Research Article
The Chemical Constitution of the Tubercle Bacillus
- William Bulloch, J. J. R. Macleod
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- 15 May 2009, pp. 1-10
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1. Dried tubercle bacilli extracted with hot solutions of spirit, alcohol, alcohol-ether, Aronson's mixture, yield large percentages of fatty substances.
2. On filtering the boiling extracts a white acid-fast precipitate deposits on cooling.
3. The filtrates on evaporation can be saponified by soda, and on subsequent agitation with ether and water two extracts can be obtained —an ethereal and a watery extract.
4. The ethereal extract contains fat which is not acid-fast.
5. By saponifying the dried ethereal extract with alcoholic potash and decomposing the resulting soaps with sulphuric acid a mixture of fatty acids is obtained containing probably oleic, isocetinic and myristinic acids. None of these are acid-fast.
6. The watery extract (soap) on decomposition yielded a fatty acid with a melting point corresponding to lauric acid.
7. The filtrates also yield lipochromes to which the cultures of tubercle bacillus owe their colour.
8. The white acid-fast precipitate obtained by the original extraction can be saponified, but with great difficulty.
9. By prolonged boiling with alcoholic potash the acid-fast precipitate is decomposed and results in the deposition of an acid-fast snow-white flaky powder, and a non-acid-fast filtrate of fatty acids.
10. The chemical examination of the white flaky powder shows it to be an alcohol.
11. Acid- and alcohol-fastness of the tubercle bacillus is due to the presence of an alcohol.
Further Remarks on the Production of a Malarial from of South African Horse-Sickness
- Alexander Edington
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- 15 May 2009, pp. 11-30
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The conclusions I seek to draw from this part of my investigations are:—
1. That a malarial form of horse-sickness probably occurs naturally.
2. That when animals which are either naturally relatively susceptible, such as the donkey, ox, and goat, or animals which have acquired protection, e.g. “salted” horses, are inoculated with virulent horse-sickness blood, their blood conveys a modified infection of horse-sickness which is malarial in type.
3. That this malarial from is associated with the presence of parasites within the red corpuscles of the blood of the infected animal.
4. That the blood of “salted” horse which have been previously regularly inoculated during several months is of a dangerous order of virulence. Vide former experiments.
5. That the blood of “salted” horses which have only been once inoculated after several months' rest conveys a fairly severe fever.
6. That the blood of “salted” horses, which have not been inoculated for even a year, can still convey infection.
7. That “unsalted” horses which have been inoculated a year previously with “salted” blood convey only a week infection.
8. That a severe attack of malarial horse-sickness gives a considerable degree of protection against subsequent inoculation with “salted” blood.
9. That when regularly inoculated “salted” horses are used to produce blood giving severe fever, such fever may become so severe as to cause death with symptoms of horse-sickness.
10. That the blood of the latter animals which die can produce virulent horse-sickness in clean horses, if used in a considerable dose, i.e. 20 c.c.
Some Fundamental Experiments on Immunity, Illustrated
- E. F. Bashford
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- 15 May 2009, pp. 31-72
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By means of the graphic records given on Plates II–VI and VIII the following facts have been illustrated.
Immunity to Erythrocytes.
Normal rabbit's serum is relatively innocuous for bullock's erythrocytes. The serum of an immunised rabbit acquires the power to dissolve bullock's erythrocytes.
Besides acquiring the power to dissolve bullock's erythrocytes, an immune serum may also acquire power to clump them, and it has been shown that the phenomena of haemolysis and of agglutination are independent.
The powers acquired by the immune serum can be artificially modified. The serum may be deprived of its powers by heat. Serum cautiously so deprived of its haemolytic power can have it restored by the addition of normal serum. The haemolytic power of the un-heated serum is augmented if normal serum be superadded.
It has been shown that an immune serum only differs from a normal serum by its containing antitoxic bodies which are endowed with powers of specific reaction with the bullock's erythrocytes.
The mechanism by which erythrocytes are laked by an immune serum has been analysed, and it has been shown that the solution of the erythrocytes is effected through the intervention of an anti-erythrocytic body called forth by immunisation. The erythrocytes which have been subjected to the action of this product of immunity give indication of their reaction with it if they are subsequently or concomitantly placed under the influence of normal serum. The erythrocytes and normal serum together, therefore, form a combined indicator of the presence of the anti-eiythrocytic body. The part played by normal serum has nothing to do with the acquisition of immunity.
The only conclusion drawn from the above observations is that in the production of immunity to erythrocytes the serum of the immunised animal acquires certain powers which are concomitant with, but are not necessarily the cause of the immunity. This special case of immunity to erythrocytes is therefore probably parallel to induced immunity to those bacterial toxines for which antitoxines are known to exist.
The course and progressive augmentation of artificial immunity to erythrocytes has also been illustrated, and it has been shown that erythrocytes saturated with anti-erythrocytic body retain the power to augment the immunity of an already immune animal.
The serum of an animal actively immunised has power to confer passive immunity upon other animals, and the course of this passive immunity differs in the two cases when it is induced in the same species and in a species alien to that providing the immune serum.
The experiments with bullock's erythrocytes have been repeated in parallel observations with ricin in order to permit of the observations on haemolysis being utilised in drawing conclusions on the behaviour of bacterial toxines.
By adjusting the conditions of experiment in such a way that the minimal lethal dose for an animal was also the minimal agglutinating dose in test-tube experiments, it has been possible to give graphic records showing the parallelism between the processes when erythrocytes or living animals are used as indicators of the presence of free ricin. In this way it has been possible to illustrate the determination of the minimal lethal and minimal agglutinating doses of ricin and that quantity of antitoxine (antiricin) which is necessary to abolish the corresponding actions in the animal and in the test-tube, and to show that the mixture of toxine and antitoxine which is physiologically neutral in vitro is also physiologically neutral in vivo within the limitations imposed by the preliminary determinations.
The consequences of conferring passive immunity upon the guinea-pig by means of active immune serum of the rabbit have also been illustrated, and it has been shown that the alien antiricin serum leads to the production of agencies directed against itself.
Ricin neutralised by antiricin retains its power to produce immunity when injected into the species of animal which has yielded the antiricin.
In connection with the conference of immunity to erythrocytes and to ricin, the nature of the difference between normal and immune sera has been studied. Attention has been directed to the possession by normal sera of properties which simulate those possessed in more marked degree by the immune sera. In the case of haemolysis, it has not been possible to clearly demonstrate that the actions manifested by the normal and immune sera are distinct, although the weight of evidence is in favour of this view. In the case of ricin, however, it has been possible to demonstrate that the immune serum possesses properties which are quite distinct from those possessed by normal serum, and that the latter does not interfere with the action of ricin because of the natural presence of a trace of antiricin. In the case of immunity to ricin, the antitoxine is certainly something which has been super-added to the serum in consequence of the process of immunisation.
The facts ascertained in regard to artificial immunity to erythrocytes and to ricin completely agree. Only in oue point is it impossible to be quite sure that the phenomena are identical, viz., in the simulation by normal serum of the powers characteristic of the immune serum; for the demonstration that the two are distinct has been possible for ricin, but open to doubt in the case of erythrocytes. My investigations have been extended to diphtheria and tetanus toxines and to cobra venom, kindly placed at my disposal by Sir Thomas R. Fraser. They have however been interrupted, but so far as they go they support fully the observations made on ricin and erythrocytes.
“Ankylostomiasis.” No. II
- A. E. Boycott, J. S. Haldane
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- 15 May 2009, pp. 73-111
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In a previous paper (Volume III., p. 95 of this Journal) we gave an account of our observations on cases of ankylostomiasis in Cornish mines. The present paper will be devoted to a more general discussion of the disease from the point of view of its prevention, particularly in mines.
Notes on Beri-beri in the Malay Peninsula and on Christmas Island (Indian Ocean)
- Herbert E. Durham
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- 15 May 2009, pp. 112-155
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Finally, I must express my hearty thanks to the many medical men and others who have given me aid and hospitality in my wanderings after the truth about beriberi. I must mention particularly Dr Giddy and Captain Vincent on Christmas Island, Drs Ellis, Leask and Murray Robertson in Singapore, Drs Travers, Gimlette, Watson, McClosky and Mr Galloway in Selangor, and Drs M. J. Wright and Connolly in Perak, and Messrs Mason, Ponsford, Sanderson, and Hembrey in Pahang, without whose aid and kindness I could have seen but little. I must also thank my friend Dr G. S. Buchanan, Secretary of the Royal Commission on Arsenical Poisoning, for forwarding me much information.
It would seem from my observations that certain of the current theories of the causation of beriberi will not account for the conditions which have been encountered by me. The dietetic or physiological, the unsound food, the arsenical, and the emanation theories all appear to be insufficiently in accordance with the attendant circumstances to have accounted for the spread of the disease.
It is suggested that certain articles of diet, by virtue especially of containing phosphorised and fatty matters, may tend to ward off the disease when given in sufficient amounts. So far as there was any semblance of a positive result in the observations it is suggestive that beriberi is communicated from person to person more or less directly or through fomites as an actual infection. This infection is not of the nature of a septicaemia (since the internal organs at death prove sterile), but to a surface condition about the upper air passages. From the observation of the throats of a number of patients it is surmised that the redness which is therein seen, especially in early cases, may be intimately connected with the disease. The appearances and disappearances of beriberi and the more or less seasonal waves of prevalence of the disease are not unlike those which are seen in the case of the infective diseases which we meet with in this country. The proneness of the newcomer to suffer fits in also with such a view. The difficulty in tracing out the source of infection in a disease like diphtheria is often great, especially since we know that the causative organism may be carried by unsuspected refractory of immune persons or animals.
With considerations such as these it is held by the writer that there is no inherent impossibility in explaining many of the circumstances connected with the spread of beriberi.
Observed facts seem to show that beriberi should rather be considered in the light of a “gang” or “institutional” disease than as a “place” or “house” disease.
Publications Received
Publications Received
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- 15 May 2009, p. 156
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Front matter
HYG volume 4 issue 1 Front matter
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- Published online by Cambridge University Press:
- 15 May 2009, pp. f1-f4
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