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Salmonellae in abattoirs, butchers' shops and home-produced meat, and their relation to human infection

Published online by Cambridge University Press:  15 May 2009

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In 1961 and 1962 a Working Party of the Public Health Laboratory Service, in which twenty-two laboratories participated, investigated the occurrence of salmonellae in abattoirs, meat factories, butchers' shops and meat products, and their association with human infections.

Thirty-two abattoirs were studied. Salmonellae were isolated from 930 (21%) of 4496 swabs of abattoir drains. There was great variation between different abattoirs, but in general salmonellae were found most frequently in those which slaughtered a high proportion of cattle and a low proportion of sheep; more sero-types were isolated from bacon factories than from abattoirs which slaughtered more than one species of animal. Of 11,347 tissue specimens collected at abattoirs, 218 (1·92%) yielded salmonellae.

Drain swabs from butchers' shops were examined and 73 (6·5%) of 1117 swabs were positive. Meat and meat products were less commonly contaminated but 0·8% of 4127 samples yielded salmonellae.

Salmonella typhimurium was the serotype isolated most frequently from all sources. It was often shown that the same serotypes or phage-types were occurring in abattoirs and in human cases in an area at the same time. In eight food-poisoning incidents, involving a total of 281 cases and excreters, there was convincing evidence that meat or a meat product was the vehicle of infection; in a further twenty-three incidents the organisms causing disease were isolated from sources which suggested that infection might have been meat-borne.

The evidence collected suggests that cattle introduce salmonellae into abattoirs more often than other species of animals. The importance of pigs as a source of human infection is confirmed. Sheep are not a source of salmonella infection in man from meat and meat products, whereas meat from pigs, cattle and calves is a source of infection and is responsible for both sporadic cases and outbreaks of disease.

We wish to thank the many medical officers of health who co-operated in this study. The public health inspectors and abattoir staffs who collected the specimens are too numerous to mention by name, but their invaluable assistance is most gratefully acknowledged. Among the medical officers who assisted us in the survey were: Dr A. Armit (Bridport M.B. and R.D.), Prof. D. B. Bradshaw (Leeds C.B.), Dr C. B. Crane (York C.B.), Dr J. Douglas (Bradford C.B.), Dr A. B. R. Finn (Guildford M.B.), Dr R. A. Good (Winchester M.B.), Dr G. B. Hopkins (Wimborne and Cranborne R.D.), Dr E. W. Kinsey (Caernarvon M.B.), Dr I. B. Lawrence (Dorchester M.B. and R.D.), Dr R. A. Leader (Ipswich C.B.), Dr Mary Lennox (Barry M.B.), Dr V. P. McDonagh (Keighley M.B.), Dr H. E. Nutten (Beccles M.B.), Dr G. O'Donnell (Worcester C.B.), Dr E. J. O'Keeffe (Wareham M.B. and Wareham and Purbeck R.D.), Dr N. F. Pearson (Sturminster Newton R.D.), Dr W. P. Phillips (Cardiff C.B.), Dr T. H. Pierce (Llandudno U.D.), Dr J. L. Rennie (Carlisle C.B.), Dr C. L. Sharp (Bedford M.B.), Dr E. F. Shennan (Evesham U.D.), Dr J. Stevenson-Logan (Southend-on-Sea C.B.), Dr D. W. Wauchob (Blackpool C.B.), Dr J. Walker (Lancashire C.C.), Dr J. V. Walker (Darlington C.B.), Dr R. B. Walker (Kingsbridge R.D.), Dr E. J. Gordon Wallace (Weymouth M.B.), Dr C. Robertson Wilson (Lancashire C.C.), Dr E. M. Wright (Salisbury M.B.), Dr Alfred Yarrow (South East Essex).

Type
Research Article
Copyright
Copyright © Cambridge University Press 1964

References

REFERENCES

Anderson, E. S. (1960). Food poisoning. (c). Special methods used in the laboratory for the investigation of outbreaks of salmonella food poisoning. Roy. Soc. Hlth J. 80, 260.Google Scholar
Anderson, E. S., Galbraith, N. S. & Taylor, C. E. D. (1961). An outbreak of human infection due to Salmonella typhimurium phage-type 20a associated with infection in calves. Lancet, i, 854.CrossRefGoogle Scholar
Camps, F. E. (1947). An extensive outbreak of infection due to Salmonella typhi-murium. Mon. Bull. Minist. filth Lab. Serv., 6, 89. (May.)Google Scholar
Field, H. I. (1948). A survey of bovine salmonellosis in Mid and West Wales. Vet. J. 104, 251, 294, 323.Google ScholarPubMed
Field, H. I. (1959). In Infectious Diseases of Animals: Diseases Due to Bacteria, edited by Stableforth, A. W. and Galloway, I. A., Vol. 2, p. 528. London: Butterworths.Google Scholar
Gaertner, A. H. (1888). KorrespBl. ärztl. Ver. Thüringen, 17, 573.Google Scholar
Galbraith, N. S. (1961). Symposium: salmonellosis in man and animal. 2. Studies of human sahnonellosis in relation to infection in animals. Vet. Rec. 73, 1296.Google Scholar
Galbraith, N. S., Archer, J. F. & Tee, G. H. (1961). Salmonella saint-paul infection in England and Wales in 1959. J. Hyg., Camb., 59, 133.CrossRefGoogle Scholar
Harvey, R. W. S. & Phillips, W. P. (1961). An environmental survey of bakehouses and abattoirs for salmonellae. J. Hyg., Camb., 59, 93.CrossRefGoogle ScholarPubMed
Hobbs, Betty C. & Wilson, J. G. (1959). Contamination of wholesale meat supplies with salmonellae and heat-resistant Clostridium welchii. Mon. Bull. Minist. filth Lab. Serv. 18, 198.Google ScholarPubMed
Jepsen, A. (1957). Application of bacteriological and biochemical tests on the hygienic judgement of meat and meat products. Wld Hlth Org. Monogr. Ser. no. 33, 235.Google Scholar
Jones, A. P., Bennett, J. R. & Ellis, H. (1961). Salmonella food poisoning and abattoir slaughtered meat. Mon. Bull. Minist. Hlth Lab. Serv. 20, 229.Google Scholar
McDonagh, V. P. & Smith, H. G. (1958). The significance of the abattoir in salmonella infection in Bradford. J. Hyg., Camb., 56, 271.CrossRefGoogle ScholarPubMed
Moore, B. (1948). The detection of paratyphoid carriers in towns by means of sewage examination. Mon. Bull. Minist. Hlth Lab. Serv. 7, 241.Google Scholar
Parker, M. T. (1954). Symposium on human and animal sources of gastro-intestinal infection. (a) The spread of some bowel infections from human sources. Roy. Sanit. Inst. J. 74, 847.CrossRefGoogle Scholar
Report (1961). Food poisoning in England and Wales, 1960. Mon. Bull. Minist. Hlth Lab. Serv. 20, 160.Google Scholar
Report (1962 a). Food poisoning in England and Wales, 1961. Mon. Bull. Minist. Hlth Lab. Serv. 21, 180.Google Scholar
Report (1962 b). Meat, 1961. Commonwealth Economic Committee, H.M.S.O., London.Google Scholar
Smith, H. W. (1952). The evaluation of culture media for the isolation of salmonellae from faeces. J. Hyg., Camb., 50, 21.CrossRefGoogle ScholarPubMed
Smith, H. W. (1959). The isolation of salmonellae from the mesenteric lymph nodes and faeces of pigs, cattle, sheep, dogs and cats and from other organs of poultry. J. Hyg., Camb., 57, 266.CrossRefGoogle ScholarPubMed
Smith, H. W. (1960). The effect of feeding pigs on food naturally contaminated with salmonellae. J. Hyg., Camb., 58, 381.Google ScholarPubMed