on 
 the addition of cold rectified spirit; fatty matters, by their 
 greasiness and fusibility ; inorganic substances, by their remain- 
 ing as a residue after the specimen is burnt or melted and strained. 
 Actions and Uses. — ^Wax is more difficult of digestion, and 
 less nutritive, than fats. It is demulcent and emollient. 
 Melted with egg or mucilage, it is occasionally prescribed to 
 correct diarrhoea. Its chief use, however, is to increase the 
 consistence and ' prevent rancidity of ointments, cerates, and 
 •plasters. Yellow wax, mixed with hogs' lard, or any of the 
 bland fixed oils, is much used as a simple ointment, for pre- 
 serving abraded or irritable Surfaces from air and the germs 
 floating ia it, protecting the sound skin from acrid discharges, 
 and preventing corrosive or blistering applications extending 
 their effects beyond the parts to which their action is to be 
 limited. The proportion of wax to the fats or oils is regulated 
 by the rec[uired consistence of the ointment. One part of 
 yellow wax to four of prepared lard, or two and a half of 
 almond or other oil, are the proportions usually recommended. 
 
 ZINC AND ITS MEDICINAL COMPOUNDS. 
 
 Zinc Oxide. Zinci Oxidum. Oxide of Zinc. Zn 0. 
 
 Metallic zinc, obtaiued by roastimg thesulphide or carbonate 
 ores, when alloyed vrith nickel and copper, .yields German silver, 
 when alloyed with copper, it yields brass. A coating of 
 
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ZINC OXIDE AND CARBONATE. 54:3 
 
 zinc over iron prevents rusting, and constitutes galvanised iron. 
 It is a Muish-wMte metal, brittle at low and high temperatures, 
 but between 213° and 300° it is ductile and malleable. It is 
 diatomic ; its salts are colourless. They are not precipitated by 
 hydrochloric acid. Ammonium hydrosulphide precipitates the 
 white sulphide (Zn S), which is insoluble in acetic acid, but 
 soluble in the stronger acids. Ammonia solution throws down 
 the white hydrate (ZnOHaO), which, unlike the aluminum 
 hydrate, is soluble in excess. Cobalt chloride solution gives a 
 ■green colour with zinc salts heated in the blowpipe flame. ' 
 
 When metallic zinc or the carbonate is exposed to a red 
 heat, the oxide is produced — a soft, nearly colourless, tasteless, 
 inodorous powder, insoluble in water, but soluble without 
 effervescence in acids and in alkalies. When heated it becomes 
 yeUow ; but if free from iron, nearly loses its colour on cooling. 
 
 Actions and Uses. — The chloride, nitrate, and iodide are the 
 most soluble, most readily diffused, and hence the most active 
 and corrosive of the zinc salts ; t^e sulphate and acetate are 
 more energetic than the less soluble oxide or carbonate. Salts 
 of zinc enter . the blood probably, as chlorides, lactates, or 
 albuminates; when given for a long period increase tissue 
 change, and produce a series of symptoms resembling those 
 caused by lead, are more rapidly excreted than mercury, lead, 
 or copper, are removed in small quantity by the kidneys, but 
 chiefly by the liver and intestinal glands (Bartholow). They 
 resemble those of aluminum, silver, and copper. They are 
 corrosive, irritant, astringent, tonic, and antiseptic. As an 
 astringent tonic, 3ij. to 3iv. oxide has been prescribed for horses 
 and cattle, grs. v. to grs. x. for dogs. Externally, the oxide in 
 powder is dusted as a desiccant gentle stimulant and astringent 
 over the chafed, irritated, and excoriated skin. Eczema rubrum, 
 and erythema, of which mud fever is a common exainple, are often 
 benefited by the powder solution or ointment, which, by the 
 Pharmacopoeia process, is made by mixing with gentle heat 
 eighty grains zinc oxide and an ounce of benzoated lard. 
 
 2iN0 Caebonate. Zinci Carbonas. Carbonate of Zinc. 
 
 Calamine, the native carbonate, and an important ore of 
 zinc, is grayish brown, usually earthy-looking, and effervesces 
 
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544 ZINC SULPHATE 
 
 ■with acids. The Pharmacopoeia carhonate — white, tasteless, 
 and insoluble in water — is made by boiling together nearly- 
 equal weights of ziac sulphate and sodium carbonate, and is a . 
 mixture of carbonate and' oxide with water of crystallisation^ 
 (Zn CO3, 2Zn 0, SHg 0). Its uses are identical with those of 
 the oxide. An ointment made with one part to four or five of, 
 lard is occasionally employed. 
 
 Zinc Sulphate. Zinci Sulphas. Sulphate of Zinc. AVhite 
 Vitriol. Zn SO^, 7H2O. 
 
 Zinc "blende, the native sulphide, when roasted, yields a 
 crude sulphate. The Pharmacopoeia salt is got by dissolving 
 granulated ziac in dUuted sulphuric acid, and getting rid of 
 any iron or tin by chlorine solution and zinc carbonate. It 
 occurs in colourless, transparent, long prisms, isomorphous with 
 those of Epsom salt, with a styptic metallic taste, and is efflor- 
 escent in dry air. It is insoluble ia alcohol, soluble in less 
 than its own weight of boiling water, and in about twice its 
 weight at 60°. Heated, it melts in its water of crystallisation, 
 six of the seven atoms are expelled ; at higher temperatures it 
 is decomposed, and oxide is left. Any metallic impurities are 
 deposited on a strip of metallic ziac placed in the solution. 
 
 Actions and Uses. — It is irritant, emetic, sedative, astrin- 
 gent, antiseptic, and nerve-tonic. It is used externally as a 
 stimulant, desiccant, astringent, and antiseptic. As with some 
 other metallic irritants, several ounces are given to horses and 
 cattle without injury. Orfila found that seven and a half drachms 
 were vomited by dogs in a few seconds, but produced no lasting 
 bad effects. When, however, vomiting was prevented by liga- 
 ture of the oesophagus, much smaller quantities sufficed to 
 destroy dogs, in about three days, from gastro-enteritis. Thirty 
 grains in solution, injected into the veins, depressed the action 
 of the heart and destroyed life in a few seconds (Christison on 
 Foisons). Emesis, although remarkably prompt and full, is 
 seldom accompanied by the nausea and depression which follow 
 tartar emetic. Eepeated doses, absorbed probably as chloride 
 lactate or albuminate, are detected in the spleen, liver, faeces, 
 and urine. It does not, like lead or mercury, exhibit any 
 cumulative action. Two horses had half an ounce each for a 
 
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EMETIC, ASTRINGENT, AND NERVE TONIC. 545 
 
 fortnigkt witliout effect ; but an ounce repeated thrice a day- 
 impaired the appetite and caused nausea with diuresis (Veteri- 
 narian, January 1844). As a tonic it resembles, but is inferior 
 to, iron and copper sulphates. As an astringent in diarrhoea 
 or dysentery, it is given with opium, but is less effectual than 
 copper sulphate or lead acetate. Eor arresting spasmodic 
 diseases in the lower animals it is not so effectual as copper 
 sulphate, arsenic, or quinige. It checks acute chorea, in dogs 
 in good condition ; but iron is better in chronic cases associated 
 with debility. For drying excessive discharges, especially from 
 the alimentary canal, for checking undue perspiration and 
 hsemorrhage, frequent small doses are given with sulphuric acid 
 and opium. As a safe and prompt emetic, it is prescribed for 
 dogs and pigs to empty the stomach of undigested food, foreign 
 bodies, or poisons. It is an antidote in poisoning by salts of 
 lead and barium. Externally, it is much used as a stimulant 
 and astringent in weakly, over-secreting wounds, in foul ulcers, 
 simple ophthalmia, relaxed sore throat, irritable conditions of 
 the mucous membrane of the uterus or vagina, chronic skin 
 diseases, and iaterdigital inflammation in sheep. 
 
 Doses, etc. — As an emetic for dogs and pigs, grs. viij. to^ grs. 
 XV. are given in two or three ounces of water. As an astrin- 
 gent and tonic for horses and cattle, 3i. to 3iij- ; for sheep, grs. 
 X. to grs. XX. ; for dogs, grs. ij. to grs. v. are given either in the 
 solid or fluid state. Externally, it is used in powder or solu- 
 tion, usually made with thirty to sixty parts of water. An 
 ounce each of zinc sulphate and lead acetate, dissolved in a 
 quart of water, constitutes the White Lotion so familiar in 
 veterinary practice. 
 
 Zinc Chloride. Zinci Chloridum. Butter of Zinc. Zn Cla- 
 
 When zinc or its oxide is boiled in hydrochloric acid, the 
 
 ' solution evaporated to dryness, and the . residue melted, there 
 
 remains the grayish-white, opaque, waxy-looking, deliquescent 
 
 chloride, usually moulded into sticks, with an astriagent metallic 
 
 tas]te, and soluble in water, alcohol, and ether. 
 
 Actions and Uses. — It is an irritant and corrosive poison ; 
 medicinal doses are astringent, tonic, and antiseptic. Extern 
 naUy, it is applied as a caustic, stimulant, and astringent. It 
 
 ., 2n 
 
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546 ZINC ACETATE 
 
 is also in use as a general antiseptic, disinfectant, and deodor- 
 iser. It is not administered iaternally. As an energetic 
 caustic it resembles butter of antimony ; is used to control 
 luxiiriant granulations, unhealthy ulcerations, and foot-rot in 
 sheep, and for such purposes is sold in pencils similar to those 
 of silver nitrate, To remove malignant growths and slough 
 away the cartilaginous secreting surfaces of fistulse, ziac 
 chloride is introduced, usually mixed with one or two parts of 
 flour made into a paste with water^ or gently heated with two 
 parts of gutta-percha. ISTot liable to get absorbed, it cannot, 
 like arsenic or mercury salts, do constitutional^ mischief. Freely 
 dissolved in water, it is a capital stimulant, astringent, and 
 antiseptic, an effective dressing in most varieties of eczema, 
 alike in horses and dogs, a good application for foot-rot in 
 sheep, a useful wash f6r destroying ticks and other skin vermin. 
 Mr. Campbell De Morgan uses for human surgical purposes forty 
 grains to an ounce of water, and recommends it especially for 
 fistulous wounds, for ragged, irregular surfaces not easily got at 
 by solid caustics, where repeated dressings are inadmissible, ~and 
 the volatile carbolic acid cannot be conveniently replaced. As 
 an antiseptic, zinc chloride is as effectual and cheaper than ferric 
 chloride. It stands next to the tar acids for preserving meat 
 and other organic matters ; is serviceable for keeping animal 
 tissues for dissection ; and in the presence of much water is 
 superior to carbolic acid, as well , as to corrosive sublimate, 
 arsenic, and indeed, all known antiseptics. . Although prompt 
 and effectual in preventing or arresting putrefaction, it is not 
 so ready a deodoriser as the permanganates, chlorine, iodine, or 
 sulphurous acid. Concentrated solutions have the disadvantage 
 of producing with decomposing organic matters, disagreeable- 
 smelling, fatty acids. Sir William Burnett's Disinfecting and 
 Antiseptic Pluid contains 2 5 grains zinc chloride in every fluid 
 drachm, and is ordered to be used in the proportion of one pint , 
 to five gallons of water. 
 
 Zmc Acetate. Zinci Acetas. Acetate of Zinc. 
 Zn 2C2 Hg O2, 2H2 0. 
 
 Zinc acetate is prepared by dissolving metallic zinc, its 
 oxide or carbonate, in diluted acetic acid. When three-quarters 
 
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STIMULAIiTT AND ASTEINGENT. 547 
 
 of an onince of zinc siilpliate and an ounce of lead acetate are 
 dissolved in a pint of water, mutual decomposition ensues, leaA 
 sulphate is precipitated, zinc acetate remains in solution, which, 
 if decanted or filtered, constitutes the White Lotion so exten- 
 sively and successfully used by the late Professor Pick. For 
 most stimulant and astringent purposes, this strong lotion 
 requires dilution with at least another pitit of water. ' Zinc 
 acetate crystallises in colourless, odourless, pearly, rhomhoidal 
 plates, which have a sharp, disagreeable, metallic taste, are 
 readily soluble ia water, and when heated with sulphuric acid, 
 evolve the characteristic acetous odour. 
 
 ActioTbs and Uses. — The acetate closely resembles the sul- 
 phate. It is emetic and a nerve tonic, but is seldom used iater- 
 naUy. Externally, as a stimulant and astringent, it promotes 
 the healing of wounds, dries excessive serous and pustular dis- 
 charges, relieves erythema, eczema, and impetigo, and combats 
 conjunctivitis and other superficial inflammations. Professor 
 TUson {Veterinary PharTnacopwia) recommends a solution for 
 saturating at short intervals the wash leather bandages applied 
 to the jarred, swoUen legs of hunters. According to the pur- 
 poses for which it is used, two to twenty grains are dissolved 
 in the oimce of water. 
 
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INDiEXES. 
 
 I. INDEX OF DISEASES. 
 
 Aboetion : Slipping ; Prematvue Birth. 
 
 Perfect quiet. 
 
 Sloppy laxative food. , 
 
 Opium ; belladonna. 
 
 Tonics. 
 
 Cleanliness. 
 
 Disinfectants. 
 
 Isolation from pregnant animals. 
 Abscess : Swelling, containing Serum 
 or Pus. 
 
 Fomentations ; Poultices. 
 
 "Water dressing. 
 
 Counter-irritants. 
 
 Knife ; Cautery. 
 
 Carbolic acid tessiag. 
 
 Stimulating injections. 
 
 Sulphites, calcium and potassium 
 sulphides, tonics, salines, inter- 
 nally. 
 
 ACABI. 
 
 Soft soap and alkalies. . 
 
 Sulphur and sulphur iodide. 
 
 Carbolic acid ; Tar oils. 
 
 Corrosive sublimate. 
 
 Arsenic. 
 
 Stavesacre. 
 
 Tobacco. 
 
 Linseed and other oils. 
 AoiDiTT OF Stomach. 
 
 Miaeral acids. 
 
 Alkalies, their carbonates and bicar- 
 bonates. 
 
 Chalk ; Magnesium carbonate. 
 
 Bismuth. 
 
 Nux vomica, strychnine, or bitters. 
 Acne : Pimples. 
 
 Fomentations ; Poultices. 
 
 Zinc chloride solution. 
 
 Salines. 
 
 Sulphur ; Arsenic ; Alteratives in- 
 ternally. 
 Aftbe Pains : Heaving. 
 
 Eemove clots from uterus. 
 
 Ea,ise hiud quarters. 
 
 Clysters of tepid linseed tea, and 
 laud^i'um or belladonna. 
 
 AFTBa Pains — Continued. 
 
 Syringe out uterus with Carbolic 
 acid, Condy's fluid, and anodynes. 
 
 Belladonna ; Opiuni ; Chloroform. 
 
 Laxatives. 
 
 Draw away mUk. 
 Amaueosis : Gutta Serena ; Glass 
 Eye. 
 
 Cathartics. 
 
 Blisters ; Setons. 
 
 Tonics. 
 
 Diuretics. 
 
 Nux vomica or strychnine. 
 Anemia : Bloodlessuess. 
 
 Iron and copper salts. 
 
 Gentian ; . Quinine ; Bitters. 
 
 Salines. 
 
 Mineral acids. 
 
 Generous diet. 
 
 Alcohol. 
 
 ■Pure air ; Exercise. 
 Aneurism : Arterial tumour. 
 
 Pressure ; Truss ; Bandages. 
 
 Acupressure. 
 
 Electrolysis. 
 
 Catgut ligature. 
 
 Potassium iodide. 
 Anglbbereies ; see also AVarts. 
 
 Remove with knife, or torsion. _ 
 
 Eemove with ligature or caustic. 
 Anthrax of Pigs ; Hog Cholera ; 
 Blue Disease ; Carbuncular 
 Fever. 
 
 Emetics. 
 
 Laxatives; Clysters. 
 
 Cooling sloppy diet. 
 
 Antiseptics ; Sodium sulphite. 
 
 Sulphurous acid ■sponging. 
 
 Comfortable airy quarters. 
 AtHTHA : Vesicles in Mouth ; Thrush. 
 
 Alum ; Borax. 
 
 Potassium chlorate. 
 
 Oxymel; Glycerin. 
 
 Sodium sulphite ; Condy's fluid. 
 
 Laxatives. 
 
 Cooling digestible food. 
 
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550 
 
 INDEX OF DISEASES. 
 
 Apoplexy, Paetueibnt : Milk Fever 
 in Cows and Ewes. 
 
 Bleed in very earliest stage. 
 
 Cathartics active. 
 
 SaUs and croton. 
 
 Diluents ; Avoid solid food. 
 
 Body and legs rubbed and clothed. 
 
 Use catheter. 
 
 Ice or refrigerants to head and neck. 
 
 Linseed gruel frequently by stomach- 
 pump and clyster. 
 
 Ammonia ; Ether ; Alcohol. 
 
 Remove milk every hour. 
 
 Ealse hind quarters, place on ster- 
 num, keep up head. 
 
 Rubefacients to spine. 
 Apoplexy, Splenic, in Cattle and 
 Sheep. 
 
 Bleed in earliest stage. 
 
 Cathartics. 
 
 Sodium sulphite ; Other antis^tics. 
 
 Setons. 
 Aktekitis : Inflammation of Arteries. 
 
 Rest. 
 
 Alteratives ; Salines. 
 Aethkitis: Inflammation of joints.; see 
 
 Open Joint and Synovitis. 
 AscAEiDES; see also FiLAEiiB and 
 Worms. 
 
 Turpentine and oil. 
 
 Salines and bitter tonics. 
 
 Clysters of turpentine^ lime watw, 
 quassia, or ether; 
 Ascites : Abdominal Dropsy. 
 
 Diuretics. 
 
 Purgatives. 
 
 Oil of turpentine. 
 
 Jaborandi ; Digitalis. 
 
 Rubefacients and friction. 
 
 Trocar and canula. 
 Asthma. 
 
 Ether and belladonna. 
 
 Chlorodyne. 
 
 Chlorofonn inhaled. 
 
 Amyl nitrite inhaled. 
 
 Morphine and atropine subcutaue- 
 ously. 
 
 Arsenic. 
 
 Regular digestible diet. 
 Atheroma : Arterial d.egeneration. 
 
 Liberal oleaginous dietary. 
 
 Iron salts and tonics. 
 
 Avoid over-exertion. 
 
 Barrenness. 
 
 Change of diet and surroundings. 
 
 Alteratives ; Potassium iodide. 
 
 Tonics. 
 Bellones: Tumour in Throat of 
 Horses. 
 
 Excise tumour by knife or ligature. 
 
 Bites or Insects. 
 
 Ammonia solution. 
 
 Potassium hydrate solution. 
 
 Carbolic acid. 
 
 Prussic add and chlorofonn. 
 Bladder, Ibeitable, 
 
 Diluents ; Linseed. 
 
 Alkalies. 
 
 Laxatives. 
 
 Anodyne clysters. 
 
 Belladonna and opinm. 
 
 Milk diet. 
 Black Leg j see Quarter Evil. 
 Bladder, Inflammation of ; see 
 
 Cystitis. 
 Blbeding ; see HiSMOEBHAeE. 
 Boe Spavin. 
 
 Rest ; High-heded shoe. 
 
 Fomentation. 
 
 Cold water. 
 
 Spring truss. 
 
 Counter-irritatiwi. 
 
 Firing iron ; Seton. 
 BoiiiS ; see also Abscess. 
 
 Foment ; Poultice. 
 
 Belladonna. 
 
 Carbolic dressing. 
 
 Counter-irritants. 
 
 Laxatives. 
 
 Sulphites and chlorates. 
 
 Calcium sulphide. 
 Bone Spavin ; see Spavin. 
 
 BOTS. 
 
 Turpentine and oils. 
 
 Quassia and bitters. 
 
 Hydrochloric acid. 
 
 Copper sulphate and arsenic. 
 Bowels, Inflammation of; see 
 
 Enteritis. 
 Beain, Inflammation of ; see Pheb- 
 
 nit^s. 
 Beaxy in Sheep : Gastro-Enteritis. 
 
 Oil,, calomel, and laudanum. 
 
 Salines; 
 
 Antiseptics. 
 
 Counter-irritation to abdomen. 
 Broken Knees. 
 
 Cleanse thoroughly. 
 
 If flap of skin raised, stitches or 
 srature sometimes useful. 
 
 Tie up head. 
 
 Cold water dressings. 
 
 Carbolic dressings. 
 
 Perfect rest. 
 
 Splints. 
 
 Slings. 
 
 Blister. 
 Broken Wind in Hoeses. 
 
 Relieved by careful dieting. 
 
 Damped food. 
 
 Laxatives occasionally. 
 
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INDEX OF DISEASES. 
 
 551 
 
 Broken Wind in Hoeses- 
 
 Salines. 
 
 Chalk ; Whiting. 
 
 Professor Dick's coiigh, balL 
 Bronchial Filam^ ; see Filabij), 
 
 Bkonchial. ■ 
 Bronchitis : Acute Inflammation of 
 Air-Passages. 
 
 Water vapour inhaled. 
 
 Mustard to throat and sides. 
 
 Ether and belladonna. 
 
 Medicated inhalation with carbolic 
 and sulphurous anhydride. 
 
 Soft but nutritious diet. 
 
 Salines. 
 
 Aconite. 
 
 AlcohoL 
 
 Ammonium salts. 
 
 Chloral hydrate. 
 
 Warm clothing, but cool air. 
 Bronchitis, Chronic. 
 
 Cantharides blisters. 
 
 Linseed and other oleaginous food, 
 
 Alcoholic stimulants. 
 
 Oil of turpentine. 
 
 Tar, in bolus and inhalation. 
 Bronohocblb ; Enlarged Thyroid. 
 
 Iodine. 
 
 Potassium iodide. ' 
 Bruises. 
 
 Foment ; Poultice. 
 
 Cold water dressings. 
 
 Befrigerauts. 
 
 Carbolic dressings. 
 ' Lead acetate and astringent solutions. 
 
 Belladonna. 
 Brushins or Intekfeking. 
 
 Careful shoeing. 
 
 Well-fitting boot. 
 
 Improved condition. 
 Burns : Scalds. 
 
 Carbolic dressing. 
 
 Exclusion of air. 
 
 Cotton wool. 
 
 Carron. oil. 
 
 Salicylic and bpracic acids. 
 
 Silver nitrate. 
 Bustian Foul : Chronic Rheumatism 
 in Cattle and Sheep. 
 
 Poultice ; Foment. 
 
 Lead acetate and vinegar solution. 
 
 Aconite and belladonna lotion. 
 
 Purgative ; Salines. 
 
 Tonics ; Oil of turpentine ; Stimu- 
 lants. 
 
 Calculi, Biliary. 
 Purgatives. 
 Morphine and atropine hypodermi- 
 
 cally. 
 Salines. 
 
 Calculi,, Urinary : Lithiasis ; Gravel. . 
 
 Alkalies ; Alkaline bicarbonates. 
 
 Diluents. 
 
 Soft laxative food. 
 
 Anodyne clysters. 
 
 Belladonna and opium. * 
 
 Lithotomy ; Lithotrity. 
 Cancer. 
 
 Knife. 
 
 Carbolic dressing. 
 
 Caustics. 
 
 Generous diet. 
 Canker of Horse's Foot, 
 
 Efimove diseased surface. 
 
 Nitric acid. 
 
 Zinc chloride solution. 
 
 Silver nitrate. 
 
 Tar and tow. 
 
 Firm pressure. 
 
 Carbolic acid. 
 
 Tonics and salines. 
 , Liberal diet. 
 
 Canker of Ear ; see Otorrhcba. 
 Capped Hock in Horse. 
 
 Stimulate by cantharides liniment, 
 or mercury iodide ointment. 
 
 Shoe raised at heel. 
 
 Apply pressure. 
 
 Evacuate serous abscess. 
 
 Inject cavity with iodine or astrin- 
 gents. 
 
 Infriction daily of soft soap. 
 Caries of Bone. 
 
 Excision of diseased tissue. 
 
 Free vent by producing slough. 
 
 Actual cautery. 
 Cataeact. 
 
 Extraction. 
 
 Belladonna ; Atropine solution. 
 
 Alteratives and salines. 
 Catarrh : Cold in Head ; Coryza. 
 
 Steam head. ' < 
 
 Extra clothing ; Hood. 
 
 Cool air ; Laxative. 
 
 Salines ; Ammonium acetate. 
 
 Stimulate throat externally. 
 Chokino. 
 
 Oil or linseed tea. 
 
 Remove any foreign body by hand. 
 
 Probang. 
 
 Gut into gullet and extract obstruc- 
 tion. 
 Colic : Gripes ; S^asm of bowels. , 
 
 Purgative in solution. 
 
 Clysters of warm water. 
 
 Hand-rubbing. 
 
 Gentle exercise. 
 
 Mustard to abdomen. 
 
 Ether and opium. 
 
 Oil of turpentine. 
 
 Ammonia solution or carbonate. 
 
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552 
 
 INDEX OF DISEASES. 
 
 Colic — i 
 
 Belladonna. 
 
 Chloral hydrate. 
 
 Tohacco smoke clysters. 
 
 Morphine and atropine, suboutane- 
 ollsly. 
 Cholera. 
 
 Laxatives ; Castor oil and laudanum. 
 
 Chloral hydrate. 
 
 Lead acetate and opium. 
 
 Tannic and gallic acids. 
 
 Mineral acids. 
 
 Ice bag to spine. 
 
 Morphine subcutaneously. 
 Chorea : St. Vitus' Dance. 
 
 Chloral hydrate. 
 
 Iron salts. 
 
 Laxatives. 
 
 Arsenic. 
 
 Cold sponging. 
 
 Valerian. 
 
 Zinc and silver salts. 
 
 Liberal dietary. 
 
 Eemove worms. 
 Coma : Stupor. 
 
 Cold affusion. 
 
 Ammonia, inhalation and subcutane- 
 ously. 
 
 Mustard. 
 Congestion. 
 
 Equable pressure. 
 
 Stimulant, local. 
 
 Stimulant, general. 
 
 Belladonna ; Ergot. 
 Congestion of Lungs. 
 
 Cool air. 
 
 Warm clothing for body and limbs. 
 • Ammonia solution or carbonate. 
 
 Ether ; Alcohol ; Oil of turpentine. 
 
 Mustard to sides. 
 
 Cateful abstraction of blood. 
 Congestive Fever op Cattle and 
 
 Sheep ; see Quarter Evil. 
 Conjunctivitis : Inflammation of 
 Mucous Membrane of Eye. 
 
 Remove irritant. 
 
 Foment. 
 
 Silver nitrate or other astringent. 
 
 Belladonna or atropine. 
 
 Citrine ointment. 
 
 Laxatives. . 
 
 Blister orbit ; Seton. 
 Constipation : Torpidity of Bowels. 
 
 Purgatives. 
 
 Laxative clysters. 
 
 Aloes, oils, and calomel for horses. 
 
 Salts ; Croton and gamboge for 
 cattle. 
 
 Calomel and jalap, castor, and lin- 
 seed oils, and emetics for cami- 
 Tora. 
 
 Constipation — Continued. 
 
 Oil of turpentine bymouthandrectum. 
 
 Tobacco enemata. 
 
 Laxative diet. 
 
 Nux vomica. 
 
 Electricity. 
 Consumption, Pulmonary ; see 
 
 Phthisis Pulmonalis. 
 Convalescence. 
 
 Easily digested nutritive food. 
 
 Eggs and milk. 
 
 Alcoholic stimulants. 
 
 Bitters ; Tonics ; Mineral acids. 
 Convulsions : Fits. 
 
 Chloral hydrate. 
 
 Chloroform. 
 
 Potassium bromide. 
 
 Ammonia. 
 
 Cold affusion. 
 
 Morphine and atropine subcutane- 
 ously. 
 Corns in Foot oi' Horse, 
 
 Pare. 
 
 Remove pressure. 
 
 Light shoe with wide web. 
 
 Poultice. 
 
 Nitric acid. 
 
 Shoe strong feet with tips. 
 CoKYZA : Cold in Head ; see Catarrh. 
 Cough. 
 
 Chloroform ; Chlorodyne. 
 
 Belladonna ; Opium.. 
 
 Ether. 
 
 Steaming head ; Soothing or astrin- 
 gent gargles. 
 
 Counter-irritation ; Mustard. 
 
 Pure air. 
 
 Comfortable housing and clothing. 
 
 Laxatives. 
 
 Balsams, demulcents. 
 Cough, Chronic, op Horses., 
 
 Careful dieting. 
 
 Food damped. 
 
 Epsom salt occasionally. 
 
 Professor Dick's recipe. 
 
 Belladonna extract ; Camphor and 
 prussic acid. 
 
 Mustard ; other counter-irritants. 
 
 Seton. 
 Crib-biting. 
 
 Iron stable fittings. 
 
 Spiked coUar strap. 
 
 Chalk and antacids. 
 Curb : Sprain or Injury of straight 
 Ligament of Hock. 
 
 Foment. 
 
 Lead acetate solution ; Refrigerants. 
 
 Counter-iiTitants. 
 
 Mercury red iodide ointment. 
 
 Firing iron. 
 
 High-heeled shoe. 
 
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INBEX OF DISEASES. 
 
 553 
 
 Cow-Pox ; see Yamola Vaccina. 
 Cystitis : Inflammation of Bladder. 
 Aconite ; Belladonna ; Opium. 
 Laxatives. 
 
 Bugs WTung out of toiling water, or 
 sheepskin to loins. 
 . Emollient anodyne clysters. 
 Linseed tea ; Barley water ; Alkalies 
 and Diluents. 
 
 Debility. 
 
 Easily assimilated nutritive food. 
 
 Alconolic stimulants. 
 
 Calcium phosphate. 
 
 Sodium sulphite. 
 
 Iron salts. 
 
 Good nursing. 
 Delirium. , 
 
 Cold afifu^sion. 
 
 Laxatives. 
 
 Belladonna ; Chloral hydrate. 
 
 Blood-letting. 
 Dentition Fever. 
 
 Soft laxative food. 
 
 Best ; Pure air. 
 
 Lancing of gums. 
 
 Bemove irregular temporary teeth. 
 Diabetes Insipidus : Polyuria. 
 
 Iodine with potassium iodide. 
 
 Iodine with iron sulphate. 
 
 jDlABBTBS, SACCAEHINE. 
 
 Soup ; Cooked animal food. 
 
 Acids. 
 
 Opium. 
 
 Iodine. 
 DiARRHCBA : Scouring. 
 
 Laxatives. 
 
 Chalk and bitters. 
 
 Oak bark or tannin. 
 
 Opium and lead acetate. 
 
 Starch gruel and opium clysters. 
 
 Digestible light diet. 
 
 Min^al acids and metallic astrin- 
 gents. 
 
 I^ux vomica ; Ergot. 
 
 Antiseptics. 
 DlSL(5cATloNS : Luxations. 
 
 Eeduce. 
 
 Eetain in position by splints, band- 
 ages, or plasters. ■ 
 
 Abate inflammation by fomentations 
 or cold water. 
 Distemper in Dogs. 
 
 Emetic. 
 
 Gentle laxative. 
 
 Milk diet. 
 
 Salines. 
 
 Belladonna. 
 
 Ether ; AlcohoL 
 
 Iron salts. 
 , Antiseptics internally. 
 
 Distemper in Dogs — Continued. 
 
 Counter-irritants. 
 
 Disinfectants. 
 Dropsy. 
 
 Bemove vascular obstruction. 
 
 Diuretics ; Laxatives. . 
 
 Potassium iodide ; Digitalis. 
 
 Friction, and other external stimu- 
 lants. 
 
 Sweet spirit of nitre ; Oil of turpen- 
 tine ; 'and other stimulants inter- 
 nally. 
 Dysentery. 
 
 Occasional laxatives. 
 
 Opium and mineral astringents. 
 
 Gallic and tannic acids, 
 
 Starch gruel and laudanum clysters. 
 
 EasUy digested food. 
 Dyspepsia : Indigestion. 
 
 Careful dietary. 
 
 Acids ; Bitters. 
 
 Sulphites. 
 
 Laxatives. 
 
 Alcohol. . 
 
 Alkalies and chalk. 
 
 Nux vomica. 
 Dyspn(EA : DifBcult Breathing. 
 
 Chloroform ; chloral hydrate. 
 
 Morphine and atropine subcutane- 
 ously. 
 • Belladonna extract and ether. 
 
 Mustard and counter-irritants. 
 
 Tracheotomy. 
 
 Eczema : Tetter. 
 
 Laxatives. 
 
 Diuretics. 
 
 Salines ; Alkalies. ' 
 
 Arsenic. 
 
 "Lead acetate lotion. 
 
 Zinc oxide. 
 
 Tannin. 
 
 Empyreumatio oils. 
 Eczema Bubeum of Dogs: Red Mange. 
 
 Avoid heating food such as oat- 
 meal. 
 
 Laxatives. 
 
 Zinc oxide ointment. 
 
 Tannin. 
 
 Antiseptics and arsenic. 
 Elephantiasis ; Chronic "Weed. 
 
 Laxatives. 
 
 Diuretics. 
 
 Salines ; Iodine. 
 
 Friction ; Stimulants. 
 
 Counter-irritation. 
 Empyema -. PuS in Chest. 
 
 Carbolic acid. 
 
 Sulphurous acid and sulphites. 
 
 Iodine. 
 
 Drainage tube. 
 
 Digitized by Microsoft® 
 
554 
 
 IISDEX OF DISEASES. 
 
 Emphysema : Pneumatosis ; Wind 
 Swelling, 
 
 Puncture. _ 
 
 Pressure. 
 
 Counter-irritation. 
 
 Diuretics. 
 
 Tonics ; Arsenic. 
 Entemtis : Inflammation of Bowels. 
 
 Laxatives. 
 
 Aconite. 
 
 Calomel and laudanum. 
 
 Foment ; Eugs wrung out of hot 
 water. 
 
 Mustard to abdomen. 
 
 Anodyne clysters. 
 
 Belladonna and opium. 
 
 Morphine and atropine suhcutaue- 
 ously. 
 Enteopium : Inversion of Eyelids. 
 
 Excision of elliptical portion of lid. 
 
 Metallic suture. 
 
 Caustic. 
 
 Antiseptic dressing. 
 Epilepsy : Fits. 
 
 Bowels in order. 
 
 Worms removed. 
 
 Digestible nutritive diet. 
 
 Iron and arsenic. 
 
 Potassium bromide. 
 
 Amyl nitrite. 
 
 Cold afifusion. 
 Epizootics. 
 
 ■ Destroy disease germs by carbolic or 
 
 sulphurous acids. 
 
 ■ Separate infected subjects. 
 
 Sponge sick and healthy with sul- 
 phurous or carbolic solutions. 
 
 Administer sodium sulphite, carbolic 
 acid, and antiseptics. 
 
 Enjoin cleanliness. 
 
 Use disinfectants. 
 Epizootic Aphtha : Aphthous or 
 Vesicular Epizootic ; Foot-and- 
 Mouth Disease. 
 
 Soft laxative,food brought to patient. 
 
 Cleanliness. ' 
 
 Comfortable soft lodging. 
 
 Gargle with hydrochloric acid and 
 treacle. 
 
 Alum and potassium-chlorate gargles. 
 
 Condy's fluid for mouth, udder, and 
 feet. 
 
 Lead acetate solution. 
 
 Milk cows frequently. 
 
 If teats tender, use syphon. 
 Ebysipelas. 
 
 Laxatives. 
 
 Aconite, one or two doses. 
 
 Hot fomentations. 
 
 Salines ; Potassium chlorS,te. , 
 
 Ferric chloride and other styptics. 
 
 Eeysipblas — Continued. 
 
 Alcohol ; Ether ; Oil of turpentine. 
 
 Ergot. 
 
 Belladonna and aconite lotion. 
 
 Silver nitrate. 
 
 Carbolic acid. 
 Erythema: an inflammation of theskin. 
 
 Laxatives ; Salines. 
 
 Fomentations ; Emollients. 
 
 Zinc oxide powder ointment or solu- 
 tion. 
 
 Lead and zinc acetates. 
 
 Silver nitrate. 
 
 Arsenic and quinine internally. 
 Exostosis : Deposit of Bone. 
 
 Fomentations. 
 
 Cold applications. 
 ■ Counter-irritants. 
 _ Mercury iodide ointment. 
 
 Firing iron. 
 
 Periosteotomy. . 
 
 Laxatives ; Febrifuges. 
 
 Fainting. 
 
 Fresh air. 
 
 Removal of pressure from neck. 
 
 Ammonia in vapour and solution. 
 
 Alcohol and ether. 
 
 Amyl nitrite. 
 False Quartbk df Foot of Hokse. 
 
 Close and secure any wound. 
 
 Bar shoe to relieve pressure. 
 
 Blister coronet. 
 Faboy of Horses. 
 
 Buds dressed with mercury iodide 
 ointment. 
 
 Iron and copper sulphates ; Arsenic. 
 
 Salines. 
 
 Liberal diet and fresh air. 
 
 Separate from healthy animals. 
 
 Slaughtered by order of Council. 
 Faedel-bound : Impaction of Third 
 Stomach of Cattle and Sheep. 
 
 Epsom and common salt. 
 
 Calomel ; Croton. 
 
 Aromatics and treacle. 
 
 Diluents. 
 
 Stimulants externally and internally. 
 Favus : Honeycomb Ringworm. 
 
 Soft soap and water. 
 
 Iodide of sulphur. 
 
 Iodine solution or ointment. 
 
 Zinc chloride solution. 
 
 Corrosive sublimate. 
 
 Silver nitiute. 
 FiLARiiE, Bronchial : Strongalus fila- 
 ria. 
 
 Oil of turpentine in milk or oU. 
 
 Lime water. 
 
 Sulphurous and chlorine inhalation 
 and solution. 
 
 Digitized by Microsoft® 
 
INDEX OP DISEASES. 
 
 555 
 
 FiLAKiiE, Bronchial — Contirmed, 
 Chloroform inhalation. 
 Liberal dietary. 
 Change from old grass. 
 
 FiSTULiK. 
 
 Cut open sinuses. 
 
 Dependent opening. 
 
 Seton. 
 
 Carbolic dressings. 
 
 Astringents. 
 
 Corrosive sublimate plug. 
 
 Pressure to keep granulations in con- 
 tact. 
 Fleas : Pulex irritans. 
 
 Soap and warm water. 
 
 Turpentine and oil. 
 
 Aniseed oil. 
 
 Persian insect powder. 
 
 Tobacco water. 
 
 Stavesacre. 
 
 Pine sawdust for dog's bed. 
 Fltjke Woem in Sheep ; see Hydatid 
 
 IN Liver. 
 Fly Blow in Sheep. 
 
 Corrosive sablimate solution. 
 
 Turpentines. 
 
 Tar oil. 
 FooT-EoT IN Sheep. 
 
 Eemove diseased horn. 
 
 Mercury nitrate solution. 
 
 Mtric acid. 
 
 Turpentine and oil. 
 
 Silver nitrate. 
 
 Zinc chloride. 
 
 Carbolic acid. 
 Foul in the Feet op Cattle ; see 
 also Bustian Foul. 
 
 Foment ; Poultice. 
 . Carbolic dressings. 
 
 Zinc chloride. ' 
 
 Generous diet. 
 
 Salines and tonics. 
 
 Amputation. 
 FoiTNDER ; see Laminitis. 
 Fraotubb. 
 
 Bones in apposition. 
 
 Splints of leather or block-tin. 
 
 Bandages dry and starch. 
 
 Hest ; Slings. 
 
 "Wounds treated in usual way. 
 FaiAGiLiTirs or Mollitibs Ossium. 
 
 Liberal oleaginous dietary. 
 
 Calcium phosphate. 
 
 Tonics. 
 Frost Bite : Gelatio. 
 . Turpentine and oil. 
 
 Soap liniment. 
 
 Friction. 
 
 Mustard. 
 
 FUNGtrS HiEMATODES. 
 
 Eemove with knife. 
 
 Fungus H^imatodbs — ContwMd. 
 Stay bleeding with hot iron. 
 Dress with carbolic acid. 
 Equable pressure. 
 
 Gangrene : Mortification. 
 
 Sulphurous acid lotion. 
 
 Carbolic dressings. 
 
 Iron salts t internally. 
 
 Copper sulphate. 
 
 Alcohol ; Stimulants. 
 
 Antiseptics ; Sodium sulphite ; Pot- 
 assium chlorate. 
 
 Remove dead portions with knife. 
 Garget ; see Mammitis. 
 Gastric or Typhoid Fever ' in 
 Horses. 
 
 Calomel and laudanum. 
 
 Salines. 
 
 Alcohol and stimulants. 
 
 Belladonna and opium. 
 
 Iron salts. 
 
 Mineral acids. 
 
 Rest and quiet. 
 
 Warm clothing ; Bandage legs. 
 
 Soft digestible food. 
 
 Sponge with sulphurous acid. 
 
 Rubefacient over abdomen. 
 Glanders in Horses. 
 
 Incurable ; Immediate slaughter. 
 
 Life may be prolonged by generous 
 diet. 
 
 Copper sulphate and arsenic. 
 Glass Eye ; see Amaurosis. 
 Glaucoma : Disease of Vitreous Hum- 
 our of Eye. 
 
 l^ot amenable to treatment. 
 
 Atropine and astringent lotions. 
 Glossantheax : Blain in Cattle. 
 
 "Wash mouth with sulphurous acid 
 solution or Condy's fluid. 
 
 Hydrochloric acid and treacle gargle. 
 
 Cathartics. 
 
 Silver nitrate. 
 
 Soft nourishing food. 
 Glossitis : Inflammation of Tongue. 
 
 Oxymel. 
 
 Treacle and vinegar. 
 
 Mild astringents. 
 
 Soft food; Scarify. 
 GoNORRHCEA ; See also Urethritis. 
 
 Metallic astringent injection. 
 
 Salines ; Alkalies. 
 
 Diluents. 
 
 Fomentations. 
 
 Laxative and anodyne clysters. _ 
 Grapes : Inflammation of Skin of 
 Horses' Heels. 
 
 Remove by hot iron or caustics. 
 
 Zinc sulphate or chloride solution. 
 
 Carbolic acid dressing. 
 
 Digitized by Microsoft® 
 
556 
 
 INDEX OP DISEASES. 
 
 Grapes — Continued. 
 
 Laxative diet. 
 
 Sulphur, arsenic, and salines inter- 
 nally. 
 Gbeasb : Eczema Impetiginodes. 
 
 Salines ; Arsenic. 
 
 Zinc sulphate and lead acetate lotion. 
 
 Carbolic acid dressings. 
 
 Sulphurous acid. 
 
 Poultices. 
 Grogginess ; see Navicular Disease. 
 
 HEMATURIA : Bloody Urine. 
 
 Laxatives. 
 
 Belladonna and opium. 
 
 Fresh sheepskins to loins. 
 
 Sulphuric acid. 
 
 Iron salts. 
 
 Lead acetate. 
 
 Turpentine oil. 
 
 Gallic acid ; Ergot. 
 HEMATURIA : Eed Water in cattle. 
 
 Saline purge. 
 
 Iron salts. 
 
 Turpentine. 
 
 Stomachics and hitters. 
 
 Ammonium chloride. 
 HiEMOERHAGB : Bleeding. 
 
 Secure bleeding vesseL 
 
 Pressure ; Plugging ; Ligature. 
 
 Styptics. 
 
 Cold ; Ice. 
 
 Cautery. 
 
 Lead acetate and opium internally. 
 
 Sulphuric and gallic acids. 
 
 Turpentine ; Ipecacuan. 
 
 Ergotine subcutaneously. 
 Heart, Irritable. 
 
 Digitalis. 
 
 Belladonna. 
 
 Aconite. 
 
 Rest. . 
 
 Digestible, rather concentrated, food. 
 Hepatitis : Inflammation of Liver. 
 
 Cathartic. 
 
 Salines. 
 
 Aconite. 
 
 Ammonium chloride. 
 
 Laxative diet. 
 
 External stimulation. 
 Hernia, Inguinal or Scrotal : 
 Rupture. 
 
 Taxis from scrotum and rectum. 
 
 Opium in large doses. 
 
 Anaesthesia. 
 
 Tobacco-smoke clysters. 
 
 Ice ; Refrigerants. 
 
 Cast patient. 
 ' Liberate herniated bowel by enlarg- 
 ing internal ring. 
 
 Covered operation in entire animal. 
 
 Herpes : Patches of Vesicles. 
 
 SaUnes. 
 
 Sodium sulphite. 
 
 Lead acetate solution. 
 
 Sulphurous, acid solution. 
 
 Silver nitrate ointment. 
 
 Calomel ointment. 
 High Blowing in Horses. 
 
 Atropine and morphine subcutan- 
 eoxisly. 
 
 Rubefacients over frontal sinuses and 
 throat. 
 
 Syringe nostrils with astringents. 
 
 Nasal pad. 
 HoosE IN Calvss ; see Filarmi, 
 
 Bronchial. 
 HovEN IN Cattle : Distension of First 
 Stomach. 
 
 Ammonia and ether. 
 
 Turpentine and alcohol. 
 
 Exercise and friction. 
 
 Probang. 
 
 Opening through abdominal walls, i 
 
 Cathartic. 
 Hydatid in Brain of Sheep or 
 Cattle : Coenurus cerebralis. 
 
 Trocar and canula. 
 Hydrocele : Dropsy of Scrotum. 
 
 Trocar and canula. 
 
 Injection of iodine or astringent. 
 Hydrocephalus : Dropsy of Brain. 
 
 Generous oleaginous diet. 
 
 Calcium phosphate. 
 
 Irpn salts (iodide) ; Tonics. 
 
 Trocar and canula. 
 Hydrophobia ; see Rabies. 
 Hydrothorax ; "Water in Chest. 
 
 Salines ; Potassium iodide. 
 
 Rubefacients ; Mustard. 
 
 Trocar and canula. 
 
 Diuretics. 
 
 Tonics and stimulants. 
 Hysteeitis : Inflammation of Uterus. 
 
 Laxatives. 
 
 Fomentations to loins. 
 
 Fresh sheepskins. 
 
 Aconite and opium. 
 
 Belladonna, by mouth and injection. 
 
 Syringe with tepid water and Conwy's 
 fluid, sulphurous acid, or astnn- 
 gents. 
 
 Immobilite : Shivering ; Crick-back. 
 
 Light work without weight on 
 back. 
 
 Occasional rubefacient along spine. 
 
 Sling at night. 
 
 Nux vomica and strychnine. 
 Impetigo : Crasta Labialis. 
 
 Laxatives and salines. 
 
 Zinc oxide ointment. 
 
 Digitized by Microsoft® 
 
INDEX OP DISEASES. 
 
 557 
 
 Impetigo — Continued. 
 
 Mercury nitrate ointment. 
 
 Glycerin of tannin. 
 Indigestion ; see Dyspepsia. 
 Indigestion, Acute, oe Hoeses : 
 Stomach, or Grass Staggers. 
 
 Aloes m solution. 
 
 Calomel. ' 
 
 Oil of turpentine. 
 
 Ammonia ; Alcohol ; Ether. 
 
 Hot fomentations to abdomen. 
 
 Hand-rubbing; Mustard. 
 
 Gentle exercise. 
 
 Frequent laxative stimulant clysters. 
 Inflammation, Acute. 
 
 Fomentations. 
 
 Poultices. 
 
 Refrigerants. 
 
 Cathartics ; Salines. 
 
 Aconite ; Sedatives. 
 
 Antiseptics ; Alteratives. 
 
 Sloppy food ; Diluents. 
 Inflammation, Chkonic. 
 
 Refrigerants. 
 
 Counter-irritants. 
 
 SaUnes ; Antiseptics. 
 
 Liberal dietary. 
 
 Linseed and fatty matters. 
 
 Bitters and tonics. 
 
 Stimulants. 
 Inflammatory Fevek. 
 
 Laxatives; Salines. 
 
 Clysters. 
 
 Antiseptics. 
 
 Aconite. ' 
 
 Calomel and opium. 
 
 Remove or soothe any local irritation. 
 
 Pure air. 
 
 Sloppy food. 
 
 Diluents. 
 Influenza in Houses. 
 
 Salines. 
 
 Laxative nutritive diet. 
 
 Pure cool air. 
 
 Rug and bandages. 
 
 Alcohol ; Ammonia. 
 
 Ether and belladonna. 
 
 Mineral acids and bitters. 
 
 Mustard. 
 
 Sponging with sulphurous acid or 
 Condy's fluid. 
 intekdigital inflammation in 
 Sheep. 
 
 Zinc sulphate solution. 
 
 Silver nitrate. 
 
 Carbolic and tar dressings. 
 
 Laxative diet. 
 
 Avoid beans and forcing food. 
 
 Remove from wet pastures. 
 Imtis. 
 
 Cathartics. 
 
 Ieitis — Contmued. 
 Calomel and opium. 
 Salines. 
 
 Belladonna or atropine. 
 Dark box. 
 Seton. 
 
 Jaundice : the Yellows. 
 
 Laxatives. 
 
 Aloes and calomel. 
 
 Salines ; Glauber salt. 
 
 Oil of turpentine ; Stimulants. 
 , Mustard over region of Uver. 
 
 Kennel Lameness : Rheumatism. ; 
 
 Cistor oil. 
 
 Clysters. 
 
 Alkalies. 
 
 Salicylic acid. 
 
 Flannel wrung out of hot water to 
 joints or I'oins. 
 
 Soap and turpentine liniment. 
 
 Potassium iodide. 
 
 Tonics. 
 
 Comfortable dry lodgings. 
 Knees, Bkoken ; see Beokbn Knees. 
 
 Laminitis : Acute Founder of Horses. 
 
 Shoes removed. 
 
 Hot fomentations and poultices. 
 
 Bleed from toe. 
 
 Aconite. 
 
 Laxative clysters. 
 
 Vapour bath. 
 
 Blisters to coronet. 
 
 Frog setons. 
 
 Neurotomyl 
 Lampas : Congestion of Gums and 
 Palate of Horses from Teething, 
 
 Soft food. 
 
 Astringent wash. 
 
 Scarify. 
 Laryngitis: Inflammation of Larynx. 
 
 Steaming of head and throat. 
 
 Hydrochiorio acid and treacle gargle. 
 
 Sulphurous acid inhalation. 
 
 Aconite. 
 
 Calomel and opium. 
 
 External stimulants. 
 
 Cathartics. 
 
 Tracheotomy. 
 Leucoma : Opacity of Cornea. 
 
 Silver nitrate. 
 
 Generous diet, 
 
 Tonics. 
 Leuooerhcea : Fluor Albus ; the 
 Whites. 
 
 Laxatives. 
 
 Syringe uterus with tepid water. 
 
 Syringe with zinc sulphate. 
 
 Turpentine and cantharides internally. 
 
 Digitized by Microsoft® 
 
558 
 
 INDEX OF DISEASES. 
 
 LiOE : PedicuK. 
 
 Essential oils. 
 
 Corrosive sublimate solution. 
 
 Zinc cMoride diluted solution. 
 
 Stavesaore decoction. 
 
 Sulphur iodide liuiment. 
 
 Tobacco water. 
 LiOHEir : Papular Eczema ; Rat tails. 
 
 Mercurial ointment. 
 
 Mercury nitrate ointment. 
 
 Tar ointment. 
 
 Arsenic and alkalies internally. 
 LiTHlASis : Gravel ; see Calculi and 
 
 Ueinaky Deposits. 
 Look Jaw ; see Tetanus. 
 'LoupiNa III in Sheep : Inflammation 
 of Brain and Spinal cord. 
 
 Laxatives ; SaUnes. 
 
 Change of pasture. 
 
 Sodium sulphite with food. 
 Luxations ; see Dislocations. 
 Lymphangitis : Weed ; Shot of Grease 
 in Horse. 
 
 Fomentations. 
 
 Purgatives and Aconite. 
 
 Clothing for body. 
 
 Alteratives and antiseptics. 
 
 Diuretics. , 
 
 Eest or gentle exercise. 
 
 Mad Staggers ; see Phbenitis. 
 Maggots ; the Ely. 
 
 Turpentine and oil. 
 
 Corrosive sublimate solution. 
 Mallenders ; see also Eczema and 
 Psoriasis. 
 
 Soft soap and water. 
 
 Mercury nitrate ointment. 
 
 Tar ointment. 
 
 Laxatives and salines internally. 
 Mal-Nuteition. 
 
 Liberal oleaginous dietary. 
 
 Calcium phosphates. 
 
 Iron salts ; Iron iodide. 
 
 Alteratives ; Antiseptics. 
 
 Tonics ; Alcohol ; Stimulants. 
 Mammitis : Garget ; Inflammation of 
 TJdder. 
 
 Cathartic. 
 
 Aconite ; Salines. 
 
 Fomentations. 
 
 Poultices of spent hops. 
 
 Support. 
 
 Frequent milking. 
 
 Teat syphon. 
 
 Belladonna. 
 
 Mercurial liniment. 
 
 Open abscesses. 
 
 Amputate gangrenous quarters. 
 Makge : Irritation caused by Parasites 
 of Genera Sarooptes, Dermato- 
 
 Mange — Contijmed. 
 
 dectes, and Symhiotes ; see also 
 Eczema Rubrum. 
 Destroy aearus. 
 Soap and water scrubbing. 
 Sulphur iodide ointment. 
 Stavesaore solution. 
 Corrosive sublimate solution. 
 Carbolic dressing. 
 Mange, Follicular or Pustular. 
 Shaving affected parts. 
 Scrubbing with soap and water. 
 Creasote alkali and oil. 
 Nourishing food. 
 Occasional laxatives. 
 Megrims : Vertigo ; Giddiness. 
 Remove pressure from neck. 
 Cold affusion. 
 Laxative diet. 
 Cool stable. 
 Arsenic and tonics. 
 Melanosis : Black Cancer. 
 Remove by knife or caustic, i 
 Dress with antiseptics. 
 Metritis ;• Inflammation of Uterus and 
 Bowels after Parturition. 
 OH and laudanum. 
 Aconite. 
 
 Anodyne clysters. 
 Antiseptic and anodyne injections. 
 Fomentations, hot cloths and sheepi 
 
 skins to loins. 
 Belladonna and opium. 
 Chloroform and ether. 
 Moon Blindness ; see Ophthalmia, 
 
 Periodic. 
 Mortification ; see Gangrene. 
 Mud Fever ; see also Erythema. 
 Rest. 
 
 Fomentations. 
 Laxatives ; Salines. 
 Zinc oxide ointment. 
 Lead acetate solution with oil. 
 Glycerin carbolate. 
 Mumps ; see Vivib. 
 Murrain : Foot-and-Mouth Disease ; 
 
 see Epizootic Aphtha. 
 Myositis :> Inflammation of Muscle. 
 Rest. 
 Foment. 
 Cathartic. 
 Rubefacient. 
 Galvanism. 
 Nux vomica. 
 
 Nasal Gleet : Ozsena. 
 Blister over sinuses. 
 Remove faulty teeth. 
 Zinc chloride injections. 
 Sulphurous acid inhalations. 
 Bleaching powder scattered in box. 
 
 Digitized by Microsoft® 
 
INDEX OF DISEASES. 
 
 559 
 
 Kasax Gleet — Continued. 
 Copper sulphate and arsenic. 
 Turpentine drenches. 
 Trefine sinuses. 
 Navioulak Disease : Grogginess. 
 Remove shoes. 
 Hot poultices. 
 Best. 
 
 Cold wet swabs. 
 Cathartic. 
 Laxative diet. 
 Mildly blister coronet. 
 Frog setons. 
 Neurotomy. 
 Diminish concussion by shoeing with 
 
 leather ; Shoes thick in quartei's, 
 
 thin at toe and heels. 
 
 NEBULa: OF COKNEA. 
 
 Silver nitrate. 
 Ndceosis : Death of Bone. 
 ' Removal of sequestrum. 
 Antiseptic dressings. 
 Nettie Rash : Urticaria; seeSuBPEiT. 
 Nephritis : Inflammation of Kidney. 
 ' Linseed ; Barley water ; Diluents. 
 Alkaline bicarbouates. 
 Anodyne clysters. 
 • Fomentations ; Mustard or fresh 
 sheepskins to loins. 
 Aconite. 
 Gentle laxative. 
 Belladonna ; Opium ; Camphor. 
 
 Obstruction of Bowels. 
 Laxative and nutritive clysters. 
 Fluid food ; Diluents. 
 Hypodermic injection of morphine 
 
 and atropine. 
 Mustard externally. 
 Linseed oil. 
 ' CEsTRUs Eqtji ; see BoTS. 
 OjPEN Joints. 
 Close wound by suture. ' 
 Rest horse, and prevent muscular 
 
 twitching by slinging. 
 Splints and bandages. 
 Antiseptic dressings. 
 Carbolic acid and oil. 
 Cold water irrigation over dress- 
 ings. 
 Laxatives and salines. 
 Blister. 
 
 "When wound small, close by cautery. 
 Ophthalmia, Periodic : Moon Blind- 
 ness of Horses. 
 Cathartic. , 
 Aconite. 
 
 Salines and mercurials. 
 Fomentations ; Anodynes. _ . 
 Belladonna or atropine internally 
 and externally. 
 
 Ophthalmia, Simple ; see also Con- 
 junctivitis. 
 
 Remove any irritant. 
 
 Foment. 
 
 Poppy heads. 
 
 Belladonna or atropine solution. 
 
 Astringent solution. 
 Osteo-Sahcoma. 
 
 Remove tumours. 
 
 Antiseptic dressings. 
 
 Soft nutritive diet. 
 Ostitis : Inflammation of Bone. 
 
 Fomentations. 
 
 Cold applications. 
 
 Cut through periosteum. 
 
 Purgatives. 
 
 Salines. 
 
 Alteratives. 
 
 Blister and fire. 
 Otorrhea : Inflammation of Lining 
 Membrane of Ear. 
 
 Hot fomentations. 
 
 Cathartic. 
 
 Laudanum and lead acetate dropped 
 into ear. 
 
 Morphine subcutaneously. 
 
 Glycerin of tannin' and other astrin- 
 gents. 
 Over-reach ; see also Bruises. 
 
 Foment. 
 
 Cold water. 
 
 Protect with pad. 
 
 Shorten and round off offending 
 shoe/ 
 OziEaiA ; see Nasal Gleet. 
 
 Pain, Inflammatory. 
 
 Foment. 
 
 Cathartic. 
 
 Aconite. 
 
 Calomel and opium. 
 
 Counter-irritant. 
 
 Rest. 
 Pain, Nervous. 
 
 Aconite. 
 
 Cold affusion. 
 
 Refrigerants. 
 
 Chloral hydrate. 
 
 Morphine and atropine subcutane- 
 ously. 
 Paralysis. 
 
 Remove causes of irritation. 
 
 Rest and quiet. 
 
 Laxative. 
 
 Light digestible food. 
 
 Mustard embrocations. ■ 
 
 Counter-irritants. 
 
 Nux vomica or strychnine. 
 
 Electricity. 
 Parturient Apoplexy ; see Apo- 
 plexy, Pakturient. 
 
 Digitized by Microsoft® 
 
560 
 
 INDEX OF DISEASES. 
 
 Patklla Dislocatiok. 
 Keep limb extended. 
 Cord round fetlock to neck. 
 Shoe horse high at toe and projecting 
 
 forward. 
 Blister stifle. 
 Pbeicakditis : Inflammation of Serous 
 Covering of Heart. 
 Digitalis. 
 
 Hyoscyamus and Opium. 
 Counter-irritants. 
 Perfect rest. ^ 
 Pbeitonitis : Inflammation of Serous 
 Covering of Bowel. 
 Aconite. 
 
 Calomel and Opium. 
 Hot fomentations. 
 External irritants ; Mustard. 
 Morphine and atropine suhcutane- 
 ously. 
 PhTjBBItis : Inflammation of Vein. 
 Blister. 
 Cathartic. 
 Laxative diet. 
 Phbbnitis : Inflammation of Brain ; 
 Mad Staggers. 
 Bleeding. 
 Ca,thartic. 
 Laxative clysters. 
 Aconite. 
 Cold to head. 
 Phthisis Pulmonalis : Pulmonary 
 Consumption. 
 Generous oleaginous dietary. 
 Alcoholic stimulants. 
 Comfortable warm lodgings. 
 Tonics ; Iron salts. 
 Rubefacients ; Mustard. 
 Sulphurous acid, inhalation, and 
 sponging. 
 Pleurisy : Inflammation of Seroug 
 Covering of Lungs. 
 Aconite. 
 
 Calomel and opium. 
 Laxative clysters. 
 Salines. 
 
 Counter-irritants. 
 Morphine and atropine subcutane- 
 
 ously. 
 Remove fluid by operation. 
 Iron Chloride and Iodide. 
 Plbukodtnia : Non-inflammatory Pain 
 in Chest. 
 Hot Foraentations. 
 Hot smoothing-iron. 
 Counter-irritants ; Mustard. 
 Morphine and atropine subeutane- 
 ously. 
 Plbubo-Pnetjmonia, Epizootic : Con- 
 tagious Pleuro-Pneumonia of 
 Cattle. 
 
 PiEUKO-PNEirMGNiA — Contimied. 
 
 Sloppy food. 
 
 Good nursing. 
 
 Epsom salt, nitre, and gentian. 
 
 Potassium chlorate ; Sodium sul- 
 phite. 
 
 Hydrochloric acid and treacle. 
 
 Sulphurous acid, inhalation, and 
 sponging. 
 
 Mustard to sides. 
 
 Isolate infected subjects. 
 
 Disinfectants. 
 Pneumonia : Inflammation of Lungs. 
 
 Salines. 
 
 Alcoholic and other stimulants. 
 
 Bleed to relieve action of heart. 
 
 Counter-irritants. 
 
 Aconite. 
 
 Soft nutritive food. 
 
 Diuretics. 
 Poll Evil ; see Fistulous "Wounds. 
 Polyuria ; see Diabetes Insipidus. 
 PmoKs in Horse's Foot. 
 
 Remove shoe. 
 
 Search for injury. ' 
 
 Dependent opening. 
 
 Poultice. 
 Prolapsus Ani and Uteei. 
 
 Return viscus carefully after cleaning 
 and washing with idilnte spirit, 
 laudanum and carbolic acid. * 
 
 Close external opening with suture. 
 
 Control straining by opium and 
 chloral. 
 
 Soft digestible food. 
 Prurigo : Itching. 
 
 Hot fomentations. 
 
 Alkaline wash. 
 
 Sulphurous acid solution. 
 
 Goulard's extract and Prussio acid 
 lotion. 
 
 Aconite tincture. 
 
 Calomel ointment. 
 PsojE Muscles Strain. 
 
 Rugs wrung outof hot water. 
 
 Sheepskins over loins. 
 
 Anodyne clysters. 
 
 Rubefacients to loins. 
 Psoriasis: Chronic Eczema; Mallenders. 
 Soap and water. 
 Tar ointment. 
 Sulphur iodide ointment. 
 Mercurial ointment. 
 Salines internally. 
 Arsenic and mercurials. 
 Potassium iodide. 
 Cantharides. 
 Puerperal Fever in Cattle ; see 
 
 PuERPBEAL Apoplexy and 
 
 Metritis. 
 
 Digitized by Microsoft® 
 
INDEX OP DISEASES. 
 
 561 
 
 Pumiced Foot in Hoeses. 
 Bar shoe with wide web. 
 Lessen ooricussion by leather soles. 
 Tar dressings. 
 Stimulate coronet. 
 PuEPUBA HiBMOKEHAGiCA : Swelling 
 and Ecohymosis of Skin and 
 Mucous Surfaces, sometimes with 
 Low Fever. 
 Oil of turpentine and iron. 
 Salines, potassium chlorate. 
 Stimulants. 
 Antiseptics externally. 
 Wash swellings with diluted Goul- 
 ard's extract and carbolic acid. 
 Disinfectants, 
 PriKMiA : Septicaemia ; Formation of 
 Pus with Fever. » 
 
 Thoroughly cleanse wound; 
 Zinc chloride solution. 
 Fomentations. 
 
 Carbolic acid ; Antiseptic dressings. 
 Mineral acids ; Iron ; Alcohol ; other 
 
 tonics. 
 Liberal dietary : Milk ; Eggs ; Soup. 
 Pure air and water. 
 
 QuAETBE Evil ; Black Quarter ; Con- 
 gestive Fever of Young Cattle, 
 and Sheep ; Charbon. 
 Treatment rarely successful. 
 Cathartics. 
 
 Stimulants, externally and internally. 
 Prevent by avoidance of any check 
 andbyregular feeding and exercise. 
 . Seton in dewlap. 
 Sodium sulphite and potassium chlo- 
 rate given twice a week. 
 Sulpho-carbolatBs. 
 QuiTTOE : The Pipes ; see also Fis- 
 tula. 
 Dependent opening. 
 Eemove' irritant. 
 Poultice. 
 Lay open sinuses. 
 Core out with corrosive sublimate or 
 
 arsenic. 
 Bar shoe and rest. 
 Blister coronet. 
 
 Babies : Hydrophobia. 
 
 Incurable. 
 
 Symptoms abated by Chloral, hydrate 
 and belladonna. 
 
 Ammonia subcutaneously. 
 
 Excise and cauterise at once the bit- 
 ten part. 
 Ehptjmati^m. 
 
 Purgatives. 
 
 Salicylic acid. 
 
 Salines ; Alkalies. 
 
 Eheitmatism — Continued. 
 
 Tuipentine externally and inter- 
 nally. 
 
 Fomentations. 
 
 Eugs wrung out of hot water. 
 
 Vapour or hot bath. 
 
 Hot salt ; Smoothing-iron. 
 
 Mustard Blisters. 
 ElOKBTS : Rachitis. 
 
 Calcium phosphate. 
 
 Lime water. 
 
 Iron salts. 
 
 Nourishing oleaginous diet. 
 
 Milk ; Linseed ; Cod-liver oil. 
 
 Splints and bandages. 
 EiNDBEPBST : Cattle Plague ; Conta- 
 gious Enteric Fever. 
 
 Earely curable. 
 
 Sloppy food. 
 
 Potassium chlorate ; Sodium sul- 
 phite. 
 
 Sulphurous acid inhalation and spong- 
 ing. 
 
 Carbolic acid internally and exter- 
 nally. 
 
 Tonics ; Stimulants. 
 
 Mineral acids and bitters. 
 
 Separate healthy from sick. 
 
 Disinfectants. 
 EiNGBONB : Exostosis on Horse's Cor- 
 onet. 
 
 Cold wet swab. 
 
 Bar shoe. 
 
 Cathartic. 
 
 Counter-irritants. 
 EiNGWOEM : Tinea Tonsurans. 
 
 Soft soap and water. 
 
 Sulphur iodide. 
 
 Iodine and potassium iodide solution 
 or ointment. 
 
 Iron chloride solution. 
 
 Corrosive.'sublimate solution. 
 Eoaeing in Hoeses., 
 
 Seldom curable. 
 
 Seton ; Blister. 
 
 Damped food. 
 
 Nux vomica and strychnine. 
 EOT IN Sheep : Hydatid in Liver. 
 
 Salines. 
 
 Antiseptics. 
 
 Iron salts. 
 
 Turpentine and gentian. 
 
 Dry nutritive food, 
 
 Sallbndbes ; see Psoeiasis. 
 Sand Ceaok : Fissure of Horn of 
 Horse's Foot. 
 Bottom the crack. • 
 Cut it off above and below. 
 Eeplace ordinary with bar shoe, or 
 shoe with clips. 
 
 2 
 
 Digitized by Microsoft® 
 
562 
 
 INDEX OF DISEASES. 
 
 Sand Ceack — Contirvued. 
 
 Shoe so as to remore pressure from 
 crust adjoining crack. 
 
 Poultice. 
 
 Best. 
 
 Stimulate growth of new horn. 
 Scab in Sheep ; see also Acaei. 
 
 Potashes and Soft soap solution. 
 
 Sulphur iodide solution. ' 
 
 Mercurial ointment. 
 
 Tar oil. 
 
 Tobacco juice. 
 
 Stavesacre. 
 SoAKLATiNA : Blood Disease of Horses, 
 characterised by Subacute In- 
 flammation of Skin and Mucous 
 Surfaces, with Low Fever. 
 
 Ammonia. 
 
 Alcohol ; Ether. 
 
 Oil of turpentine. 
 
 Iron salts. 
 
 "Warm clothing. 
 
 Laxative clysters. 
 
 Diuretics ; Antiseptics. 
 
 Hand-rub and gently stimulate swell- 
 ings. 
 
 Soft digestible food. 
 SciREHtrs : Hard Cancer. 
 
 Excision. 
 
 Antiseptic dressings. 
 ScEOFULA : Tuberculosis. 
 
 Generous diet. 
 
 Linseed and oily food. 
 
 Antiseptic treatment. 
 
 Iron salts. 
 
 Warmth : Comfortable surroundings. 
 Sbedt Toe ; Perverted Secretion of 
 Detached Horn of Horse's Toe. 
 
 C)it away diseased horn. 
 
 Tar or carbolic dressings. 
 
 Nitric acid. 
 
 Shoe to guard from pressure. 
 
 Bar shoe and leather sole. 
 
 Blister coronet. 
 Shouldee Slip :, Strain of Muscles of 
 Horse's Shoulder. 
 
 Foment. 
 
 Purgative. 
 
 Eest. 
 
 Blisters ; Seton. 
 Side Bone ; Ossification of Lateral 
 Cartilages. 
 
 Bar shoe. 
 
 Cold applicatioriB. 
 
 Eest. 
 
 Blisters ; Firing. 
 
 Neurotomy. 
 SiTFAST : Gangrenous Patch of Skin. 
 
 Foment and Poultice. 
 
 Dissect out. 
 
 SiTFAST — Continued. 
 
 Silver nitrate. 
 
 Carbolic dressings. 
 Small-Pox in Sheep : Variola Ovina. 
 
 Good nursing. 
 
 Soft laxative food. 
 
 Salines.' 
 
 Condy's fluid externally. 
 SokeTheoat: Pharyngitis; Cynanehe 
 Tonsillaris ; Angina. 
 
 Steam head and throat. 
 
 Laxative; Clystelrs. 
 
 Salines. 
 
 Belladonna. ' 
 
 Sulphurous acid gargle and spray. 
 
 Hydrochloric acid and treacle gargle. 
 
 Mustard embrocations. 
 Soke Shins ; see Ostitis. 
 Spasm : Cramp. 
 
 "Warmth ; Friction. 
 
 Opium and belladonna. 
 
 Ether ; Chloral hydrate. 
 
 Hydrocyanic acid. 
 Spavin, Bog ; see Bog Spavin. 
 Spavin (Bone). 
 
 Cathartic. 
 
 Eest. 
 
 Counter-irritant. 
 
 Mercury iodide ointment. 
 
 Firing iron ; Seton. 
 
 Periosteotomy. , 
 
 High-heeled shoe. 
 Splenic Apoplexy; see Apoplexy, 
 
 Splenic. 
 Splints. 
 
 Fomentations. 
 
 Eefrigerants. 
 
 Purgative. 
 
 Eest. 
 
 Counter-irritants. 
 
 Mercuric iodide ointment. 
 
 Subcutaneous periosteotomy. 
 
 Diminish concussion by leather soles. 
 Speedy Cut ; see also Bruises. 
 
 Hot fomentations. 
 
 Laxative. 
 
 Cold water and antiseptic dressing. 
 
 Well-fittingshoes,uarrowininnerweh. 
 
 Boot. 
 
 Counter-irritant. 
 Spkains of Muscles, Tendons, and 
 Ligaments. 
 
 Foment. 
 
 Cathartic. 
 
 Eelieve tension. 
 
 Cold applications. 
 
 Counter-irritants. 
 
 Mercuric iodide ointment. 
 
 Seton ; Firing iron. 
 Staggers ; see Indigestion a»d 
 Phebnitis. 
 
 Digitized by Microsoft® 
 
INDEX OP DISEASES. 
 
 563 
 
 ;, s Stomach Staggers in Horses ; see 
 Indigestion. 
 , Strangles : Catarrhal Fever of Horses. 
 Foment and Poultice. 
 Steam head. 
 Soft nutritive diet. 
 Cool air. 
 Salines. 
 
 Sodium sulpHte. 
 Blister tardy swelling. 
 Tonics and stimulants. , 
 
 Strangury : Difficult and Painful 
 Passage of Urine, which drihbles 
 away. 
 Remove cause. 
 . Pass catheter. 
 "Warm or Vapour bath. 
 Diluents. « 
 
 Laxative and soothing clysters. 
 Fr^sh sheepskins or rugs wrung out 
 
 of hot water to loins. 
 Sweet spirit of nitre and diuretics 
 
 cautiously given. 
 Belladonna inunction. 
 Steinghalt : A spasmodic Movement 
 usually of the horse's Hind Limb. 
 -' > Incurable. 
 
 Eelieve any aggravating spavin or 
 
 other lameness. 
 ITux vomica or strychnine. 
 , ., . ^ , Nerve stretching. 
 
 :" Sturdy ;■ see Hydatid in Brain. 
 Surfeit : Urticaria ; Nettle Eash. 
 Purgative. 
 Diuretic. 
 Laxative diet. 
 Lead acetate solution. 
 Sulphurous acid solution. 
 Synovitis : Inflammation of Synovial 
 Membrane from open joint. 
 Refrigerants ; Cold water. 
 Anodynes ; Poppy heads. 
 Best. 
 
 High-heeled shoe. 
 Slings if needful. 
 Laxative. 
 
 Aconite, internally and externally. 
 Blister. 
 
 Tabes Mbsenterica : Tuberculosis 
 of Bowels. 
 Generous oleaginous diet. 
 Sodium sulphite. 
 , , Iron chloride. 
 
 Calcium phosphate. 
 Tate Worm : Taenia. 
 Turpentine and oil. . 
 popper sulphate. 
 , ' , ' , . Msde shield fern. 
 Areca nut for dogs. 
 Tendons Contbaoted (Horses). 
 
 Tendons Contracted — CotUinued. 
 
 Careful shoeing. 
 
 Blisters. 
 
 Tenetomy. 
 Tendons or Ligaments Ruptured ; 
 see also Sprains (Horses). 
 
 Rest. 
 
 Foment ; Allay inflammation. 
 
 Splints ; Starch bandages. 
 
 Cold water. 
 
 Afterwards stimulate externally, 
 Tetanus : Lock-Jaw. 
 
 Purgative. 
 
 Chloral hydrate ; Conium ; Prussic 
 acid. 
 
 Cool air ; Warm clothing. 
 
 Perfect quiet. 
 
 Soothe any wound. 
 
 Vapour bath. 
 Thick Wind. 
 
 Seldom curable. 
 
 Damped food. 
 
 Regulated water supply. 
 
 Calomel, opium, and digitalis. 
 
 Professor Dick's recipe. 
 
 Occasional dose of Epsom salt. 
 Thorough-pin of Hock or Knee. 
 
 Foment. 
 
 Cathartic. 
 
 Rest. 
 
 Blister. 
 
 Spring truss ; Bandage. 
 Threadworms in Rectum ; see also 
 F1LARI.B. 
 
 Turpentine and lime water. 
 
 Iron chloride solution. 
 
 Quassia solution. 
 Thrombus : Extravasation of Blood. in 
 Areolar Tissue from Bleeding. 
 
 Tie up head. 
 
 Foment; Scarify. 
 
 Blister. 
 Thrush in Mouth ; see Aphtha. 
 Thrush in Horse's Frog. 
 
 Cleanliness. 
 
 Carbolic acid and oil, equal parts. 
 
 Calomel. 
 
 Tar stopping ; Laxatives. 
 
 Shoe with tips. 
 Ticks in Sheep : Melophagus Ovinus. 
 
 Baths of sulphur, potashes, and soft 
 
 Baths of sulphur, arsenic, and soft 
 
 soap. 
 Tar oils. 
 
 Carbolic dressings. 
 Toothache. 
 
 Extract offending tooth. 
 
 Tannin dissolved in alcohol and ether. 
 
 Morphine and atropine. 
 
 Digitized by Microsoft® 
 
564 
 
 INDEX OF DISEASES. 
 
 TooTHACpE — Continued. 
 
 Collodion. 
 
 Creosote. 
 
 Mustard or warmtli externally. 
 Tkbads about Hoesb's Feet; see 
 also BSmsES. 
 
 Poultice ; Foment. 
 
 Cathartics. 
 
 Antiseptic dressings. 
 
 Heels of shoes well rounded off. 
 Tubercular Disease ; see Scrofula. 
 Tympanitis ; see HpvEN, 
 Typhoid Fevee ; see GtASTeic Fever. 
 
 TJddbe, Inflammation oe ; see Mam- 
 
 MITIS. 
 
 Ulcer : Degenerate Sore. 
 
 Eemove irritation. 
 
 Physiological rest. 
 
 Promote healthy circulation by as- 
 ningents. 
 
 Caustics. 
 
 Bandages ; Laxatives. 
 
 Change of diet. 
 
 Antiseptics. 
 
 Tonics. 
 Urinary Calculi ; see Calculi, 
 
 Urinary. 
 Urinary Deposits : Lithiasis ; Gravel ; 
 see also Calculi. , 
 
 Diluents. 
 
 Laxative food. 
 
 Alkalies. 
 
 Exercise. 
 Urticaria ; see Nettle Eash. 
 Urethritis : Inflammation of Urethra. 
 
 Foment ; Laxatives. 
 
 Anodyne clysters. 
 
 Belladonna internally and locally. 
 
 Astringent injections. 
 
 Cast and caustic. 
 Uterus, Inflammation of ; see Mam- 
 
 MITIS. 
 
 Vaeioose Veins. 
 
 Cold wet bandages. 
 
 Friction. 
 
 Obliterate vein. 
 Variola Ovina ; see Small-Pox. 
 Variola Vaccina : Cow-Poi. 
 
 Foment Udder. 
 
 Poultice of spent hops. 
 
 Laxative ; Salines. 
 
 Draw away milk, with teat-syphon. 
 
 Vbetigo ; see Megrims in Horse. 
 ViVES : Bastard Strangles. 
 
 Blister ; Salines. 
 
 Alteratives. 
 
 Sodium sulphite. 
 
 Calcium sulphide. 
 
 Generous diet. 
 
 Tonics. 
 ViLLiTis : Coronitis ; Inflammation of' 
 Coronary substance in Horses. 
 
 Rest ; Eemove shoes. 
 
 Foment and poultice. 
 
 Purgatives ; Febrifuges.. 
 
 Cold applications. 
 
 Blister coronet. 
 
 Wabts. 
 
 Excision ; Ligature ; Torsion. 
 
 Nitric acid. 
 
 Mercury and Silver nitrates. 
 
 Glacial acetic acid. 
 Weed : Shot of Grease ; see Lym- 
 phangitis, 
 Whistling in Hoesbs. 
 
 Seldom curable. 
 
 Setons ; Blisters. 
 
 Potassium iodide. 
 Windgalls : Ganglions ; Enlarged 
 Synovial Bursa. 
 
 Equable pressure by flannel bandages. 
 
 Hand-rubbing. 
 
 Cold applications. 
 
 Blisters. 
 
 .Careful shoeing. 
 Wind Suokbes (Horses). 
 
 Spiked strap on throat. 
 
 Laxative. 
 
 Alterative does of aloes. 
 
 Damped food. 
 
 Alkalies ; Bitters. 
 Withers, Fistulous ; see Fistuub. 
 Worms, Intestinal ; see also Filari^b 
 and Tapeworms. 
 
 Turpentine and other volatile oils. 
 
 Aloes and other purgatives. 
 
 Areca nut and santonin for dogs. 
 
 Tobacco-smoke clysters. 
 
 Clysters of soap and waiter, turpen- 
 tine, iron chloride, or oak bark 
 solution. 
 
 Quassia and bitters. 
 
 Copper sulphate and arsenic. 
 
 Prevented by properly regulated 
 dietary and access to rock salt. 
 
 Digitized by Microsoft® 
 
INDEX OF MEDICINES. 
 
 565 
 
 IL INDEX OP MEDICINES. 
 
 Absorption of medicines 
 Acacia, gum 
 Acetate of ammonia 
 copper 
 lead , 
 morpHne 
 potash 
 zine 
 Acetic acid 
 
 aether 
 Acetone . 
 Aoetum . 
 Acids 
 Acid, acetic 
 
 aconitic 
 
 arable 
 
 arsenions 
 
 horaeic 
 
 carbolic C-< 
 
 cincho-tannio 
 
 cresylic 
 
 crotonic 
 
 ergotic 
 
 ferulaic 
 
 gallic . 
 
 gentianic 
 
 hydrochloric 
 
 hydrocyanic 
 
 igasuric 
 
 kinic or quinio 
 
 margaric 
 
 meconic 
 
 muriatic 
 
 myronic 
 
 nitric 
 
 nitroi-hydrochloric 
 
 nitrous 
 
 oleic 
 
 phenic 
 
 phosphoric . 
 
 pinic 
 
 prussic 
 
 pyroligneous 
 :;■-' salicylic *<" 
 
 strychnic 
 
 sulpho -carbolic 
 
 sulphuric . 
 
 suiphurou? . 
 
 sylvic 
 
 tannic VC 
 
 tartrate of potash 
 
 tiglic 
 Aconite . 
 
 experiments with 
 extract of 
 
 PAGE 
 
 3, 90 
 
 PAGE 
 
 Aconite, Fleming's tincture of A^ 123 
 
 321 
 
 poisoning 
 
 . 117 
 
 158 
 
 Aconitine 
 
 116, 123 
 
 279 
 
 Aooms . 
 
 . 419 
 
 365 
 
 Action of medicines explained 
 
 439 
 
 chemically 
 
 5 
 
 466 
 
 mechanically 
 
 5 
 
 456 
 
 how established . 3 
 
 111 
 
 how modified 
 
 . 85 
 
 299 
 
 on different patients 87 
 
 ' 83 
 
 Actual cautery 
 
 33i 39 
 
 111 
 
 Adeps or hog's lard 
 
 . 190 
 
 34 
 
 Administering of medicines 86, 90 
 
 111 
 
 Adulterations 
 
 . 86 
 
 116 
 
 ^rugo 
 
 . 279 
 
 322 
 
 iEther, acetic 
 
 . 300 
 
 174 
 
 chloric 
 
 . 259 
 
 205 
 
 nitrous 
 
 . 512 
 
 226 
 
 sulphuricns *^ 
 
 . 299 
 
 264 
 
 ffithereal oil 
 
 . 300 
 
 227 
 
 jEtheris nitrosi spiritus 
 
 . 612 
 
 283 
 
 Age of patients . 
 
 . 90 
 
 294 
 
 Akazga, an African ordeal plant 418 
 
 190 
 
 Alcohol . . cy^ 
 
 . 124 
 
 811 
 
 absolute . 
 
 . 125 
 
 316 
 
 amylic . 
 
 . 126 
 
 332 
 
 methylic . 
 
 126, 398 
 
 466 
 
 phenic 
 
 . 226 
 
 409 • 
 
 poisoning 
 
 . 130 
 
 264 
 
 Aldehyd . 
 
 . 83 
 
 421 
 
 Ale 
 
 . 126 
 
 426 
 
 Alkalies . 
 
 . 36 
 
 332 
 
 Allopathy 
 
 6 
 
 400 
 
 Allspice . 
 
 . 443 
 
 405 
 
 Aloe, characters of 
 
 . 133 
 
 408 
 
 spicata 
 
 . 1:36 
 
 406 
 
 Soootrina . 
 
 . 135 
 
 420 
 
 vulgaris 
 
 . 133 
 
 226 
 
 Aloes, Barbadoes (^ 
 
 . 133 
 
 406 
 
 Bombay . 
 
 . 134 
 
 528 
 
 caballiue or horse 
 
 . 136 
 
 466 
 
 Cape 
 
 . 136 
 
 112 
 
 comparative effect of dif- 
 
 476 
 
 ferent varieties of .140 
 
 409 
 
 East Indian 
 
 . 134 
 
 227 
 
 Hepatic . 
 
 . 135 
 
 507 
 
 Mocha 
 
 . 135 
 
 509 
 
 Soeotrine . 
 
 . 135 
 
 528 
 
 Aloes, solutions of 
 
 . 144 
 
 310 
 
 tinctures of 
 
 . 145 
 
 466 
 
 Altoetic masses 
 
 . 144 
 
 283 
 
 Aloin 
 
 . 145 
 
 115 
 
 experiments with 
 
 , . 146 
 
 117 
 
 good purge for hoi 
 
 ses . 146 
 
 122 
 
 useful febrifuge 
 
 . 147 
 
 Digitized by Microsoft® 
 
566 
 
 INDEX OF MEDICINES. 
 
 Alteratives or alterants . . 66 
 
 Alterative prescriptions, 35, 37, 66, 144, 
 
 158, 170, 182, 213, 269, 338, 350, 
 
 376, 384, 391, 408, 452, 456, 459, 
 
 463, 485, 487, 491, 503. 
 
 Althese radix . . .377 
 
 Aliim, ammonia . . .148 
 
 potash . . . 148 
 
 soda . . .148 
 
 Aliimen t/* ■ • • 1*8 
 
 Aluminum and its compounds . 148 
 
 chloride . . 151 
 
 sulphates . .148 
 
 Ammonia alum . . . .148 
 
 Ammoniated mercury . . 395 
 
 tinct. opium . 438 
 
 Ammonium and its compounds . 152 
 
 aqua . . 152 
 
 acetate . . 158 
 
 carbonates . . 156 
 
 chloride . . 157 
 
 copper sulphate . 277 
 
 hydrate . . 152 
 
 muriate ^ . 157 
 
 aesqui-carhonate . 156 
 
 spirit . . 156 
 
 Ammoniac gum . . ,. 190 
 
 Amorphous quinine . , 264 
 
 Amyl hydride . . .83 
 
 nitrite . . 84, 159 
 
 Ainylene . . .84 
 
 Amylic alcohol . . .126 
 
 Amylum ; wheat flour . . 496 
 
 'Anaesthetics . , 78, 254, 302 
 
 local, 82, 122, 249, 258, 
 
 302. 
 
 Angustura hark, false 
 
 Aniline . 
 
 Anise 
 
 409 
 226 
 160 
 161 
 160 
 76 
 122, 
 
 camphors 
 Aniseed . 
 Anodynes 
 
 Anodyne prescriptions, 76, 104, 
 132, 198, 217, 248, 258, 260, 383, 
 328, 330, 334, 433, 473, 538. 
 Antacids . . .36 
 
 Antacid prescriptions, 154, 209, 211, 
 
 , 372, 384, 455, 482, 485, 494. 
 
 Antagonism between medicines, 32, 441 
 
 Authelmintics, 50, 142, 172, 189, 190, 
 
 304, 307, 355, 392, 446, 474, 479, 
 
 517, 525, 529. 
 
 Anthemidis flores . . 243 
 
 Antidotes . . .31 
 
 Anti-emetics 45, 282, 343, 441, 473 
 
 Antmthies . . 37, 455, 485 
 
 Antimony and its compounds . 161 
 
 butter or ofl. of . 163 
 
 chloride or muriate of 163 
 
 crocus of . .162 
 
 crude or common . 162 
 
 FAOI 
 
 Antimony, glass of . .163 
 
 golden snlphuret of . 162 
 oxides of . . 161 
 
 sulphides of . .162 
 
 tartarised ^ ■ . 163 
 tests for . .164 
 
 white . . .162 
 
 Antiparasitics, see Anthelmintics 
 
 and Vermifuges . . 50 
 
 Antipathy . . .6 
 
 Antiperiodics 73, 182, 266, 268, 481 
 Antiphlogistics, alteratives, febri- 
 
 fnges . . . .67 
 
 Antiputrescents, antiseptics . 14 
 
 Antiseptics, 14, 151, 155, 184, 204, 205, 
 
 229, 245, 249, 250, 265, 268, 276, 
 
 282, 333, 334, 352, 395, 446, 461, 
 
 476, 487, 494, 507, 511, 527, 545, 
 
 546. 
 
 Antiseptic surgery, 18, 204, 205, 231, 
 
 340, 477, 512, 527. 
 Antispasmodics, 65, 75, 77, 121, 131, 
 155, 198, 208, 258, 260, 303, 370, 
 434, 473, 514, 518, 523, 531. 
 Aperients, see Laxatives . . 49 
 
 Aphrodisiacs . . 46, 412 
 
 Apomorphine . . 44, 426 
 
 Apothecaries' measure . . 108 
 
 weight . . 108 
 
 Aqua .... 534 
 ammoniae . . . 152 
 
 -fortis . . . 405 
 
 potassae . . . 451 
 
 regia . . . 408 
 
 Arabia . . . .322 
 
 Areea catechu . . 171,241 
 
 Areca nut . . . 171 
 
 Argenti nitras . . . 480 
 
 Argol or crude tartar . . 464 
 
 Arnica .... 172 
 Arnicin . . . .173 
 
 Aromatics 41, 61, 237, 243, 318 
 
 Arrow poisons . . .73 
 
 Arrowroot . . . 496 
 
 Arsenic and its compounds . 174 
 
 antidotes for . .181 
 
 poisoning by . . 178 
 
 sulphurets of . . 175 
 
 tests for . . . 175 
 
 white . . . 174 
 
 Arsenical solution . . 188 
 
 Arsenicum album . . 174 
 
 Arsenious acid . . . 174 
 
 Arsenite of potash, solution . 188 
 iron . . .346 
 
 strychnine . .418 
 
 Arseniuretted hydrogen 176, 177 
 
 Artemisia or wormseed . 51, 188 
 
 Aspidium iilix mas. . . 307 
 
 Assafoetida . . . 189 
 
 Asliingents, 69,^213, 242, 276, 279, 
 
 Digitized by Microsoft® 
 
INDEX OP MEDICIKES. 
 
 567 
 
 282, 296, 309, 333, 352, 364, 367, 
 ■ 395, 404, 407, 4X9, 475, 480, 507, 
 
 521, 528, 543, 545, 547. 
 Atropa belladonna . , 193 
 
 :A:tropacesB . 193, 329, 514 
 
 Atropine. . , , 200 
 
 compared with morphine 441 
 Autumn crocus . . . 276 
 
 1 Avoirdupois weight 
 Axunge or hog's lard 
 
 Balis or boluses. 
 
 Balsam, Canada . 
 
 Trial's . 
 
 of GUead 
 
 of Peru . 
 
 of Tolu . 
 
 Balsamodendion Myrrha 
 
 Barhadoes aloes . 
 
 tar 
 Barbaloin 
 Bark, cinchona . 
 
 oak 
 Barley 
 Barley sugar 
 Barm 
 Bassorin . 
 Baths 
 
 cold 
 hot. 
 
 medicated . 
 vapour or Turkish 
 Bdellium or false myrrh 
 Bear's foot 
 Beebeeru bark 
 Bees' wax 
 Belladonna 
 Benzine . 
 
 Benzoated lard . . 190, 
 
 Benzoic acid 
 Benzoin . 
 
 compound tincture of 
 , Berbery tribe ' , 
 Betel-nut 
 Bicarbonate of potash 
 
 soda . 
 Bisulphate of potash 
 Bittern . 
 
 Bitters 237, 316, 404, 474, 527, 
 Bitumen . • 
 Black, animal 
 
 bone, or ivory 
 hellebore . 
 oils 
 . sugar 
 wash 
 Bleaching powder 
 Blisters, 39, 114, 155, 170, 224, 286, 
 
 306, 339^ 382, 398, 401, 526, 538. 
 'Blisters, aeiieral.aotions of . 372 
 ly . . . 218 
 
 108 
 190 
 
 96 
 520 
 204 
 520 
 204 
 204 
 403 
 134 
 445 
 145 
 260 
 419 
 192 
 499 
 192 
 322 
 540 
 540 
 540 
 540 
 540 
 404 
 323 
 265 
 541 
 193 
 
 84 
 204 
 204 
 203 
 204 
 447 
 171 
 464 
 484 
 456 
 373 
 538 
 445 
 244 
 244 
 323 
 421 
 371 
 ^5 
 212 
 
 Bloodletting 
 
 topical 
 Blue pills 
 
 ointment 
 
 Prussian 
 
 stone 
 
 vitriol 
 Boluses, how made, etc. 
 
 mass for 
 Bone or ivory black 
 Boracic acid 
 Borax . / 
 Borneo camphor 
 Bottles . / 
 Brandy . 
 Brimstone 
 British gum 
 Bromal hydrate 
 Bromide of ammonium . 
 potassium . 
 sodiiim 
 Bromine . 
 Brucine or brucia 
 Buckthorn 
 
 . syrup of 
 Burgundy pitch . 
 Burnett's disinfecting liquid 
 Butter of antimony 
 
 Caballinb aloes . 
 Calabar bean 
 Calamine . 
 Calcareous spar . 
 Calcined magnesia 
 Calcis carbonas . 
 Calcium and its compounds 
 
 oxide of 
 
 carbonate 
 
 chlorata 
 
 phosphate 
 Calefacients, stimulants ., 
 Calisaya bark 
 Calomel . 
 Calumba bark 
 
 Calvert's disinfecting powder 
 Calx 
 
 chlorinata . 
 usta . 
 Cambogia or Gamboge . 
 Camphor. 
 
 artificial 
 
 oil or liquid 
 
 Borneo . 
 Camphora ofB.cinarum •. 
 Canabis Indioa . 
 
 sativa 
 Canada balsam . 
 Cane sugar 
 
 Caath^rides . • 
 
 liniments of . 
 
 FAOB 
 
 . 75 
 
 . 75 
 
 . 384 
 
 . 382 
 
 . 467 
 
 . 275 
 
 . '275 
 
 . 96 
 
 . 370 
 
 . 244 
 
 . 204 
 
 . 485 
 
 . 216 
 
 . 98 
 
 . 126 
 
 . 501 
 
 322, 496 
 
 . 248 
 
 . 460 
 
 . 460 
 
 . 460 
 
 . 75 
 
 . 418 
 
 . 206 
 
 . 207 
 
 . 521 
 
 . 546 
 
 . 163 
 
 . 545 
 
 . 137 
 
 74, 207 
 
 . 543 
 
 . 210 
 
 . 372 
 
 . 210 
 
 . 208 
 
 , 210 
 
 . 212 
 
 . 212 
 
 . 212 
 
 . 64 
 
 . 261 
 
 . 386 
 
 265, 316 
 
 235, 236 
 
 . 208 
 
 . 212 
 
 . 208 
 
 . 312 
 
 , 215 
 
 . 216 
 
 . 216 
 
 .. 216 
 
 . 215 
 
 . 334 
 
 . 334 
 
 . 520 
 
 . 498 
 
 . 218 
 
 . 225 
 
 Digitized by Microsoft® 
 
568 
 
 INDEX^OF MEDICINES. 
 
 DES^( 
 
 
 
 
 PAGE 
 
 
 
 
 FAGK 
 
 Cantharides, ointtaents of 
 
 
 224 
 
 Cera Sara 
 
 
 541 
 
 plasters of . 
 
 
 225 
 
 Cei9.tes . 
 
 
 
 102 
 
 tinctures of 
 
 
 
 223 
 
 Cerevisia or yeast 
 
 
 
 192 
 
 vinegars of 
 
 
 
 224 
 
 Cetaceum, cetine 
 
 
 
 495 
 
 Cantharidin 
 
 
 
 219 
 
 Chalk 
 
 
 
 210 
 
 Cantharis vesicatoria 
 
 
 
 218 
 
 mixtures . 
 
 
 
 211 
 
 Capsicin . 
 
 
 
 444 
 
 Chamomile flowers 
 
 
 
 243 
 
 Capsicum 
 
 
 
 444 
 
 Charcoal, animal . 
 
 
 
 244 
 
 Carbo animalis . 
 
 
 
 244 
 
 wood . 
 
 
 
 244 
 
 ligni 
 
 
 
 244 
 
 Charges . 
 
 
 
 103 
 
 Carbolic acid 
 
 
 
 226 
 
 Chemical combination modifies 
 
 
 Carbon . 
 
 
 
 244 
 
 the actions of medicines 
 
 
 86 
 
 Carbonates.of ammoniai 
 
 
 
 156 
 
 Chilies . 
 
 
 444 
 
 iron 
 
 
 
 346 
 
 Chiretta . 
 
 
 
 316 
 
 lead 
 
 
 
 363 
 
 Chloral . 
 
 
 
 246 
 
 lime 
 
 
 
 210 
 
 hydrate . 
 
 
 
 246 
 
 magnesia 
 
 
 
 371 
 
 Chloralum 
 
 
 16 
 
 ,151 
 
 potasb 
 
 
 
 454 
 
 Chloric ether 
 
 
 
 259 
 
 soda 
 
 
 
 482 
 
 Chloride of aluminium 
 
 
 
 151 
 
 zinc 
 
 
 
 544 
 
 ammonium 
 
 
 
 157 
 
 Cardamoms 
 
 
 
 161 
 
 lime . 
 
 
 
 212 
 
 Cardiac sedatives 73, 121, 
 
 165, 
 
 330, 
 
 sodium 
 
 
 
 487 
 
 453. 
 
 
 
 zinc . 
 
 
 
 545 
 
 stimulants 64, 127, 
 
 155, 
 
 158, 
 
 Chlorides of mercury 
 
 
 386 
 
 392 
 
 194, 291, 399, 514 
 
 
 
 Chlorinated lime 
 
 
 
 212 
 
 tonics 73, 131, 291 
 
 330 
 
 435 
 
 soda 
 
 
 
 492 
 
 Caiminatives (see alsa Stomachica) 41, 
 
 Chlorine . 
 
 
 
 250 
 
 161, 190, 316, 318, 356, 443, 514. 
 
 Chlorodyne 
 
 
 
 260 
 
 Carraway 
 
 160 
 
 161 
 
 Chloroform 
 
 
 
 252 
 
 Carron oil 
 
 
 210 
 
 369 
 
 spirit of 
 
 
 
 259 
 
 Cartltag'ena barks 
 
 
 , 
 
 262 
 
 Chloro-methyl 
 
 
 
 83 
 
 Carum carui 
 
 
 , 
 
 160 
 
 Cholagogues 47, 52, 290, 
 
 355, 
 
 408, 
 
 Cascarilla bark . 
 
 
 , 
 
 237 
 
 457, 475, 486. 
 
 
 
 Cassia acutifolia or Senna 
 
 
 . 
 
 355 
 
 Chondrin 
 
 
 314 
 
 Castor oil 
 
 
 
 238 
 
 Christmas rose . 
 
 
 323 
 
 seeds . 
 
 
 
 238 
 
 Cicuta virosa 
 
 
 325 
 
 Catalytics or alteratives 
 
 
 
 66 
 
 Cinchona 
 
 
 260 
 
 Cataplasms or poultices 
 
 
 , 
 
 104 
 
 alkaloids of 
 
 
 262 
 
 Catechine 
 
 
 
 242 
 
 colouring matters 
 
 
 264 
 
 Catechu . 
 
 
 
 241 
 
 Condaminea 
 
 
 261 
 
 Acacia . 
 
 
 
 241 
 
 gray, or pale . 
 
 
 261 
 
 Areca 
 
 
 172 
 
 ,241 
 
 red 
 
 
 261 
 
 brown 
 
 
 
 242 
 
 tincture of 
 
 
 266 
 
 infusion of 
 
 
 
 243 
 
 yellow . 
 
 
 261 
 
 tincture of 
 
 
 . 
 
 243 
 
 Cinchonacese , , 
 
 
 260 
 
 Cathartics or purgatives 
 
 
 , 
 
 46 
 
 Cinchonine or cinchonia . 
 
 
 263 
 
 Cattle, some peculiarities of the 
 
 
 Cincho-tannic acid 
 
 
 264 
 
 action of medicines on 
 
 49, 88 
 
 Cinnabar 
 
 
 386 
 
 Caustic anxmonia 
 
 
 152 
 
 Citrine ointment 
 
 
 397 
 
 lunar 
 
 
 
 480 
 
 Classifications of medicines 
 
 
 11 
 
 lime 
 
 
 
 208 
 
 Clystei's . 
 
 
 106 
 
 potash . 
 
 
 
 451 
 
 Coal gas . 
 
 
 84 
 
 soda 
 
 
 
 482 
 
 tar . . 226 
 
 , 445 
 
 , 528 
 
 Caustics 33, 163, 183, 209, 
 
 277, 
 
 279, 
 
 Cobra poison . ► 
 
 
 73 
 
 282, 333, 352, 395, 396, 
 
 407, 
 
 480, 
 
 Coeculus Indicus ■ 
 
 
 78 
 
 508, 546. 
 
 
 
 Cocoa 
 
 
 68 
 
 Cautery, actual . 
 
 33, 39 
 
 Codeia or Codeine 
 
 
 427 
 
 Cayenne pepper . 
 
 
 , 
 
 444 
 
 Cod liver oU 
 
 
 269 
 
 Cebadnia or Sabadilla 
 
 
 . 
 
 532 
 
 for feeding purposes . 
 
 270 
 
 Cephaelis ipecacuanha 
 
 
 , 
 
 341 
 
 Colchicine or colchicia . 
 
 , 
 
 272 
 
 Cera alba 
 
 
 . 
 
 542 
 
 Colchlcum autumnala 
 
 , 
 
 . 
 
 271 
 
 Digitized by Microsoft® 
 
INDEX OF MEDICINES. 
 
 569 
 
 Cold applications 71, 76, 
 539 
 natural tonic , . 63 
 
 PAQE 
 
 104, 304, 
 
 , 104, 504 
 
 poultices 
 
 . 104 
 
 water cure . 
 
 . 541 
 
 CoUodibn 
 
 . 305 
 
 flexible . 
 
 . 520 
 
 CoUyria . . ■ . 
 
 102, 481 
 
 Colophony, resin . 
 
 . 527 
 
 Combination of medicines 
 
 86, 97 
 
 Common salt 
 
 . 4S9 
 
 Condiments 
 
 41, 160 
 
 Coudy's disinfecting fluid 
 
 . 464 
 
 Confections 
 
 . 101 
 
 Congelation 
 
 71, 539 
 
 Cbnhydrine 
 
 . 329 
 
 Conia or conine . 
 
 3^, 328 
 
 Coniferse . 
 
 . 518 
 
 Conium maoulatum 
 
 . 324 
 
 Contagious disorders 
 C'onvtdvulin .. 
 
 . '21 
 
 . 355 
 
 Convolulus Seammonia . 
 
 . 355 
 
 Cooper's salts . -17, 26, 491 
 
 Copper and its compounds 
 
 . 274 
 
 acetates . 
 
 . 279 
 
 ammonio-sulpbate 
 
 . 270 
 
 iodide . •• ' 
 
 . 278 
 
 poisoning 
 
 . 275 
 
 sulpbata . 
 
 . 275 
 
 sulphotcarbolate . 
 
 . 237 
 
 tests for . 
 
 . 274 
 
 vikiol of 
 
 . 275 
 
 Coptic or gold thread 
 
 . 314 
 
 Cordials . 
 
 . 64 
 
 Coriander 
 
 . 160 
 
 Com flour, Oswego 
 
 . 496 
 
 Corrosive poisons 113, 151, 
 
 163, 177, 
 
 333, 394, 406, 408, 453, 480, 506. 
 Corrosive sublimate . . 392 
 
 antidotes for 394 
 poisoning by 393 
 Cortex quercus . . . 419 
 
 Cotton . . . .377 
 
 Counter-irritants (see also Blisters 
 
 and Rubefacients) 39, 155, 170, 222, 
 
 286, 306, 340, 383, 396, 526, 533, 
 
 538. 
 Cough mixtures . 198, 217, 292, 328, 
 
 370, 399, 435, 501. 
 
 Cream of tartar . 
 
 . 466 
 
 Creasote . 
 
 . 280 
 
 
 . 227 
 
 Creta preparata . 
 
 . 212 
 
 Croton . 
 
 . 283 
 
 cake 
 
 . 283 
 
 Casoarilla . 
 
 . 237 
 
 . chloral 
 
 83, 248 
 
 oil 
 
 . 283 
 
 seeds 
 
 . 283 
 
 Tiglium . 
 
 . 283 
 
 Crotonic acid 
 
 . 283 
 
 Crotonis oleum 
 Cryptopine 
 Cubebs pepper 
 Cupri acetas 
 
 ammonio-i 
 
 iodidum 
 
 oxyacetas . 
 
 sulphas 
 Cuprum . 
 
 Curari, motor paralyser 
 Curative action of medicines 
 Cumulative medicines 
 Cutch . 
 Cyanide of silver 
 Cyanides . 
 Cyanogen gas 
 
 Dandelion 
 Datura stramonium 
 Daturine . 
 Deadly nightshade 
 Decoctions 
 Delphinium staphii 
 
 PAGE 
 
 283 
 426 
 443 
 279 
 277 
 278 
 279 
 275 
 274 
 
 74 
 5 
 
 86 
 242 
 469 
 469 
 469 
 
 188 
 
 195 
 
 200 
 
 193 
 
 99 
 
 497 
 
 Demulcents "13^ 191, 192, 314, 320, 
 
 322, 370, 371, 378, 495, 497, 501, 
 
 542. 
 
 Deodorisers 29,151,213,245,250, 
 
 336, 465, 487, 494, 511. 
 Depressants . . .72 
 
 Depresso-motors (see Motor de- 
 pressants) . . .73 
 Derivation or counter-irritation . 39 
 Desiccants 149, 151, 209, 211, 245, 
 
 364, 392, 497, 543. 
 Detergents . 455, 482, 483, 484 
 
 Dextrin . . . .322 
 
 Dextrose — ^grape. sugar . . 499 
 
 Diachylon plaster . . 364 
 
 Diaphoretics 54, 155, 170, 303, 342, 
 
 353, 513, 523. 
 
 Dick's, Professor, cough balls . 292 
 
 iodine balls . 337 
 
 white lotion . 647 
 
 Digitalin . ~ . 288, 293 
 
 Digitalis . ' . . .'287 
 
 experiments with . 289 
 
 purpurea . . 287 
 
 Dififusible stimulants . .65 
 
 Diluents . . . _ 13, 537 
 
 Diseases modify the actions of 
 
 medicines . . 93 
 
 how cured . . 5 
 
 Disinfectants 21, 213, 234, 250, 334, 
 
 494, 511. 
 Diuretics . . .57 
 
 Diuretic, preparations 58, 220, 292, 
 303, 356, 455, 459, 463, 479, 483, 
 514, 521, 524, 528. 
 Dogs, peculiarities of action of 
 
 medicines on . .89 
 
 purgatives for 49, 141, 240, 355, 
 
 Digitized by Microsoft® 
 
570 
 
 INDEX OP MEDICINES. 
 
 
 
 PAOE 
 
 
 PilOE 
 
 Dolamite 
 
 . 373 
 
 Extract of conium 
 
 . 320 
 
 Doses of medicines 
 
 . 85 
 
 hyoscyamus . 
 
 . 331 
 
 infinitesimal 
 
 7 
 
 nux vomica . 
 
 . 413 
 
 Dover's po^'der . 
 
 . 343 
 
 opiimi 
 
 . 437 
 
 Drastic cathartics . 47 
 
 285, 323 
 
 Extracts, how made 
 
 . 100 
 
 Drenches, draughts, or drinks . 97 
 
 
 
 Drenching horn . » 
 
 . 98 
 
 F^x sacchari 
 
 . 499 
 
 Dryobalanops camphora . 
 
 . 216 
 
 Farina or flour . 
 
 . 496 
 
 Dutch liquid 
 
 . 84 
 
 Hni 
 
 . 368 
 
 
 
 Eats and fixed oils 191, 369, 420 
 
 EoBOLics . . 46 
 
 296, 478 
 
 Febrifuges, 14, 35, 51, 56, 58, 
 
 68, 75, 
 
 Ecboline . 
 
 . 295 
 
 144, 159, 316, 391, 465, 46! 
 
 i, 489, 
 
 Elaterium 
 
 
 285 
 
 491, 540. 
 
 
 Electricity 
 
 
 66 
 
 Fennel . 
 
 . 160 
 
 Electuaries 
 
 
 101 
 
 Eenugreec 
 
 . 161 
 
 Elemi resin 
 
 
 404 
 
 Fermentation, acetous . 
 
 . 112 
 
 Eliminatives or evacuants 
 
 
 12 
 
 vinous 
 
 . 124 
 
 Emetic, tartar 
 
 
 163 
 
 Fern root 
 
 . 307 
 
 Emetics general actions . 
 
 
 42 
 
 Ferri carbonas 
 
 . 846 
 
 Emetics 42, 170, 276, 342, 
 
 402, 447, 
 
 carbonas sacoharatum 
 
 346 
 
 516, 544, 547. 
 
 
 fila . 
 
 345 
 
 Emetine or emeta 
 
 342, 344 
 
 iodidum 
 
 350 
 
 Emollients 291, 320, 322, 
 
 369, 378, 
 
 oxidum 
 
 350 
 
 420, 495, 501, 538, 542. 
 
 
 sulphas 
 
 347 
 
 Emplastra 
 
 . 192 
 
 sulph o-carbolate 
 
 237 
 
 Emplastrum adhesivum 314, 
 
 328, 330 
 
 valerianas . 
 
 632 
 
 cantharidis . 
 
 . 225 
 
 Ferric salts ... 
 
 345 
 
 Endermic application of medicines 91 
 
 chloride . 
 
 361 
 
 Enema or enemata 
 
 . 106 
 
 Ferricyanides . . 
 
 467 
 
 of opium 
 
 . 438 
 
 FBrrocyanides . \ . 
 
 467 
 
 of starch . 
 
 . 497 
 
 Ferrous salts 
 
 345 
 
 of tobacco 
 
 . 518 
 
 sulphate 
 
 347 
 
 of turpentine 
 
 . 527 
 
 Ferrum . 
 
 344 
 
 Epsom salt 
 
 . 373 
 
 Ferrugo . 
 
 350 
 
 Ergot or spurred rye 
 
 . 294 
 
 Fever medicines. See Febrifuges 
 
 14 
 
 oil of 
 
 . 295 
 
 Flax, common 
 
 368 
 
 Ergotine . 
 
 . 298 
 
 Flexible coUodion 
 
 520 
 
 Errhines . . 41, 344, 
 
 386, 444 
 
 Flies, blistering . 
 
 218 
 
 Escharotics ; caustics 
 
 . 33 
 
 Spanish 
 
 218 
 
 Essences . 
 
 . 99 
 
 Flowers of sulphur 
 
 502 
 
 Ether . 
 
 . 299 
 
 Fomentations 
 
 103 
 
 acetic 
 
 . 300 
 
 Foot-rot dressings, 34, 161, 23'. 
 
 , 277, 
 
 chloric 
 
 . 269 
 
 333, 397, 407, 481, 529. 
 
 
 nitrous 
 
 . 612 . 
 
 Forms of administering medi 
 
 
 sulphuric . 
 
 . 299 
 
 cmes . 
 
 86 
 
 Ethereal oil 
 
 . 300 
 
 Formyle, terchloride of . 
 
 252 
 
 Ethiops, mineral 
 
 . 386 
 
 Fowler's solution 
 
 188 
 
 Ethylene, or olefiant gas 
 
 . 84 
 
 Foxglove 
 
 287 
 
 dichloride 
 
 . 84 
 
 Frankincense 
 
 403 
 
 Euphorbiaceae 
 
 283, 305 
 
 Freezing mixtures, 71, 75, 104 
 
 , 304, 
 
 Euphorbium 
 
 . 305 
 
 462, 490, 539. 
 
 
 Evacuants . 16, 48, 58, 60 1 
 
 Friar's balsam 
 
 104 
 
 Excitants, stimulants 
 
 . 64 
 
 Fructose or l^vulose' 
 
 499 
 
 Excipients 
 
 . 96 
 
 Fuller's earth . 
 
 151 
 
 Exogonium Purga 
 
 . 354 
 
 
 
 ^Expectorants 
 
 . 53 
 
 Gaibanum 
 
 190 
 
 External circumstances modify | 
 
 Gallic acid 
 
 311 
 
 actions of medicines . 
 
 . 93 
 
 Galls or gallse 
 
 308 
 
 Extract, Goulard's 
 
 . 365 
 
 Galvanism 
 
 66 
 
 Extract of aconite 
 
 . 122 
 
 Gambeer . 
 
 . 241 
 
 belladonna 
 
 
 200 
 
 Gamboge 
 
 312 
 
 Digitized by Microsoft® 
 
INDEX OP MEDICINES. 
 
 571 
 
 Garoinia Morella . 
 Gelatin . 
 Gentian . 
 
 infusion of 
 tincture of 
 Gentiana Intea 
 Gin or Geneva 
 Ginger . 
 black 
 Jamaica 
 Malabar or Batbadoes 
 preserved . 
 tincture of 
 white or bleached 
 Glauber salt 
 I Glucose or dextrose 
 Glucosides 
 Glue 
 
 Glycerin . 
 
 of carbolic acid 
 starch . 
 • tannin . 
 Glyceryl oleate . 
 Glyoyrrhizse radix 
 Glycyrrhizin 
 Glysters or clysters 
 Goose grease , . 
 Gossypium 
 Goulard's extract 
 Grape sugar 
 Gray powder 
 Gregory's mixture 
 Green vitriol 
 Giun acacia 
 
 ammoniac . 
 
 African 
 
 Arabic 
 
 Australian . 
 
 benzoin 
 
 Bassoriu 
 
 British 
 
 Cape 
 
 •tragacanth . 
 Gun-cotton, solution of, in 
 
 PAGB 
 
 312 
 
 313 
 
 315 
 
 317 
 
 317 
 
 315 
 
 126 
 
 317 
 
 318 
 
 318 
 
 318 
 
 . 318 
 
 . 319 
 
 . 318 
 
 . 486 
 
 499 
 
 310, 499 
 . 314 
 . 314 
 . 319 
 . 320 
 . 320 
 
 311, 320 
 . 420 
 . 371 
 . 371 
 . 106 
 . 151 
 . 377 
 . 365 
 . 499 
 . 384 
 . 476 
 . 347 
 . 321 
 . 190 
 . 321 
 . 321 
 
 ■ . 322 
 
 . 203 
 
 . 322 
 
 . 322 
 
 . 322 
 
 . 322. 
 
 . 322 
 
 ether 305 
 
 Habit modifies the action of 
 
 medicines . . .92 
 
 Hffimatics apt on the blood . 10 
 
 Haematoxylon or logwood . 242 
 
 " Haemostatics, 70, 296, 298, 309, 348, 
 366, 508, 539. 
 Hartshorn . . . 152 
 
 Hashish . . . .334 
 
 Healing lotions, 173, 204, 210, 233, 
 
 311, 340, 367, 404, 465, 477, 545. 
 Healing ointments 204, 206, 236, 478 
 Heart sedatives and stimulants 64, 73 
 ' See Cardiac. 
 . Jleat and moisture . 103, 538 
 
 PAGE 
 
 Heat as ^ disinfectant . . 24 
 
 a stimulant . . 104 
 
 Hellebore, blaofe^ . . . 323 
 
 white 7 ~ . . 532 
 
 HeUeborin . . .32^ 
 
 Helleborus niger . , . . 323 
 
 Hemlock \ . . .324 
 
 extract . . . 328 
 
 succus . . . 328 
 
 tincture . . . 328 
 
 water . . . 325 
 
 Henbane or hyoscyamus . . 299 
 
 Hepatic aloes . . . 135 
 
 H«g'a lard . . .190 
 
 Hoffmann's anodyne . . 305 
 
 Hollands . . .126 
 
 Homdeopathy . . .6 
 
 Honey or mel . . . 500 
 
 Horse, peculiarities, etc. . . 88 
 
 alo^s . . .137 
 
 does not vomit . 43, 48 
 
 purgatives for . 48, 144 
 
 Hordenm . . . .192 
 
 Hot iron . . . .39 
 
 Huile de cade . . 356, 478 
 
 Hydragogue cathartics . . 47 
 
 Hydrargyri bichloridunl . . 392 
 
 chloridum . . 386 
 
 creta et magnesia . 384 
 
 emplastrum . . 384 
 
 iodida ' . .396 
 
 linimentum . .383 
 
 nitratis . . 397 
 
 unguentum . 397 
 
 oleatum 
 
 oxidum nigrum 
 
 rubrum 
 
 perchloridum 
 
 pilulse 
 
 subchloridum 
 sublimatum- corr. 
 subsulphas flavus 
 sulphidum . 
 . unguentum . 
 Hydrargyrum 
 Hydrastes Canadensis 
 Hydrated sesquioxide of iron 
 Hydrochloric or muriatic acid 
 Hydrocyanic or prussio acid 
 Hydrogen peroxide 
 sulphate 
 Hydropathy 
 Hyoscyamiue 
 Hyoscyamus niger 
 Hyoscine 
 
 Hypnotics productive of sleep 
 Hypodermic injection 
 Hypochlorates . 
 Hyphosulpjiites . 
 
 Ice 
 
 385 
 385 
 392 
 384 
 386 
 392 
 386 
 386 
 382 
 378 
 265 
 350 
 332 
 466 
 465 
 505 
 541 
 . 330 
 . 329 
 . 330 
 . 76 
 91, 439 
 . 494 
 . 487 
 
 75, 535 
 
 56. 
 
 Digitized by Microsoft® 
 
572 
 
 INDEX OF MEDICINES. 
 
 Ice bag . 
 
 104 
 
 PAGE 
 
 , 539 
 
 FAflE 
 
 Jaboeandi . . 55, 353 
 
 Idiosyncrasies 
 
 
 
 93 
 
 Jalap or jalapa . 
 
 354 
 
 Igasurine 
 
 
 
 418 
 
 Tampico 
 
 855 
 
 Indian hemp 
 
 
 
 334 
 
 Jamaica ginger . 
 
 318 
 
 Inebriaut narcotics 
 
 
 77, 127 
 
 pepper . 
 James's powder . 
 
 443 
 
 Infusion of catechu 
 
 
 
 243 
 
 162 
 
 cinchona 
 
 
 
 266 
 
 Jervine . 
 
 533 
 
 ergot 
 
 
 
 298 
 
 Jesuit's bark 
 
 560- 
 
 gentian 
 
 
 
 317 
 
 Jonah's gourd 
 
 238 
 
 ginger 
 
 
 
 319 
 
 Juniper tops and berries 
 
 356 
 
 opium 
 
 
 
 437 
 
 Juniperus communis 
 
 356 
 
 tobacco 
 
 
 
 517 
 
 Sabina. 
 
 478 
 
 Infusions, how made 
 
 \ 
 
 
 98 
 
 oxycedrns . 356, 478 
 
 Inhalation of medicines, 91 
 
 251, 
 
 304, 
 
 * 
 
 
 510. 
 
 
 
 KaIiITTM or potassium salts 
 
 451 
 
 Injections or clysters 
 
 . 
 
 106 
 
 Kamela, a vermifuge 
 
 51 
 
 into the rectum 
 
 . 
 
 106 
 
 Kelp . ' . 
 
 335 
 
 subcutaneous . 
 
 , 
 
 91 
 
 . Kermes mineral . 
 
 162 
 
 into the veins 
 
 , 
 
 90 
 
 Einic acid 
 
 264 
 
 Insectides (see also Anthelmintics) 
 
 161, 
 
 Kino 
 
 242 
 
 215, 282, 304, 341, 395, 
 
 398, 
 
 446, 
 
 Kousso, a vermifuge 
 
 51 
 
 487, 497, 504, 511, 516, 525, 530. 
 
 Krameria triandra 
 
 242 
 
 Iodide of copper . 
 
 , 
 
 278 
 
 Kreasote or creasote 
 
 288 
 
 iron 
 
 
 350 
 
 Kutch or catechu 
 
 241 
 
 lead 
 
 , 
 
 364 
 
 
 
 mercury 
 
 , 
 
 396 
 
 Labaeraque's soda disinfecting 
 
 
 potassium 
 
 , 
 
 457 
 
 fluid ... 
 
 492 
 
 starch . 
 
 
 335 
 
 Labiatse . _ . . 41, 442 
 
 sulphur 
 
 341 
 
 595 
 
 Lactose or Lactine 
 
 500 
 
 Iodine 
 
 . 
 
 335 
 
 Lapis infernalis . 
 
 480 
 
 ointment of 
 
 
 341 
 
 Lard 
 
 190 
 
 solutions of 
 
 
 340 
 
 Larix europea 
 
 520 
 
 tinctures of 
 
 
 340 
 
 Larkspur or stavesacre . 
 
 497 
 
 lodineum 
 
 
 335 
 
 Laudanum or tincture of opium . 
 
 437 
 
 lodism 
 
 
 337 
 
 Laughing gas . . ' 
 
 85 
 
 Iodoform 
 
 , 
 
 354 
 
 Lauras Camphora 
 
 215 
 
 Ipeeacuan 
 
 
 341 
 
 Lavender. , 
 
 442 
 
 Ipecacuanha cephaelis 
 
 . 
 
 341 
 
 Laxatives, 47, 147, 207, 370, 375 
 
 ,376, 
 
 Iris, contraction of, by belladonna 
 
 199 
 
 384, 420, 447, 466, 475, 483 
 
 501, 
 
 Iris, dilatation of, by Calabar 
 
 
 504. 
 
 
 bean 
 
 
 207 
 
 Lead and its compounds . 
 
 537 
 
 Iron and its compounds 
 
 
 344 
 
 ' acetates 
 
 365 
 
 aud quinine citrate . 
 
 
 346 
 
 carbonate . 
 
 363 
 
 arsenite 
 
 
 845 
 
 iodide 
 
 364 
 
 'carbonate 
 
 
 346 
 
 oxides 
 
 363 
 
 chloride 
 
 
 351 
 
 oleate 
 
 364 
 
 tydrated sesquioxide 
 
 
 350 
 
 plaster 
 
 364 
 
 iodide 
 
 
 350 
 
 poisoning with 
 
 357 
 
 oxyhydrate . 
 
 
 346 
 
 antidotes for 
 
 363 
 
 red oxide- 
 
 
 350 
 
 sugar of 
 
 365 
 
 rust . 
 
 
 350 
 
 white 
 
 363 
 
 saccharine carbonate 
 
 
 346 
 
 Leopard's bane or arnica . 
 
 . 171 
 
 sesquioxide . 
 
 
 350 
 
 Lettuce . 
 
 . 188 
 
 sulphate 
 
 
 347 
 
 Levulose — ^left-handed sugar 
 
 . 499 
 
 tests . 
 
 
 345 
 
 Lime, burnt 
 
 . 208 
 
 tincture' 
 
 
 351 
 
 carbonates 
 
 . 210 
 
 valerianate . 
 
 
 532 
 
 chloride' . 
 
 . 212 
 
 wire 
 
 
 351 
 
 chlorinated 
 
 . 212 
 
 Isinglass . 
 
 
 313 
 
 hydrate . 
 
 . 208 
 
 Issue or rowell . 
 
 
 38 
 
 phosphate 
 
 . 212 
 
 Ivory black 
 
 
 
 244 
 
 saocharated 
 
 . 210 
 
 Digitized by Microsoft® 
 
INDEX OP MBBICINES. 
 
 573 
 
 Lime, slaked . . . 208 
 
 sulpho-carbolate . . 237 
 
 water . . , 208 
 
 Liniment of ammonia . . 156 
 
 camphor . .218 
 
 croton . . 287 
 
 lime . .210 
 
 mercury . . 383 
 
 opium . . 438 
 
 soap. . . 481' 
 
 turpentine . . 527 
 
 Liniments, how made . .102 
 
 Linseed .... 367 
 
 cake . . . 368 
 
 meal 
 
 oil 
 
 Lint . . . .368 
 
 Linum usitatissimum . *. 367 
 
 Lifuor ammonise . . 152 
 
 acetatis . 158 
 
 arsenicalis . . 188 
 
 calcis . , . . 208 
 
 chlori . . . 250 
 
 r iodidi compositus . 340 
 
 morpMse murias . . 442 
 
 Liquors . . ■. . 101 
 
 Liquorice root . . . 371 
 
 sugar . 371,, 500 
 
 Litharge — oxide of lead . . 363 
 
 Lithium carbonate . . 36 
 
 Liver of sulphur . . 456 
 
 Lobelia,, a nerve sedative . 74 
 
 Logwood, an astringent dye . 242 
 
 Long pepper . . . 443 
 
 Lotions .... 102 
 
 Limar caustic . . .480 
 
 Lytta vesicatoria . . . , 218 
 
 Macdougall's disinfectant . 235 
 
 sheep-dipping mixture . • 234 
 
 Magnesium and its compounds . 372 
 
 alba . . .373 
 
 calcined . . 372 
 
 carbonate . . 373 
 
 oxide . . 372 
 
 sulphate . . 373 
 
 tests for . . 372 
 
 Male shield fern . . .307 
 
 Mallows . . . .377 
 
 Malt . ' . . .192 
 
 Malvaceae . . ' .377 
 
 Mange and scab dressings (see 
 
 also Insecticides) 182, 234, 
 
 240, 282, 341, 383, 392, 395, 
 
 398. 
 
 Marble . . . .210 
 
 Maijoram . . . 442 
 
 Marshmallows . . . 377 
 
 Marsh's test for arsenic . .177 
 
 Massicot, a lead oxide . . 363 
 
 Materia medica, definition of . 1 
 
 May apple or podophyllum' 
 
 
 PAGE 
 
 446 
 
 Meadow safirpn . 
 
 
 271 
 
 Measures 
 
 
 107 
 
 domestic 
 
 
 108 
 
 Meconic acid 
 
 
 427 
 
 Meconine 
 
 
 426 
 
 Medicinal naphtha 
 
 398 
 
 445 
 
 Medicines, absorption of ' 
 
 
 3 
 
 acting chemically 
 
 
 5 
 
 mechanically . 
 
 5 
 
 by mouth 
 
 
 90 
 
 rectum 
 
 
 90 
 
 skin 
 
 . 
 
 90 
 
 circumstances modi- 
 
 
 fying effects of 
 
 
 85 
 
 classification of 
 
 11, 12 
 
 curative action of 
 
 . 
 
 5 
 
 inherent properties of 
 
 2 
 
 physiological action of 
 
 5 
 
 therapeutic action of 
 
 5 
 
 Mentha piperita . 
 
 
 442 
 
 puleginm 
 
 
 443 
 
 viridis . 
 
 
 443 
 
 Menthene 
 
 
 442 
 
 Mercuiial compounds 
 
 
 378 
 
 disease ' , 
 
 
 380 
 
 liniments 
 
 
 383 
 
 ointments ' 
 
 
 382 
 
 pills . 
 
 
 384 
 
 plaster 
 
 
 384 
 
 Mercurialism 
 
 
 380 
 
 Mercuric salts . J 
 
 
 378 
 
 Mercurous salts . 
 
 
 378 
 
 Mercury and its compounds 
 
 
 378 
 
 ammoniated 
 
 
 395 
 
 chlorides 
 
 386, 
 
 392 
 
 corrosive sublimate 
 
 
 392 
 
 iodides . 
 
 
 396 
 
 liniment 
 
 
 383 
 
 muriate 
 
 3S6 
 
 ,392 
 
 nitrate . 
 
 
 392 
 
 ointment 
 
 
 397 
 
 ointments 
 
 
 382 
 
 oleate . 
 
 
 383 
 
 oxides . 
 
 
 885 
 
 pUls 
 
 
 384 
 
 poisoning 
 
 
 380 
 
 plaster , 
 
 
 384 
 
 sulphate 
 
 
 384 
 
 sulphides 
 
 
 386 
 
 tests for 
 
 
 378 
 
 with chalk and magnesia 
 
 384 
 
 Methylated alcohol 
 
 126, 
 
 398 
 
 spirit 
 
 126, 
 
 398 
 
 Methyl alcohol . 
 
 
 39^ 
 
 chloride . 
 
 
 83 
 
 Conine 
 
 
 329 
 
 bichloride 
 
 
 83 
 
 Methylio or pyroxilic spirit 
 
 
 398 
 
 Milk sugar . • 
 
 
 500 
 
 Mindererus spirit 
 
 
 158 
 
 Digitized by Microsoft® 
 
574 
 
 INDEX OF MEDICINES. 
 
 Mineral, Ethiops 
 
 PAGE 
 
 . 386 
 
 Kermes 
 
 . 162 
 
 tar 
 
 . 445 
 
 Turpith 
 
 . 386 
 
 Mineral waters . 
 
 . 536 
 
 Minium, a lead oxide 
 
 . 363 
 
 Mint 
 
 . 442 
 
 Mixtures . 
 
 - . 101 
 
 freezing 
 
 105, 304, 539 
 
 Modes of exhibiting medicines . 90 
 
 Molasses, treacle . . , 499 
 
 Monkshood . . . 115 
 
 Morphine . . 425, 439 
 
 acetate . . 439 
 
 compared with atropine 441 
 
 muriate . . 438 
 
 Morphise acetas . . . 439 
 
 hydrochloras . . 438 
 
 murias . . . 438 
 
 Morrhuse oleum . . . 269 
 
 Mortars . . . .95 
 
 Motor depressants, 13, 116, 159, 207, 
 
 249, 326, 353, 470, 516, 533. 
 
 excitants, 65, 194, 290, 295, 
 
 330, 440. 
 
 Mucilage .... 323 
 
 Muriate of ammonia . . 157 
 
 antimony . . 163 
 
 mercury . 386, 392 
 
 morphia . . 438 
 
 soda . . .489 
 
 zinc . . . 545 
 
 Muriatic or hydrochloric acid . 332 
 
 Muscle contractors, 195, 288, 295, 
 
 307. 
 Muscle relaxers, 255, 303, 327, 330, 
 
 334, 429, 516, 533. 
 Mustard . . . .399 
 
 applications . . 402 
 
 black . . .399 
 
 leaves . . .403 
 
 oil of . . .403 
 
 white . . .400 
 
 Mydriatics, dilators of the pupil 
 
 65, 199. 
 Mylabris Cichorii . . 219 
 
 Myrcin . . . .542 
 
 Myrosin .... 400 
 Myrrh . . . .403 
 
 tincture of . . 404 
 
 Naphtha — a carbohydrogen . 446 
 
 medicinal . . 398 
 
 Narcotics, 129, 216, 227, 247, 254, 281, 
 
 301, 334, 399, 430, 446. 
 Narceiue .... 426 
 Narcotine . . . 427 
 
 Narthex assafcetida . .189 
 
 Nataloin . . . .145 
 
 Natrium or sodium . . 482 
 
 Nauseants . 120, 170, 451 
 
 Nerve soothers, 74, 159, 198, 217, 248, 
 258, 334, 434, 439, 460. 
 stimulants, 65, 164, 333, 411, 414. 
 
 tonics, 182, 268, 411, 414, 513, 
 545, 547. 
 Nerves, development of medicinal 
 
 action through . . 4 
 
 Neurotics act on nerves . .10 
 
 Nicotiana tabacum . . 514 
 
 Nicotine ; nicotianin . . 615 
 
 Nightshade, deadly . .193 
 
 Nitrate of mercury . . 397 
 
 potash . . 460 
 
 silver . . . 480 
 
 Nitre or saltpetre . . . 460 
 
 sweet spirit of . . 512 
 
 Nitric acid . . . 405 
 
 Nitrite of amyl . . .159 
 
 Nitro-muriatic acid . . 408 
 
 Nitrous acid . . . 405 
 
 oxide . . .85 
 
 Nut-galls . ' . .308 
 
 Nutrients, 69, 128, 191, 192, 269, 314, 
 
 320, 322, 364, 420, 496, 536. • 
 
 Nux vomica . . . 409 
 
 alkaloids of . 409, 418 
 
 Oak bark . . , . 419 
 
 galls . . ' .408 
 
 Oakum . . . .368 
 
 Oatmeal . . , . .496 
 
 CEnantha crocata . 74, 326 
 
 (Enanthic ether . . 120 
 
 Oil, anise . . . 160 
 
 black . . .421 
 
 cake .... 368 
 
 Carron . . 210, 369 
 
 castor . . .' 238 
 
 chamomile . . . 243 
 
 cod-liver . . . 269 
 
 croton . . . 283 
 
 linseed . . . 368 
 
 olive .... 420 
 
 of cade . . . 476 
 
 ergot . . 295, 298 
 
 grain or fusel oil . .126 
 
 juniper . . .366 
 
 linseed . . . 368 
 
 mustard . . . 400 
 
 myrrh . . . 404 
 
 peppermint . . 442 
 
 poppy . . .422 
 
 savine . . . 478 
 
 tar ... 528 
 
 tobacco . . . 515 
 
 turpentine . . 522 
 
 vitriol . . . 505 
 
 wine . . . 300 
 
 Ointments, how made, etc. . 102 
 
 Ointment, acetate of lead . 307 
 
 arsenical . .183 
 
 Digitized by Microsoft® 
 
INDEX OP MEDICINES. 
 
 575 
 
 Ointment, ^blistering 
 
 bantharides . 
 
 PAGE 
 
 224 
 224 
 
 Opium, purity and strength of . -425 
 Smyrna . . .499 
 
 carbolic 
 
 236 
 
 tests for . 
 
 . 427 
 
 digestive 
 
 542 
 
 tincture of 
 
 . 437 
 
 galls . 
 
 310 
 
 Turkey . 
 
 . 422 
 
 iodide of sulphur 
 
 341 
 
 Ordeal bean of Calabar 
 
 . 207 
 
 iodine 
 
 . 341 
 
 Orizaba root 
 
 . 355 
 
 ■inange, 234, 283, 34] 
 
 ,383, 
 
 Orpiment 
 
 .. 175 
 
 605. 
 
 
 Oxide of antimony 
 
 . 161 
 
 mercury 
 
 382 
 
 arsenic 
 
 . 174 
 
 nitric acid 
 
 408 
 
 calcium 
 
 . 210 
 
 resin . 
 
 528 
 
 iron 
 
 . 350 
 
 savine ' . 
 
 479 
 
 lead . 
 
 . 363 
 
 simple . 1£ 
 
 9, 542 
 
 magnesia 
 
 . 372 
 
 sihrer 
 
 481 
 
 mercury 
 
 . 385 
 
 sulphur 
 
 505 
 
 potassium . 
 
 . 461 
 
 zinc carbonate 
 
 , 544 
 
 zinc 
 
 . 542 
 
 Olea europea 
 
 420 
 
 Oxymel . 
 
 114, 500 
 
 Olefiant gas 
 
 84 
 
 Oxytocics or ecbolics 
 
 46, 296 
 
 Oleine 
 
 420 
 
 Ozone 
 
 . 23 
 
 Oleum anisi 
 
 161 
 
 
 aloes 
 
 138 
 
 Palma Christi . 
 
 . 238 
 
 . anthemidis 
 
 243 
 
 Papavarine 
 
 . 426 
 
 'oalcis . . 2! 
 
 0,369 
 
 Papaver somniferum 
 
 . 421 
 
 crotonis . 
 
 283 
 
 Rhoeas . 
 
 . 421 
 
 ergotse . . 29 
 
 5,298 
 
 Papaveracese 
 
 . 421 
 
 , ecoris aselli 
 
 269 
 
 Paraffin oils 
 
 . 446 
 
 >'j juniperi . 
 
 356 
 
 Paramorphine 
 
 . 427 
 
 ^'' lini 
 
 368 
 
 Parturients 
 
 . 46, 296, 478 
 
 menthse piperitae 
 
 442 
 
 Patent foods 
 
 . 161 
 
 morhuse . 
 
 369 
 
 Pearl ashes 
 
 . 451 
 
 olivse 
 
 420 
 
 barley 
 
 . 192 
 
 picis 
 
 528 
 
 Penny royal 
 
 . 443 
 
 piperis 
 
 443 
 
 Pepper . 
 
 . 443 
 
 ricini 
 
 238 
 
 black 
 
 . 443 
 
 ^ sabina 
 
 478 
 
 Cayenne . 
 
 . 443 
 
 terebinthiiise 
 
 522 
 
 cubebs 
 
 . 444 
 
 tijglii 
 
 283 
 
 Jamaica . 
 
 . 443 
 
 vitrioli 
 
 505 
 
 long 
 
 . 443 
 
 Olibanum or frankincense 
 
 404 
 
 volatile oU of 
 
 . 443 
 
 Olivse oleum 
 
 420 
 
 white 
 
 . 443 
 
 Olives . . . , 
 
 420 
 
 Peppermint 
 
 . 442 
 
 Olive oil 
 
 420 
 
 oil of 
 
 . 442 
 
 Opium . . . . 
 
 421 
 
 Percolation 
 
 . 100 
 
 alkaloids . 
 
 425 
 
 Persian opium . 
 
 . 423 
 
 ammouiated tincture 
 
 432 
 
 Perspiration 
 
 . 54 
 
 antidotes . 
 
 432 
 
 Peru, balsam of . 
 
 . 204 
 
 ^^ clysters . 
 
 438 
 
 Peruvian bark 
 
 . 260 
 
 compared with belladonna 
 
 195 
 
 Petroleum 
 
 . 445 
 
 henbane . 
 
 330 
 
 Pharmacology 
 
 1 
 
 :/'[ , other narcotics 
 
 77 
 
 Pharmacy 
 
 . 96 
 
 '•''•■' .Constantinople . 
 
 423 
 
 Phenic or carbolic acid . 
 
 . 244 
 
 Egyptian . 
 
 423 
 
 Phenol . 
 
 . 244 
 
 • '• ' English . 
 
 424 
 
 Phenyl hydrate . 
 
 . 244 
 
 European 
 
 424 
 
 Phlebotomy 
 
 . 75 
 
 Indian 
 
 423 
 
 Phosphate of lime 
 
 . 212 
 
 liniment . 
 
 430 
 
 Phosphoric acid . . 
 
 , 416 
 
 Malwa 
 
 423 
 
 Physic masses 
 
 . 144 
 
 Persian . . , . 
 
 423 
 
 Physiological actions of m 
 
 ediciues 5 
 
 poisoning by 
 
 430 
 
 opposites . 
 
 . 32 
 
 preparations of 
 
 437 
 
 rest ■ 
 
 . 61 
 
 Digitized by Microsoft® 
 
576 
 
 INDES OF MEDICINES. 
 
 Picrotoxin ; motor excitant 
 
 
 PAOE 
 
 414 
 
 Potassium hydrate 
 
 
 PAQB 
 
 451 
 
 Pigs acted on by medicines much 
 
 
 hydriodate 
 
 
 , 
 
 467 
 
 in the same way as men and degs 
 
 90 
 
 iodide 
 
 
 . 
 
 467 
 
 Pills, blue ■ 
 
 
 382 
 
 nitrate 
 
 
 , 
 
 460 
 
 how made . 
 
 
 
 96 
 
 permanganate 
 
 
 . 
 
 464 
 
 Pimento or allspice 
 
 
 
 443 
 
 soaps . 
 
 
 
 480 
 
 Pimpinella anisum 
 
 
 
 160 
 
 sulphate 
 
 
 
 456 
 
 Pinie acid 
 
 
 
 528 
 
 sulphide 
 
 
 
 456 
 
 Pinus palustris . 
 
 
 
 519 
 
 tartrate 
 
 
 
 456 
 
 sylvestria . 
 
 
 
 619 
 
 Potatoes . 
 
 
 , 
 
 496 
 
 Pipeclay . 
 
 
 
 161 
 
 Poultii3es . 
 
 
 . 
 
 101 
 
 Piperaoeas 
 
 
 
 443 
 
 antiseptic 
 
 
 193 
 
 233 
 
 Piper album 
 
 
 
 443 
 
 bran 
 
 
 , 
 
 193 
 
 chili 
 
 
 
 443 
 
 charcoal 
 
 
 . 
 
 245 
 
 cubeba 
 
 
 
 444 
 
 linseed . 
 
 
 
 370 
 
 longum 
 
 
 
 443 
 
 ' mustard 
 
 
 
 403 
 
 nigrum 
 
 
 
 443 
 
 yeast 
 
 
 
 193 
 
 Piperine . . 
 
 
 
 443 
 
 Powder, antimonial 
 
 
 
 162 
 
 Pitch 
 
 
 
 630 
 
 Dover's . 
 
 
 343 
 
 437 
 
 Burgundy . 
 
 
 
 521^ 
 
 Dr. Gregory's 
 
 
 , 
 
 476 
 
 Pix Burgundioa . 
 
 1 
 
 
 521 
 
 James' . 
 
 
 , 
 
 162 
 
 liquida 
 
 
 
 528 
 
 Tennant's bleaching 
 
 ■ 212 
 
 Plaster, adhesive 
 
 361 
 
 526, 527 
 
 Powders, how made, etc. 
 
 
 95 
 
 carbolic . 
 
 
 
 233 
 
 Proof spirit 
 
 
 125 
 
 blistering 
 
 
 
 225 
 
 Prussio acid 
 
 
 466 
 
 Burgundy pitch 
 
 
 221 
 
 poisoning with 
 
 
 470 
 
 for sore heads ip sheep . 
 
 529 
 
 antidotes for. 
 
 
 472 
 
 glue 
 
 
 314 
 
 tests for 
 
 
 469 
 
 lead 
 
 
 364 
 
 Pulvis antimonii . 
 
 
 162 
 
 sticking . 
 
 , 
 
 364 
 
 Doveri 
 
 ,343, 
 
 437 
 
 Plasters, how made, etc. 
 
 102, 364 
 
 rhei cdmpositns . 
 
 
 478 
 
 Plumbi acetas 
 
 , 
 
 365 
 
 Purgatives for cattle and sheep, 4! 
 
 , 88,. 
 
 emplastra 
 
 
 364 
 
 240, 286, 303, 370, 376, 
 
 392, 
 
 486, 
 
 iodidum . 
 
 
 364 
 
 492. 
 
 
 
 oxydum . 
 
 
 365 
 
 dogs, 49, 89, 240 
 
 355, 
 
 370, 
 
 Plumbism , 
 
 
 368 
 
 ,392. 
 
 
 
 Plumbum 
 
 
 357 : 
 
 hojses, 48, 88, 
 
 142, 
 
 370, 
 
 Podophyllin . ■. 
 
 
 446 ; 
 
 392. 
 
 
 
 Podophyllum, experiments with 
 
 447 
 
 pigs, 50, 240, 
 
 355, 
 
 370, 
 
 Poisons and antidotes 
 
 
 31 
 
 392, 504. 
 
 
 
 Pomegranate root bark . 
 
 
 51 
 
 Pyroligneous acid 
 
 
 112 
 
 Poppy heads 
 
 
 421 
 
 ether 
 
 
 398 
 
 red, white, and purple 
 
 
 421 
 
 Pyroxylio spirit . 
 
 
 398 
 
 petals 
 
 
 422 
 
 
 
 
 seed cake . 
 
 
 422 [ 
 
 'QtJANTiTiBs of medicines 
 
 
 85 
 
 oil . 
 
 
 422 
 
 Qualities of medicines . 
 
 
 86 
 
 Porter . 
 
 
 126 
 
 Quassia . 
 
 
 473 
 
 Potash salts 
 
 
 451 
 
 Quassin . 
 
 
 474 
 
 Potashes or pearl ashes . 
 
 
 451 
 
 Quercus cortex . 
 
 
 419 
 
 Potassffi acetas 
 
 
 466 
 
 Quicklime 
 
 
 208 
 
 aqua, or liquor . 
 
 451, 453 
 
 Quicksilver 
 
 
 378 
 
 fusa, or oaustica . 
 
 451, 453 
 
 Quinine or quina ■''• ': 
 
 
 262 
 
 Potassium and its salts . 
 
 
 451 
 
 amorphous 
 
 
 264 
 
 acetate 
 
 
 466 
 
 sulphate or disulphate . 
 
 267 
 
 bromide 
 
 
 460 
 
 valerianate 
 
 , 
 
 532 
 
 carbonates 
 
 
 454 
 
 Quinic acid 
 
 , 
 
 264 
 
 caustic 
 
 
 451 
 
 Quinse, sulphas . 
 
 , 
 
 267 
 
 chlorate 
 
 
 463 
 
 Quinidine 
 
 264 
 
 I, 2«8 
 
 chloride 
 
 
 452 
 
 
 
 
 ferrooyanides 
 
 
 467 
 
 Rectified spirit . 
 
 
 125 
 
 fusa . 
 
 
 
 451 
 
 Bed cinchona barks 
 
 , 
 
 . 
 
 261 
 
 Digitized by Microsoft® 
 
INDEX OP MEDICINES. 
 
 577 
 
 PAGE 
 
 363 
 350- 
 385 
 385 
 
 158, 
 
 Red lead .... 
 . oxide of iron 
 . mercury 
 
 precipitate . 
 Eefrigerants, ,35, 71, 114, 132, 
 ■'J 462, 464, 539. 
 ' Bemedies, hygienic 
 Eesin or rosin 
 Rest, a restorative 
 Restoratives, 35, 59, 1'31, 192, 
 266, 269, 314, 347, 369, 399, 433, 
 490, 496, 500, 537. 
 Revtdsion or derivation . . 39 
 
 Rhamnus catharticus 
 succus . 
 syrupus 
 Rhatany . 
 Rheum . 
 Eheumic acid 
 Rhoeadine 
 Rhuharb . . . 
 
 Chinese or East Indian 
 compound powder of 
 English or European 
 Turkey . 
 Rice starch 
 Ricini oleum 
 Ricinus communis 
 Rock oU . 
 Rosemary 
 Rosin or resin 
 
 hlack or fiddler's 
 
 yeUow 
 
 Rowell or issue . 
 
 Rue an echolic 
 
 Rubefacients (see also Blisters and 
 
 Counter-irritaiits), 37, 114, 132, 221, 
 
 402, 444, 478. 
 
 Rum .... 126 
 
 Ruminants, medicine acting on, 88, 141 
 
 Rust of iron . . .350 
 
 Rye, ergot of . . . 294 
 
 spurred . 294 
 
 94 
 527 
 
 61 
 212, 
 
 206 
 207 
 207 
 242 
 474 
 475 
 421 
 475 
 475 
 476 
 475 
 475 
 496 
 238 
 238 
 446 
 442 
 527 
 528 
 528 
 38 
 295 
 
 Sabadilla or Cevadilla . 
 
 Sabina or savin . 
 
 Saccharated lime . 
 
 Saochari fsex 
 
 Saffron, common meadow 
 
 Sago starch 
 
 Sal-ammoniac 
 
 Sal-volatile 
 
 Salicin 
 
 Salicylate of iron . 
 
 sodium 
 Salicylic acid 
 Salt, common 
 Epsom 
 - Glauber 
 Saltpetre . 
 Santonin— 3, vermifuge . 
 
 532 
 478 
 210 
 499 
 271 
 496 
 157 
 156 
 476 
 480 
 480 
 476 
 489 
 373 
 486 
 460 
 51 
 
 PAGE 
 
 Sapo . . 482 
 
 Savin . . . .478 
 
 Scammony . . . 355 
 
 Secale comutunl . .294 
 
 Secalin . . . .293 
 
 Sedatives . . .72 
 
 Sedative prescriptions, 72, 121, 123, 
 207, 272, 36eC 381, 451, 470, 534, 
 534, 545. 
 Semina crotonis . 
 
 ricini 
 Senna leaves 
 
 Setons .... 
 Sheep acted on by medicines , 
 much in the same way as cattle 
 Sheep, purgatives for . 49, 370, 
 Sheep-dippingTmixtures, 184, 234, 395, 
 
 483, 504, 517.- 
 Sheep-dipping, precautions in 
 Shot 
 
 Sialogogues 
 Sieves , . 
 
 Silver and its compounds 
 cyanide 
 nitrate 
 ointment . 
 solution . 
 Sinapis alba 
 nigra 
 Sinapisms, or mustard applica, 
 
 tions . 
 Size of patients 
 Size — ^weak glue . 
 Skin, fiinotions of , 
 
 actively absorbing 
 Smelling salts 
 Snake-wood 
 
 Sneezing, how produced 
 Snuff 
 
 Soaps . . / 
 
 Castile 
 glycerin . 
 hard or soda 
 liniment . 
 soft or potash 
 Soda salts 
 water 
 Sodium and its compounds 
 bicarbonate 
 borate 
 carbolate . 
 carbonates 
 chlorates 
 chloride . 
 
 liquid, Labarraque's 
 hydrate or caustic soda 
 hyposulphite 
 nitrate 
 soap 
 
 sulphate . 
 sulphite . 
 
 283 
 
 238 
 
 355 
 
 38 
 
 ,377 
 
 187 
 257 
 59 
 95 
 480 
 469 
 480 
 482 
 482 
 400 
 399 
 
 402 
 90 
 313 
 54 
 91 
 156 
 409 
 41 
 515 
 482 
 483 
 483 
 482 
 483 
 482 
 484 
 484 
 484 
 482 
 483 
 236 
 482 
 494 
 489 
 ,494 
 484 
 485 
 490 
 482 
 484 
 485 
 
 2 P 
 
 Digitized by Microsoft® 
 
578 
 
 INDEX bF MEDICINES. 
 
 
 
 pacSe 
 
 
 PAGE 
 
 Soft soap '. 
 
 
 482 
 
 Sugar 
 
 . 498 
 
 Solutio arsenicalis 
 
 
 188 
 
 brown or raw 
 
 . 498 
 
 chlorinii . 
 
 
 260 
 
 candy 
 
 . 499 
 
 morphise murias 
 
 
 432 
 
 cane 
 
 . 498 
 
 plumbi diacetatis 
 
 
 367 
 
 grape _ 
 
 . 499 
 
 Solution, Fowler's 
 
 
 188 
 
 liquonce . 
 
 . 371 
 
 Soporifics 
 
 
 76 
 
 of fruits 
 
 . 499 
 
 Southern wood . 
 
 
 188 
 
 lead 
 
 . 365 
 
 Spanish flies 
 
 
 218 
 
 milk — lactose 
 
 . 500 
 
 Spatulse . 
 
 
 102 
 
 tests for 
 
 . , .499 
 
 Spearmint 
 
 
 443 
 
 Sulphate of alumina and 
 
 potasli . 148 
 
 Specifics . 
 
 20 
 
 ,476 
 
 copper 
 
 . 275 
 
 Spermaceti, cetaceum 
 
 
 495 
 
 iron 
 
 . 347 
 
 Spirit of ammonia 
 
 
 156 
 
 magnesia 
 
 . 373 
 
 chloroform 
 
 
 259 
 
 mercury 
 
 . 386 
 
 salt 
 
 
 332 
 
 potash , 
 
 . 456 
 
 ether . 
 
 
 304 
 
 quinine 
 
 . 267 
 
 turpentine 
 
 
 '622 
 
 soda . 
 
 . 484' 
 
 wine 
 
 
 124 
 
 zinc . 
 
 . 544 
 
 Spirit, proof 
 
 
 125 
 
 Sulphite of soda . 
 
 . 487 
 
 pyroxylic . 
 
 
 398 
 
 Sulphur . 
 
 . 501 
 
 rectified . 
 
 
 125 
 
 anhydride 
 
 . 609 
 
 Spirits or essences 
 
 
 99 
 
 flowers of 
 
 .■ 502 
 
 Spiritus aetheris nitrosi ' . 
 
 
 512 
 
 iodide of 
 
 341, 605 
 
 sulphurici 
 
 
 304 
 
 liniments of 
 
 , . 505 
 
 ammonise 
 
 
 156 
 
 liver of . 
 
 . 456 
 
 Mindereri 
 
 
 158 
 
 mUk of . 
 
 . 502 
 
 rectificatus 
 
 
 126 
 
 ointments of 
 
 . 505 
 
 tenuior, or proof spirit . 
 
 125 
 
 roll or stick 
 
 . 502 
 
 Spongio-piline 
 
 
 105 
 
 sublimed 
 
 . 502 
 
 Spray-producers . 
 
 
 107 
 
 vivum . 
 
 . 502 
 
 Spurred rye , 
 
 
 294 
 
 Sulphides of antimony 
 
 . 162 
 
 Staphisagrise semina 
 
 
 497 
 
 arsenic 
 
 . 174 
 
 Starch . 
 
 
 496 
 
 mercury 
 
 . 386 
 
 iodide of . 
 
 336 
 
 496 
 
 potassium 
 Sulpho-carbolic acid 
 
 . 456 
 
 Stavesacre seeds . 
 
 
 497 
 
 . 236 
 
 Steaming horse's head 
 
 
 538 
 
 phenic acid 
 
 . 236 
 
 Stibium or antimony 
 
 
 161 
 
 Sulphuric acid . 
 
 . 605 
 
 Stimulants 
 
 
 65 
 
 ether . 
 
 . 299 
 
 diffusible 
 
 
 65 
 
 Sulphurous acid . 
 
 . 609 
 
 Stimulant prescriptions (see 
 
 also 
 
 
 Suppositories 
 
 . 106 
 
 Motor excitants), 64, 131, 
 
 155, 
 
 157, 
 
 Suppurants 
 
 . 37 
 
 169, 190, 260, 301, 399, 
 
 446, 
 
 513, 
 
 Surgeon's lint ' . 
 
 . 368 
 
 521, 529. 
 
 
 
 Surgical antiseptics 
 
 . 17, 232, 512 
 
 Stomachics (see also Carminati-ves), 41, 
 
 Sweating medicines 
 
 . 53 
 
 64, 132, 161, 242, 316, 318 
 
 356 
 
 402, 
 
 Sweet spirit of nitre 
 ' Sylvic acid 
 
 .512 
 
 443, 475. 
 
 
 
 .528 
 
 Storax, or Styrax Benzoin 
 
 
 203 
 
 Syringes, clyster 
 
 . 107 
 
 Stopping for horses' feet . 
 
 
 529 
 
 Syrups 
 
 . . 101 
 
 Strychnine 
 
 
 413 
 
 simple 
 
 . 101 
 
 arsenite of 
 
 
 418 
 
 , 
 
 
 Strychnic or igasuric acid 
 
 
 409 
 
 Table of medicines arrs 
 
 mged ac- 
 
 Stiychnos nux vomica . 
 
 
 409 
 
 cording to their physiological 
 
 St3T)tics (see also Hsemostatics), 70, 149, 
 
 actions 
 
 11, 12 
 
 296, 305, 311, 352, 367, 419. 
 
 
 • Table of weights and measures 108, 110 
 
 Subcutaneous injection . 
 
 91 
 
 , 439 
 
 Tannin or tannic acid 
 
 . 310 
 
 Sublimate, corrosive 
 
 
 392 
 
 Tansy 
 
 188 
 
 Succi— expressed juices . 
 
 
 101 
 
 Tapioca starch 
 
 . 496 
 
 Sucrose — cane sugar 
 Sudorifics or diaphoretics 
 
 
 498 
 
 Taf 
 
 . 628 
 
 . 
 
 53 
 
 Barbadoes 
 
 . 445 
 
 Suet 
 
 
 191 
 
 coal 
 
 226, 446, 528 
 
 Digitized by Microsoft® 
 
INDEX OP MEDICIKES. 
 
 579 
 
 PAGE 
 
 S28 
 529 
 
 Tar, oil of 
 
 ointment of 
 
 Tartar, cream of 
 
 crude 
 
 emetic 
 
 Tartarised antimony 
 
 experiments with 
 Tartrate of potash 
 Tennant's ansesthetic fluid 
 Terehepe, an antiseptic . 
 Terebinthinse 
 Terehiathifia renata 
 
 vulgaris 
 Terebinthinse oleum 
 Thebaine 
 
 Therapeutic action of medicines . 
 Theriaca, treacle . . n 
 
 Thermometer, Fahrenheit and 
 
 Centigrade 
 Thus or frankincense 
 Thyme .... 
 Tiglii oleum 
 Tinctura aconiti . 
 
 aloes 
 
 ammoniae 
 
 beUadonnse 
 
 cantharidis 
 
 catechu . 
 
 cinchonae 
 
 conii 
 
 ferriehloridi 
 I gallae 
 
 ) ■ : gentianse 
 
 i</f hyoscyami 
 
 .,; -; iodinei . 
 
 myrrhse . 
 
 nucis vomicae . 
 
 opii 
 
 zihgiberis 
 Tinctures, how made, etc. 
 Tobacco . 
 
 clysters . 
 
 smoke . 
 
 mountain 
 
 Virginian 
 
 volatile oil of . 
 Tplu balsam 
 Tolerance of medicine 
 Tonics , . 
 
 Tonic prescriptions, 35, 73, 143, , 
 
 , 237, 266, 269, 276, 316, 333, 347, 
 350, 352, 404, 407, 474, 507, 540, 545 
 Tow 
 
 . 163 
 
 . 163 
 
 . 167 
 
 . 166 
 
 . 84 
 
 522, 527 
 
 . 518 
 
 . 520 
 
 . 519 
 
 . 522 
 
 426 
 
 5 
 
 110 
 521 
 442 
 '283 
 123 
 145 
 156 
 200 
 223 
 243 
 266 
 382 
 351 
 309 
 317 
 331 
 340 
 404 
 413 
 437 
 319 
 99 
 514 
 518 
 518 
 172 
 514 
 515 
 204 
 92 
 61 
 182. 
 
 Tis,gaoanth 
 
 Treacle . 
 
 Turkey opium 
 rhubarb 
 
 Turkish baths 
 
 Tprpentine 
 
 American 
 Bordeaux 
 
 322 
 '501 
 422 
 475 
 540 
 518 
 519 
 519 
 
 Turpentine, Chian or Cyprus 
 
 common 
 
 oil of 
 
 spirit of 
 
 Strasburg 
 
 Venice 
 Turpeth or Turbith mineral 
 
 TjMBELUFEEiE 
 
 Unguenta 
 
 Unguentum acidi nitrici . 
 ' seruginis 
 
 arsenici 
 
 cantharidis . 
 
 carbolas 
 
 cerse 
 
 creasoti , 
 
 cupri acetatis 
 
 gallae 
 
 hydrargyri . 
 
 hydrargyri nitratis 
 
 hellebori 
 
 iodinei 
 
 resinse . , 
 
 PAGE. 
 
 54 
 519 
 522 
 522 
 520' 
 520 
 
 simplex 
 veratriae 
 zinci oxidi 
 
 Upas antiar . 
 
 TJrari or curari . 
 
 Urine, secretion of 
 
 Valeeian 
 Valeriana officinalis 
 Valerianate of iron 
 
 quinine 
 soda 
 
 41, 160 
 
 . 102 
 
 . 397 
 
 . 280 ' 
 
 . 188 
 
 . 224 
 
 . 236 
 542 
 
 . 283 
 
 . 280, 
 
 . 310 
 
 . 382 
 
 . 397 
 
 , 324 
 
 . 341 
 
 . 528 
 
 . 479 
 
 . 542 
 
 . 534 
 
 . 543 
 73 
 
 . 74 
 
 . 57 
 
 530 
 530 
 532 
 532 
 531 
 531 
 530, 531 
 540 
 
 Valerianic acid 
 
 Vajiour bath 
 
 Vaso-motor depressants (see also 
 
 Sedatives), 159, 207, 247, 325, 430, 
 
 460. 
 Vaso-motor stimulants (see also 
 
 Stimulants), 65, 155, 194, 265, 295, 
 
 301, 330, 522. 
 Veins, injection into 
 Venice turpentine 
 Vegetable medicines, collection of 
 Veratrine or veratria 
 Veratrum album . 
 sabadilla 
 viride . 
 Verdigiis 
 
 ointment of 
 VeiTnifuges (see Anthelmintics 
 
 and Insecticides) 
 Vermilion 
 
 Vermin-killers . ' . 
 
 Vesicants (see Blisters)" '. 
 Veterinary Materia Medica 
 
 90 
 520 
 
 87 
 532, 
 532 
 532 
 532 
 279 
 280 
 
 . 50 
 . 386 
 . 417 
 37,39 
 1 
 
 Digitized by Microsoft® • 
 
580 
 
 INDEX OF MEDICINES. 
 
 Veterinary Pharmacy 
 
 PAGE 
 
 . 1, 95 
 
 White lotion . . 545 
 
 PAGE 
 
 , 547 
 
 Yinegar . . " . 
 
 112 
 
 mustard seed 
 
 400 
 
 British . 
 
 . 112 
 
 pepper 
 
 443 
 
 distilled . 
 
 113 
 
 poppy 
 
 
 421 
 
 foreign' . 
 
 113 
 
 vitriol 
 
 
 544 
 
 of oolohicum 
 
 273 
 
 wax 
 
 
 542 
 
 oantharides 
 
 224 
 
 Wine 
 
 
 126 
 
 opium . 
 
 . 438 
 
 Wolfsbane 
 
 
 115 
 
 wood 
 
 . 112 
 
 Wood charcoal 
 
 
 244 
 
 Virginian tobacco 
 
 . 515 
 
 naphtha 
 
 
 398 
 
 Viteol, blue 
 
 . 275 
 
 snake 
 
 
 409 
 
 green 
 
 . 347 
 
 spirit, or pyroxylic Spirit . 
 
 398 
 
 oil of 
 
 .. 505 
 
 tar ... 
 
 528 
 
 of copper 
 
 275 
 
 Wourara or curara poison 
 
 74 
 
 white 
 
 . 544 
 
 
 
 Vomica, nux 
 
 . 409 
 
 Yeast . 
 
 192 
 
 Vomiting, how produced 
 
 . 42 
 
 poultices . 
 
 192 
 
 
 
 YeUow cinchona bark . 
 
 261 
 
 Wash, black 
 
 385 
 
 prussiate of potash 
 
 467 
 
 yellow 
 
 385 
 
 resin 
 
 528 
 
 Water . 
 
 534 
 
 sulphate of mercuiy 
 
 384 
 
 boiling, for blistering 
 
 . 538 
 
 wash 
 
 386 
 
 cure 
 
 . 641 
 
 wax 
 
 541 
 
 dressings . 
 
 105, 539 
 
 Yew .... 
 
 293 
 
 lime 
 
 . 208 
 
 
 
 hemlock . 
 
 74, 325 
 
 ZiNO and its compounds . 
 
 547 
 
 mineral 
 
 536 
 
 acetate 
 
 646 
 
 of ammonia 
 
 . 152 
 
 butter of 
 
 
 546 
 
 tar 
 
 529 
 
 carbolate 
 
 
 237 
 
 Wax . ... 
 
 541, 
 
 carbonate 
 
 
 543 
 
 Weights and measures 
 
 107 
 
 chloride 
 
 
 545 
 
 Whisky . 
 
 126 
 
 oxide 
 
 
 542 
 
 White arsenic 
 
 . 174 
 
 sulphate 
 
 
 544 
 
 ginger 
 
 310 
 
 valerianate 
 
 
 531 
 
 hellebore . 
 
 532 
 
 Zingiber officinale 
 
 317- 
 
 lead 
 
 362 
 
 Zingiberis tinctur 
 
 a 
 
 319 
 
 Printed hy R. & R. Clark, Edinburgh. 
 Digitized by Microsoft® 
 
9 Castle Stkebt, 
 Edinbuegh, January 1878. 
 
 LIST OF BOOKS 
 
 PUBLISHED BY DAVID DOUGLAS. 
 
 BAILDON— Morning Clouds: being divers Poems 
 by H, B. Baildon, B.A. Cantab., Author of "Kosanwnd," etc. 
 Ex. fcap. 8vo, 5s. 
 
 Bible Eeadings. 
 
 Extra foap. 8vo, 2s. 
 
 BLACKIE-Lsrrical Poems. 
 
 By John Stuaet Blackib, Professor of Greek in the University 
 of Bdinburgb. Crown 8vo, clbtb, 7s. 6d, 
 BLACKIE— The Language and Literature of the 
 Scottish Highlands. In 1 vol. crown Svo, 6s. 
 
 "Tlie way to a mother's heart is through her children; the way to a 
 people's heart is through its language. "-Jeam Paul Biohter. 
 
 "Bin Buoh, das ich auoh deutaohen Lesem, und zwar in einem hetrSohtlich 
 weitemUmfange,niohtangelegentliohgeniigempfehlenkann. . . . MitP. A. 
 Wolfs lebendiger Auffassung vom Ursprunge der homerischen Bpen vor der 
 Seele weisz er die echten lyrisohen Sehopfuugen der Vorzeit mit ihrem 
 Ansatz zu episoher Passung zu erkennen und greift aus den Eesten des 
 wahren Ossiau eiuige kostliehe Perlen heraus, wie sie zu Anfang des 16. 
 Jahrhunderts der Deehant Maogregor von Llsmore aufeeiohnete. . . Das 
 letzte Capitel enthSlt eine Beihe auziehender Belspiele gaelisoher Diohtung 
 aus den letzten hundert Jahren. . . ■. Auch iiher die Mmm^rlioh gedeihende 
 Prosa werden lehrreiohe Angaben hinzugefagt."-Dr. KevnMd PauM. 
 
 BLACKIE— Four Phases of Morals: Socrates, Aris- 
 totle, Christianity, and UtiKtarianism. Lectures deUvered 
 before the Boyal Institution, London, -pcap. Svo, second edi- 
 tion, Ss. 
 
 
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2 BOOKS PUBLISHED BY DAVID DOUGLAS. 
 
 BLACKIB— Songs of Religion and Life. 
 
 Fcap. 8vo, 6s. 
 
 "Tlie poema in this volume may he regarded as a Second Edition of the 
 second part of my 'Lays and Legends of Ancient Greece,' which has long 
 heen out of print, along with other Poems not hitherto published, and a 
 few from a volume of 'Lyrical Poems' previously published, all having one 
 common object, viz., 'the cultivation of religious reverence without sectarian 
 "dogmatism, and of poetical gfentiment tending not so much to arouse the 
 imagination or to take the fancy, as to purify the passions and to regulate 
 the conduct of life.' " — Prejuce. 
 
 BLACKIB— On Self-Culture : InteUeotual, Physical, 
 and Moral. A Vade-Mecam for Young Men and Students. 
 Tenth edition. Fcap. 8to, 2s. 6d. 
 
 "Every parent sl^ould put it into the hands of his son." — Scotsman. 
 
 " Students in all countries would do well to tafee as their vade-tmcwm a little 
 book on self-culture by the eminent Professor of Greek in the University of 
 Edinburgh." — Medical Press and Ci/reular. 
 
 " An invaluable manual to be put into the hands of students and young 
 men." — Era. 
 
 "Written in that lucid and nervous prose of which he is a master." — 
 
 BLACKIB— On Greek Pronunciation. 
 Demy 8vo, 3s. 6d. 
 
 BLACKIB— On Beauty. 
 
 Crown Svo, cloth, Sa. 6d. 
 
 BLACKIB— Musa Burschicosa. 
 
 A Book of Songs for Students and University Men. Fcap. Svo, 
 2s. 6d. 
 
 BLACKIB— War Songs of the Germans. 
 Feap. Svo, price 2s. 6d. cloth ; 2s. paper. 
 
 BLACKIB— Political Tracts. 
 
 No. 1. GovERNMBNT, No. 2. EDUCATION. Price 1b. each. 
 
 BLACKIB— Homer and the Ihad. 
 
 In three Parts. 4 vols, demy Svo, price 42s. 
 
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BOOKS PUBLISHED BY DAVID DOUGLAS. 
 
 BOWEN-Daily Meditations by Rev. G. Bowen of 
 Bombay. Witli Introductory Notice by Eev. W. Hanna, D. D. , 
 Author of "The Last Day of our Lord's Passion." Third 
 edition, small 4to, cloth, price 5s. j or Umproan, red edges, 
 price 7s. 6d. 
 
 " Among such books we shaU scarcely find another wMoli exhibits the sanio 
 freshness and vividness of idea, the same fervour of faith, the same intensity 
 of devotion. ... I count it a^privflege to introduce in this country a! book so 
 fitted to attract and to benefit."— ^xiroci^om Prefaxx. 
 
 " These meditations are the production of a missionary whose mental history 
 is very remarkable. ... His conversion to a religidus life is undoubtedly one 
 of the most remarkable on record. They are all distinguished by a tone of true 
 piety, and are wholly free from a sectarian or controversial Vias."— Morning 
 Post. 
 
 BROWN— John Leech and other Papers. 
 
 By John Beowh, M. D. , F. R. S. E. Cro-wn 8vo. [In the Press. 
 
 BROWN— Locke and Sydenham, and other Papers. 
 
 Extra foap. 8vo, 7s. 6d. 
 
 BROWN— Horse Subsecivse. 
 
 Ninth edition. Extra fcap. 8vo, 73. 6d. 
 
 BROWN— Letter to the Rev. John Cairns, D.D, 
 Second edition. Crown Svo, sewed, 23. 
 
 BROWN— Arthur H. Hallam ; 
 
 Extracted from "Horse Subsecivse.". Fcap. sewed, 2s. ; cloth, 
 23. 6d. 
 
 BROWN— Rab and his Friends ; 
 
 Extracted from " Horae Subsecivse." Forty-ninth thousand. 
 Fcap. sewed, 6d. 
 
 BROWN— Rab and his Friends. 
 
 Cheap Illustrated edition. Square 12mo, ornamental wrapper. Is. 
 
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BROWN— Rab and his Friends. 
 
 With Illustrations by Sir George Harvey, R.S.A., Sir J. Noel 
 Paton, E.S. A., and J. B. New edition. Demy quarto, cloth, 6s. 
 
 BROWN— Marjorie Fleming : A Sketch. 
 Fifteenth thousand. B"cap. sewed, 6d. 
 
 BROWN— Our Dogs ; 
 
 Extracted from "Horse Subseoivse." Nineteenth thousand. 
 Fcap. sewed, 6d. 
 
 BROWN-" With Brains, Sir;" 
 
 Extracted from "Horse Subsecivse." Foap. sewed, 6d. 
 
 BROWN— Minohmoor. 
 
 Foap. sewed, 6d. 
 
 BROWN— Jeems the Doorkeeper : A- Lay Sermon. 
 6d. 
 
 BROWN— The Bnterkin. 
 6d. 
 
 CAMPBELL- My Indian Journal, 
 
 Containing descriptions of the principal Field Sports of India, 
 with Notes on the Natural History and Habits of the Wild 
 Animals of" the Country. By Colonel Walter Campbell, 
 Author of " The Old Forest Eanger." 8vo, with Illustrations, 
 16s. 
 
 GUMMING— WUd Men and WUd Beasts. Adven- 
 tures in Camp and Jungle. By Lieut. -Colonel Gordon Gumming. 
 — With Illustrations by Lieut. -Gol. Baigrie and others. Second 
 edition. Demy 4to, price 24s. 
 Also, a cheaper edition, with Lithographic Illustrations. 
 8vo, 12s. 
 
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BOOKS PUBLISHED BY DAVID DOUGLAS. 5 
 
 CHALMERS— Life and Works of Rev. Thomas 
 Chalmers, D.D., LL.D. * 
 
 Memoirs oi' the Rev. Thomas Chalmebs. By Rev. W. 
 
 Hauna, D.D., LL.D. Cheap edition. 2 vols, crown 8vo, 
 
 cloth, 12s. 
 Daily Scriptubk Readings. Cheap edition. 2 vols, crown 
 
 8vo, 10s. 
 
 ASTEONOMICAl DiscoirE&, Is. 
 , COMMEKCIAL DISCOURSES, la. 
 
 Select IVoEKS, in 12 vols., crown 8vo, cloth, per vol., 6s. 
 
 Lbctubes on the Bohanb. 2 vols. 
 
 Sebmonb. 2 vols. 
 
 Natobal Theology, LEornKES o» Boiler's Aitalogt, etc. 1 vol 
 
 Christian Bvidenges, Lectures on Paley*s Evidences, etc. 1 vol. 
 
 Institdtes of Theology, 2 vols. 
 
 Political Economy, with Cognate Essays. 1 vol. 
 
 Polity of a Nation, 1 vol. 
 
 Church and College Establishments, 1 voL 
 
 Moral Philosophy, Intboddotoby Essays, Index, etc. 1 vol. 
 
 CHIBNB— Lectures on Surgical Anatomy. 
 
 By John; Chibne, Assistant-Surgeon, Royal Infirmary, Edin- 
 burgh. In 1 voL 8to. With numerous Illustrations drawn on 
 Stone by Bbrjeau. [In the. Press. 
 
 CONSTABLE— -Aj-ohibald Constable and his Literary 
 Correspondents : a Memorial. By his Son, Thomas Constable. 
 3 vols. 8vo, 363., with Portrait. 
 
 " The cream of a generation of interesting men and women now gone from 
 among us— these are the subjects of this important memoir, "—Satwrdmi Bevim. 
 
 "These three volumes are decidedly additions to our knowledge of that 
 great and brilliant epoch in the history of letters to which they refer,"— 
 Standard. 
 
 "He (Mr, Constable) wa^ a genius in the publishing world, . . . . The 
 ereator of the Scottish jpublishing trade, "—Times. 
 
 • • These three volumes are of a singular and lasting interest "—NoncmfirmiBt. 
 
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6 BOOKS PUBLISHED BY DAVID DOUGLAS. 
 
 " The third volume (Sir Walter Scott) of this elahorate and intereating history 
 & almost an independent work." — Atlt^/ncev/m. 
 
 "We heartily commend this hook to the notice of all readers."— GMoniiori. 
 
 DASBNT— Tales from the Norse. 
 
 By Sir Geokgb Wbbbe Dasent, D.C.L. Third edition, with 
 Introduction and Appendix. In 1 vol. demy 8vo. [In the Press. 
 
 DUN— Veterinary Medicines ; their Actions and 
 Uses. By Piniay Dun. Fifth edition, revised and enlarged. 
 8vo. llmmediately. 
 
 DUNBAR— Social Life in Former Days ; 
 
 Chiefly in the Province of Moray. Illustrated by Letters and 
 Family Papers. By E. Dunbab Dunbar, late Captain 21st 
 Fusiliers. 2 vols, demy 8vo, 19s. 6d. 
 
 BRSKINB— Letters of Thomas Erskine of Lin- 
 lathen, from 1800 tUl 1840. Edited by William Hak^ta, D.D., 
 Author of the "Memoirs of Dr. Chalmers," etc. In 1 vol. 
 crown 8vo, 7s. 6d. 
 
 "Here is one who speaks out of the fulness of a large lirimg human heart ; 
 whose words will awaken an echo in the hearts of many burdened with the 
 cares of time, perplexed with the movements of the spirit of our time, who 
 wiU speak to their deepest needs, and lead them to a haven of rest."— Daily 
 Beme/w. 
 
 " It does one good to come in contact with so saintly a man, and Dr. Hanna 
 has certainly conferred a benefit on the Church at large by editing this 
 volume." — Bdmlmrgh Oowtmt. 
 
 " ' How high must that peak have been which caught the light so early,' 
 were the words with which a writer in the Contemporary Review, in sketching 
 the life of Thomas Brskine, shortly after his death, characterised his position, 
 his spirit, and his influence." — Noncovjormist, 
 
 BRSKINB— Letters of Thomas Brskine of Lin- 
 lathen, from 1840-1870. Second Series, completing the Work. 
 Edited by the Kev. W. Hamia, D.D. In 1 vol. crown 8vo, 
 7b. 6d. 
 
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BOOKS PUBLISHED BY DAVID DOUGLAS. 7 
 
 ERSKINB— The Unconditional Preeness of the 
 Gospel. New edition, reTised. Crown 8vo, 3s. 6d. 
 
 ERSKINB— An Essay on Faith. 
 Fourth edition. I2mo, 3a. 
 
 BRSKINE— The Spiritual Order, and other Papers 
 
 selected from tlie MSS. of the late Thomas Ebskine of Lin- 
 lathen. Second edition. Crown 8vo, cloth, 5b. 
 
 " It will for a few liave a value which others will not the least understand. 
 But all must recognise in it the utterance of a spirit profoundly penetrated 
 with the sense of brotherhood, and with the claims of common humanity."— 
 Spectator. 
 
 " Very deserving of study. " — Times. 
 
 Vide BiBLB Keadinos and Fragments of Tkuth. 
 
 FINLAY— Essay to which was awarded the First 
 Mackenzie Prize for ike beat Esaay on the best, means of Im- 
 proving the Kelations between Capital and Labour. By Jambs 
 Faiebaibn Finlay, M. a. Demy 8vo, Is. 
 
 FLETCHER— Autobiography of Mrs. Fletcher (of 
 Bdinbur^), with Letters and other Family Memorials. Edited 
 by her Daughter. Second edition. Crown 8vo, 7b. 6d. 
 
 " This is a delightful book. It contains an illustrative record of a singularly 
 noble, true, pure, prolonged, and happy life. The story is recounted with a 
 candour, vivacity, and grace which are very charming." — DwUy Beview. 
 
 FLEURY— L'Histoire d'Angleterre. 
 
 Par M. Lame Flbttky. 18mo, cloth, 2a. 6d. 
 
 FLEURY— L'Histoire de France. 
 
 Par M. LAMf Flbubt. New edition. ISmo, cloth, 2s. 6d. 
 
 FORBES— The Deepening of the Spiritual Life. 
 
 By A. P. FOEBBS, D.C.'L., Bishop of Brechin. Fifth edition. 
 18mo, cloth, price Is. 6d. ; or paper covers, la. ; calf, red edges, 
 3s. 6d. 
 
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8 BOOKS PUBLISHED BY DAVID DOUGLAS. 
 
 FORBES— Kalendars of Scottish Saints, with Per- 
 sonal Notices of tliose of Alba, etc. By Alexander Pbneosb 
 Forbes, D.O.L., Bishop of Brechin. 1 vol. 4to, price £3, 3s. 
 A few copies for sale on large paper, £5, 15s. 6d. 
 
 "A truly valuable contribution to the archseology of Scotland." — GuwrdAo/n. 
 
 "We must not forget. to thank the author for the great amonnt of informa- 
 tion he has put together, and for the labour he has bestowed on a work which 
 can never be remunerative." — Satwrday jReview. 
 
 "His laborious and very interesting work on the early Saints of Alba, 
 Laudonia, and Strathclyde."— Cuarterij/ Renew. 
 
 Fragments of Truth. Being the Exposition of several 
 passages of Scripture. Third edition. Extra fcap. 8yo, 5s. 
 
 GAIRDNER— On Medicine and Medical Education. 
 By W. T. Gaiednee, Professor of the Practice of Medicine in 
 the University of Glasgow. Three Lectures, with Notes and an 
 Appendix. 8vo, 3s. 6d. 
 
 GAIRDNER— Clinical and Pathological Notes on 
 Pericarditis. By W. T. Gaiednee, Professor of the Practice of 
 Medicine in the University of Glasgow. 8vo, sewed, Is. ' 
 
 GIBSON, 0. P.— Cheerfulness. 
 
 By Chaeles P. Gibson. In 1 vol. fcap., 3b. 6d. 
 
 *'It depicts, in very graphic and glowing terms, much of the scenery of 
 this northern district of England, and is therefore sure to be prized very 
 highly by those Northumbrians into whose hands it may happen to fall. 
 Apart, however, from its local interest, it has peculiar merits of its own, 
 and no one can read it without feeling that his own spirit has been en- 
 livened and elevated by so doing. Its pictures remind us very forcibly of 
 those of Thomson, Cowper, and Bums."— Wewcoaile DaiVs Jtmmal. 
 
 GORDON— The Roof of the World ; 
 
 Being the narrative of a journey over the high plateau of 
 Tibet to the Russian Frontier and the Oxus sources on Pamir. 
 By Lieut. -Col. T. B. Goedon, C.S.L With numerous Illus- 
 trations. Koyal 8vo, 31s. 6d. 
 
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BOOKS PUBLISHED BY DAVID DOUGLAS. 9 
 
 GORDON— The Home Life of Sir David Brewster. 
 
 By his Daughter, Mrs. GoKDON. Second edition. Crown 8vo, 6a. 
 
 "With his own countrymen it is sure of a welcome, and to the savcmts of 
 Europe, and of the New World, it will have a real and special interest of its 
 own."— PoZ! Mall Gaaette. 
 
 GORDON— Workers. 
 
 Pourtli thousand. Fcap. 8vo, limp cloth, Is. 
 
 GORDON— Work; or, Plenty to do and How to do it. 
 
 Thirty-fifth thousand. Foap. 8vo, cloth, 2s. 6d. 
 
 GORDON— Little Millie and her Four Places. 
 Cheap Edition. Tifty-fifth thousand. Limp cloth, Is. 
 
 GORDON— Sunbeams in the Cottage; or. What 
 Women may do. A Narrative chiefly addressed to the Work- 
 ing Classes. Cheap edition. Forty-fourth thousand. Limp 
 cloth. Is. 
 
 GORDON— Prevention ; or, An Appeal to Economy 
 and Common Sense. 8vo, 6d. 
 
 GORDON— The Word and the World. 
 
 Twelfth etoon. Price 2d. 
 
 GORDON— Leaves of Healing for the Sick and 
 SorrowfuL Fcap. 4*0, cloth, 3s. 6d. Cheap edition, limp 
 I cloth, 2s. 
 
 GORDON— The Motherless Boy; 
 
 With an Illustration by Sir J. Noel Paton, R.S.A. Cheap 
 edition, Ump cloth. Is. 
 
 " Alike in manner and matter calculated to attract youthful attention, and 
 to attract it by the best of all means— sympathy."— Scofsmtm. 
 
 GRAHAM—" Mystifications." 
 
 By Miss Stirling GtRaham. Fourth edition. Edited by 
 John Bkown, M.D. With Portrait of " Lady Pitlyal." Foap. 
 8vo, 3s. 6d. 
 
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10 BOOKS PUBLISHED BY DAVID DOUGLAS. 
 
 HANNA— The Life of our Lord. 
 
 By the Rev. WiLLiAM Haiwa, D.D., LL.D. 6 vols., hand- 
 somely bound in cloth extra, gilt edges, 30s. 
 
 Separate vols., cloth extra, gilt edges, 5s. each. 
 
 1. The Eablieb Yeaks or cub Lord. Eighth thousand. 
 
 2. The Ministry in Galilee. Third edition. 
 
 3. The Close ov the Ministry. Sixth thousand. 
 
 4. The Passion Week. Fifth thousand. 
 
 5. The Last Day of our Lord's Passion. Forty-seventh 
 
 thousand. 
 
 6. The Forty Days aiter the JEHsubbection, Ninth 
 
 thousand, 
 
 HANNA— The Resuireotion of the Dead. 
 
 By William Hanna, D.D., LL.D. Second edition. One vol. 
 fcap. 8vo, 5s. 
 
 JOHNNY GIBB of Gushetneuk, in the Parish of 
 Pyketillim : with Glimpses of the Pariah Politics about A.D. 1843. 
 Fourth edition, with a Glossary. Ex. foap. 8vo, 2s. 
 
 " It is a grand addition to our pnre Scottish dialect ; ... it is not merely 
 a capital specimen of genuine Scottish northern dialect ; hut it is a capital 
 specimen of pawky characteristic Scottish humour. It is full of good hard 
 Scottish dry fun." — Bum Ramsa/y. 
 
 Notes and Sketches Illustrative of Northern Rural 
 Life in the Eighteenth Century, by the Author of " Johnny 
 Gibb of Gushetneuk." In 1 vol. fcap. 8vo, 2s. 
 
 Life among my Ain Folk. 
 
 By the Author of "Johnny Gibb of Gushetneuk." 12mo, 
 cloth, 2s. 6d. 
 
 KENNEDY— Pilate's Question, "Whence art thou?" 
 
 An Essay on the Personal Claims asserted by Jesus Christ, and 
 how to account for them. By John Kennedy, M.A., D.D., 
 London. Crown 8vo, 3s. 6d. 
 
 KER— Sermons by the Rev. John Ker, D.D., Glas- 
 gow. Eleventh edition. Crown 8vo, 6b. 
 
 "A very remarkable volume otBesrmoiiS."— Contemporary Beiiiew. 
 
 Digitized by Microsofi® \ 
 
BOOKS PUBXISHBD BY DAVID DOUGLAS. 1 1 
 
 LAINGK-Lindores Abbey, and the Burgh of New- 
 burgh : their History and Annals. By Alexandbe Laino, 
 F.S.A. Scot. 1 vol. small 4to. With Index, and thirteen FuU- 
 page and ten Woodcut Illustrations, 21s. 
 
 " This Is a charming volume in every respect."— Jfo*e« arid Queries. 
 
 " The prominent characteristics of the work are its exhaustiveness and the 
 thoroughly philosophic spirit in which it is written." — Scotsma/n. 
 
 LANCASTER— Essays and Reviews. 
 
 By the late Hbney H. Lancaster, Advocate ; with a Prefatory 
 Notice by the Rev. B. JovnETT, Master of BaUiol College, 
 Oxford. Demy 8vo, with portrait, 14s. 
 
 LAURIE— On the Philosophy of Ethics. An Analy- 
 tical Essay. By S. S. Laurie, A.M., P.KS.E., Professor of 
 the Theory, History, and Practice of Education in the Univer- 
 sity of Edinburgh. Demy 8vo, 6s. 
 
 " Mr. Laurie's volume now loefore us is in substance, though not in form, a 
 ;reply to Mr. MiU's Utililarianism. Mr. Laurie has the metaphysical head and 
 the metaphysical training of his countrymen, and has brought both to bear 
 with great force on the problem proposed."— Satoritoj/ Smiae. 
 
 LAURIE— Notes on British Theories of Morals. 
 Demy 8vo, 6s. 
 
 "His criticisms are candid and highly instructive, e.g. those of the views of 
 Bentham, Mill, and Bain. He manifests great aptitude in detecting radical 
 defects, in exposing logical inconsistencies, and in detecting the legitimate 
 tendencies of philosophical systems."— BriMsfe Quarterli/. 
 
 MACK AY- Memoir of Sir James Dalrymple, First 
 
 Viscount Stair. A Study in the History of Scotland and Scotch 
 
 Law during the Seventeenth Century. By ^. J. G. Mackay, 
 
 Advocate. 8vo, 12s. 
 MACPHERSON— Omnipotence belongs only to the 
 
 Beloved. By Mrs. Beewstbr Macphbeson. 1 vol., extra 
 
 foap., 33. 6d. 
 MACPHERSON-Giffcs for Men. 
 
 1 vol. ex. fcap. 8vo, 6s. 
 
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12 BOOKS PUBLISHED BY DAVID DOUGLAS. 
 
 MACLAGAN-The HiU Forts, Stone Circles, and 
 other Structural Remains of Ancient Scotland. By 0. Mac- 
 LAGAK, Lady Associate of tlie Society of Antiquaries of Scotland. 
 With Plans and lUustratious. 1 vol. fol., 31b. 6d. 
 
 "We need not enlarge on the few inconsequential speculations which rigid 
 axchseologists may find in the present volume. We desire rather to commend 
 it to their careful study, fully assured that not only they, but also the general 
 reader, will be edified by its perusal."— Scoitmnji. 
 
 MAXWELL— Solimaoi the Magnifloent, and the 
 Turks in the Sixteenth Century. By Sir William Stiklino 
 Maxwell, Bart., K.T., and M.P. Illustrated by numerous 
 Facsimiles of rare contemporary Drawings and Portraits. 
 In 1 vol. f oho. [In the Press. 
 
 MAXWELL— Antwerp Delivered in MDLXXVII. : 
 
 a Passage from the History of the Netherlands, illustrated with 
 Facsimiles of a rare Series of Designs by Martin de Vos, and 
 of Prints by Hogenberg, the Wiericxes, etc. By Sir William 
 Stirling Maxwell, Bart., K.T., and M.P. In 1 vol. folio. 
 
 [In the Press. 
 MICHIE— History of Loph Kinnord. 
 By the Rev. J. G. Michib. Demy 8vo, 2s, 6d. 
 
 MILN— Researches and Excavations at Carnao 
 (Morbihan), the Bossenno, and Mont St. Michel^ By James 
 MiLN. In 1 vol. royal 8vo, with Maps, Plans, and numerous 
 Illustrations in Wood-Engraving and Ohromo-Lithography. 
 
 MORBHBAD— Memorials of the Life and Writings 
 of the Bev. Robert Morehead, D.D., formerly Rector of 
 Easiugton, Yorkshire, and previously Dean of Edinburgh. 
 Edited by his Son, Charles Morehead, M.D. Or. 8vo, 7s. 6d. 
 
 NAPIER— "The Lanox of Auld:" an Epistolary 
 Review of "The Lennox, by William Fraser." To which is 
 added, A Postscriptive Memorie of the House of Merchiston. 
 By Mark Napier. With Woodcuts and Plates. 1 vol. 4to. 
 
 [/» preparaUon. 
 
 PATRICK, R. W. COCHRAN— Records of the Coin- 
 age of Scotland, from the earliest period to the Union. Col- 
 
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BOOKS PUBLISHED BY DAVID DOUGLAS. 13 
 
 leoted by E. W. Coohban Pateiob; of Woodaide. ' Only Two 
 Hundred and Fifty Copies printed. Now ready, in 2 vols. 4to, 
 with 16 Full-page Illustrations, Six Guineas. 
 
 " Tlie future Historians of Scotland will be very fortunate if many parts of 
 their materials are so carefully worked up for them and set before them in so 
 complete and taking a form." — Athenceiim. 
 
 "When we say that these two volumes contain more than 770 records, of 
 which more than 550 have never been printed before, and that they are illus- 
 trated by a series of Plates, by" the autotype process, of the coins themselves, 
 the reader may jndge for himself of the learning, as weU as the pains, bestowed 
 on them both by the Author and the Publisher."— Times. 
 
 "The most handsome and complete Work of the kind which has ever 
 been published in this country."— WumismaMc Chramde, Ft. IV., 1876. 
 
 Popular Genealogists ; 
 
 Or, Tha Art of Pedigree-making. Crown 8vo, 4g. 
 
 " We have here an agreeable little treatise of a hundred pages, from an anony- 
 mous but evidently competent hand, on the ludicrous and fraudulent sides of 
 genealogy. The subject has a serious and imporiant historical character, 
 when regarded from the point of view of the authors of TJu: Govmimg 
 Families of BTigUmd. But it is rich in the materials'of comedy also. ... We 
 are glad to see such a step taken in the good work as the pubUcation of 
 the essay which has suggested this article, mi which we commend to those 
 who want a bit of instructive and amusing reading."-PaII Matt GoMte. 
 
 RENTON, W.— Oils and Water Colours. 
 By William Ebnton. 1 vol. foap. 5s. 
 
 "The book is obviously for the Artist and the Poet, and for every one who 
 shares with them a true love and zeal for nature's beauties."-Sffl)te«m. 
 
 "To have observed such a delicate bit of colouring as this, and to have 
 written so good a sonnet in the ' strict style.' as that we have quoted, shows 
 ffiat our author has no common powers either as an observer or a writer. ■ 
 — Lvo&r^ool Albion. \ 
 
 "To those minds that reaUy hold this joy in beauty. Mr. Eentons book 
 will undoubtedly give delight. "-iVorOierTi Ermgn. 
 
 ROBBRTSON-Historical Essays in connection 
 
 with the Land and the Church, etc. By E. William Eobeb't- 
 SOK, Author of " Scotland under her Early Kings." In 1 vol. 
 8vo, 10s. 6d. 
 
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^ 1 
 
 u 
 
 BOOKS PUBLISHED BY DAVID DOUGLAS. 
 
 ROBERTSON— Scotland under her Early Kings. 
 A History of the Kingdom to the close of the 1 3th century. 
 By E. William Robertson. In 2 vols. 8vo, cloth, 36s. 
 " Mr. Robertson^ s labours are of that valuable kind where an intelligent 
 and thorougli sifting of original authorities is brought to bear upon a portion 
 of history handed over hitherto, in a pre-eminent degree, to a specially 
 mendacious set of Mediaeval Ghroniclers, and (not so long ago) to a specially 
 polemical and uncritical class of modem Historians. He belongs to the school 
 of Innes and Skene and Joseph Robertson, and has established a fair right to 
 be classed with the Reeves and Todds of Irish historical antiquaxianism, and 
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