Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-30T15:19:40.039Z Has data issue: false hasContentIssue false

On the Bacteriology of Asylum Dysentery

Published online by Cambridge University Press:  15 May 2009

Hamilton Tebbutt
Affiliation:
(From the Bacteriological Department, Lister Institute.)
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

(1) A number of Dysentery bacilli of the mannite-fermenting type have been isolated from an English asylum.

(2) These bacilli may be divided into two sub-groups, (a) those that do, and (b) those that do not (1) ferment sorbite and (2) form indol in peptone beef broth in six days.

(3) Several attempts to infect a monkey with sorbite-fermenting strains were not successful.

(4) No Dysentery bacilli were found in an examination of a considerable number of flies infesting the surroundings of chronic and acute cases of bacillary dysentery.

My thanks are due to Dr H. de R. Morgan for kindly co-operation in part of this work, to Dr J. C. G. Ledingham for his valuable advice and assistance at all times, and to Dr W. F. Menzies for supplying the material for examination.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1912

References

Avbline, Boycott, and Macdonald, (1908). Bacillus dysenteriae of Flexner in relation to Asylum Dysentery. Journ, of Hygiene, VIII, 309.CrossRefGoogle Scholar
Bainbridge, and Dudfield, (1911). An outbreak of dysentery. Journ. of Hygiene, XI. 356.CrossRefGoogle Scholar
Bowman, F. B. (1910). A note on the spontaneous occurrence of bacillary dysentery in monkeys. Philippine Journ. of Science, Manilla, 1910, B. V, 481.Google Scholar
Candler, and Dean, G. (1911). A contribution to the study of institutional dysentery. Archiv of Neurology, V, 74.Google Scholar
Eyre, J. W. H. (1904). Asylum dysentery in relation to B. dysenteriae. Brit. Med. Journ. 1904, I, 1002.CrossRefGoogle Scholar
Ledingham, J. C. G. (1911). On the survival of specific micro-organisms in pupae and imagines of Musca domestica raised from experimentally infected larvae. Experiments with B. typhosus. Journ. of Hygiene, XI, 333.CrossRefGoogle Scholar
MacAlister, G. H. K. (1910). Dysentery carriers. Brit. Med. Journ. II, 1056.Google Scholar
Marshall, W. (1909). Case of acute sporadic dysentery in a child associated with the presence of B. dysenteriae (Flexner). Journ. Roy. Army Med. Corps, XII, 556.Google Scholar
MacWeeney, E. J. (1905). Asylum dysentery. Brit. Med. Journ. I, 943.Google Scholar
MacWeeney, E. J. (1906). Asylum dysentery. Brit. Med. Journ. I, 1564.Google Scholar
Morgan, H.de, R. (1906). Upon the bacteriology of summer diarrhoea of infants. Brit. Med. Journ. I, 908.CrossRefGoogle Scholar
Morgan, H.de, R. (1907). Upon the bacteriology of summer diarrhoea of infants. Brit. Med. Journ. II, 16.CrossRefGoogle Scholar
Morgan, H.de, R. (1911). The differentiation of the mannite fermenting group of B. dysenteriae with special reference to strains isolated from various sources in this country. Journ. of Hygiene, XI, 1.CrossRefGoogle Scholar
Morgan, and Ledingham, (1909). The bacteriology of summer diarrhoea. Proc. Royal Soc. of Medicine (Epid. Section), II, 133.CrossRefGoogle Scholar