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The Isolation of B. Typhosus from Infected Water, with Notes on a New Process

Published online by Cambridge University Press:  15 May 2009

H. S. Willson
H. S. Willson
Affiliation:
Lecturer in Bacteriology, King's College, London.
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It has been estimated that 75% of typhoid epidemics are water-borne, and it is not surprising, therefore, that many attempts have been made to prove the presence of the specific bacillus in the suspected waters, although the bacteriological examination for this purpose has always been recognised as most difficult and uncertain.

Type
Research Article
Information
Journal of Hygiene , Volume 5 , Issue 4 , October 1905 , pp. 429 - 443
Copyright
Copyright © Cambridge University Press 1905

References

1 Archives de Médecine expérim., 1901, p. 55.Google Scholar

2 Zeitschr. f. Hyg., Bd. XLII. 2, pp. 317326.Google Scholar

3 Hygienische Rundschau, Bd. XIV. No. 1, 1904, pp. 79.Google Scholar

1 Journ. State Medicine, Sept. 1903.Google Scholar

2 Centralbl. f. Bakt. Orig. XXXIII. No. 5, 1903.Google Scholar

3 Centralbl. f. Bakt. Orig. XXXIII. No. 9.Google Scholar

1 Hygienische Rundschau, XIII. pp. 489–91.Google Scholar

2 Hygienische Rundschau, XIV. pp. 17, 1904.Google Scholar

3 Centralbl. f. Bakt. Orig. XXXVI. p. 312, 1904.Google Scholar

1 See Bull. de l' Institut Pasteur, Vol. II. p. 597, 1904.Google Scholar

2 Journ. de Physiol. et de Pathol. génér. t. VI. 1904.Google Scholar

3 Revue d' Hygiène, 1902, p. 64.Google Scholar

1 Centralbl. f. Bakteriol. Orig. XXXVI. p. 300.Google Scholar

1 Centralbl. f. Bakteriol. XXXV. 1903, No. 1.Google Scholar

1 Centralbl. f. Bakteriol. XXXVI. 1904, No. 2.Google Scholar

2 Centralbl. f. Bakteriol. Orig. XXXVIII. 1905, No. 3.Google Scholar

3 Centralbl. f. Bakteriol. Orig. XXXVI. 1904, No. 4.Google Scholar

4 Zeitschr. f. Hyg. XXXI.Google Scholar

1 Centralbl. f. Bakteriol. XXIX. No. 8.Google Scholar

2 Centralbl. f. Bakteriol. Orig. XXXV. No. 5.Google Scholar

3 Centralbl. f. Bakteriol. Orig. XXXVI. No. 4.Google Scholar

4 Centralbl. f. Bakteriol. Orig. XXXVIII. No. 1.Google Scholar

5 See Brit. Med. Journ. Dec. 1897.Google Scholar

6 Centralbl. f. Bakteriol. XXVI. 1899.Google Scholar

7 Centralbl. f. Bakteriol. XXVII. 1899.Google Scholar

8 Centralbl. f. Bakteriol. Orig. XXXIII. p. 166.Google Scholar

9 Ibid. p. 461.

1 Since the above was written P. W. Bassett-Smith (Journ. Prevent. Med. July, 1905) has recorded some experiments on the germicidal action of various metals. He finds that “zinc or iron coated with zinc…after 24 to 48 hours appears to free the water from typhoid organisms”, and he considers therefore that a galvanized iron tank is most valuable for storage purposes.