Hostname: page-component-76fb5796d-wq484 Total loading time: 0 Render date: 2024-04-27T05:02:06.634Z Has data issue: false hasContentIssue false
  • English
  • Français

Growth of Streptococcus pyogenes in milk stored at atmospheric temperatures

Published online by Cambridge University Press:  15 May 2009

E. J. Pullinger  and
Audrey E. Kemp
E. J. Pullinger
Affiliation:
From the Research Institute in Animal Pathology, Royal Veterinary College, London
Audrey E. Kemp
Affiliation:
From the Research Institute in Animal Pathology, Royal Veterinary College, London
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. Streptococcus pyogenes multiplies readily in sterilized milk stored at 22 and 18° C., and more slowly at 15° C. In fresh raw milk this organism begins to multiply slowly only after 48–72 hours of storage at 18–22° C. In laboratory pasteurized milk the result is similar, but both commercially pasteurized milk and raw graded milk bottled for distribution sour too rapidly for multiplication to take place after artificial contamination. These facts suggest that widespread epidemics are rarely due to extensive multiplication of S. pyogenes in milk during commercial or household storage.

2. The initial degree of contamination of milk with S. pyogenes has no influence upon this organism's ability to multiply during storage.

3. The failure of S. pyogenes to multiply during storage is due to (a) its natural reluctance to grow at atmospheric temperatures, (b) the bacteriostatic action of the milk, and (c) the readiness with which saprophytic bacteria multiply at atmospheric temperatures.

4. It is contended that infected cows play a major part in the spread of milk-borne S. pyogenes epidemics, and relevant literature is quoted to support this view. It is urged that routine investigation of apparent milk-borne epidemics should include the immediate bacteriological examination of an individual sample of milk from every cow concerned in the supply under suspicion.

Type
Research Article
Information
Journal of Hygiene , Volume 37 , Issue 4 , October 1937 , pp. 527 - 538
Copyright
Copyright © Cambridge University Press 1937

References

Benson, R. L. & Sears, H. J. (1923). J. Amer. Med. Ass. 80, 1608.CrossRefGoogle Scholar
Brown, J. H. & Orcutt, M. L. (1920). J. Exp. Med. 31, 49.CrossRefGoogle Scholar
Camps, F. E. & Wood, J. L. M. (1936). Lancet, ii, 756.CrossRefGoogle Scholar
Chief Medical Officer of the Ministry of Health (1935). Annual Report of the Chief Medical Officer, p. 139.Google Scholar
Christiansen, M. (1931). Verh. internat. Milchwirtsch. Kongr. Section 2, p. 107 (German edition).Google Scholar
Davis, D. J. (1914). J. Inf. Dis. 15, 378.CrossRefGoogle Scholar
Davis, D. J. & Capps, J. A. (1914). J. Inf. Dis. 15, 135.CrossRefGoogle Scholar
Frost, W. D. & Carr, A. M. (1927). Amer. J. Pub. Health, 17, 139.Google Scholar
Golledge, S. V. (1932). Veterin. Rec. 12, 1499.Google Scholar
Hanssen, F. S. (1924). Brit. J. Exp. Path. 5, 271.Google Scholar
Hesse, W. (1894). Z. Hyg. Infektskr. 17, 238.CrossRefGoogle Scholar
Jones, F. S. (1928). J. Exp. Med. 47, 965.CrossRefGoogle Scholar
Jones, F. S. & Little, R. B. (1927). J. Exp. Med. 45, 319.CrossRefGoogle Scholar
Jones, F. S. & Little, R. B. (1928). J. Exp. Med. 47, 945.CrossRefGoogle Scholar
Krumwiede, C. & Valentine, E. (1915). J. Med. Res. 33, 231.Google Scholar
Minett, F. C. (1932). Veterin. Rec. 12, 545.Google Scholar
Minett, F. C. (1935). J. Path. and Bact. 40, 357.CrossRefGoogle Scholar
Minett, F. C. & Stableforth, A. W. (1931). J. Camp. Path, and Ther. 44, 114.CrossRefGoogle Scholar
Pullinger, E. J. (1935). J. Dairy Res. 6, 369.CrossRefGoogle Scholar
Robinson, E. S. & McComb, J. A. (1932). J. Inf. Dis. 51, 292.CrossRefGoogle Scholar
Rosenau, E. C. & Hesse, C. L. (1917). J. Amer. Med. Ass. 68, 1305.CrossRefGoogle Scholar
Rosenau, E. C. & McCoy, G. W. (1908). Bull. Hyg. Lab. United States Pub. Health. No. 41, 449.Google Scholar
Rosenau, E. C. & Moon, V. H. (1915). J. Infect. Dis. 17, 69.CrossRefGoogle Scholar
Savage, W. G. (1911). Proc. Roy. Soc. Med. 4 (Sect. Epidem.), p. 73.CrossRefGoogle Scholar
Savage, W. G. (1931). Proc. Roy. Soc. Med. 24, 1703.Google Scholar
Smillie, W. G. (1917). J. Infect. Dis. 20, 45.CrossRefGoogle Scholar
Smith, & Brown, (1915). J. Med. Res. 31, 455.Google Scholar
Welch, H. & Mickle, F. L. (1933). Amer. J. Hyg. 17, 229.Google Scholar
Wilkinson, E. (1931). Brit. Med. J. ii, 494.CrossRefGoogle Scholar
Winslow, C. E. A. (1912). J. Infect. Dis. 10, 73.CrossRefGoogle Scholar