Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-14T22:28:15.672Z Has data issue: false hasContentIssue false
  • English
  • Français

Aspects of colibacillosis in farm animals

Published online by Cambridge University Press:  19 October 2009

C. Wray  and
J. A. Morris
C. Wray
Affiliation:
MAFF, Central Veterinary Laboratory, New Haw, Weybridge KT15 3NB, UK
J. A. Morris
Affiliation:
MAFF, Central Veterinary Laboratory, New Haw, Weybridge KT15 3NB, UK
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.

It has been known for a considerable time that Escherichia coli, although a normal inhabitant of the intestinal tract, can also be associated with a variety of pathological conditions in man, farm animals and poultry.

When Escherich (1885) isolated from the faeces of a newborn baby an organism which is now accepted as E. coli, he considered it to be a harmless saprophyte. Laruelle (1889) was the first to suggest the possible pathogenicity of this organism, while Jensen (1893) showed that it was the cause of white scour in calves. The development of reliable serological methods facilitated the differentiation of strains and numerous workers have demonstrated an association between certain serological types of E. coli and various disease conditions in animals. Enteric diseases in young animals are an important cause of mortality and economic loss to the farming community.

Type
Research Article
Information
Journal of Hygiene , Volume 95 , Issue 3 , December 1985 , pp. 577 - 593
Copyright
Copyright © Cambridge University Press 1985

References

REFERENCES

Acres, S. D., Isaacson, R. E., Babuik, L. A. & Kapitany, R. A. (1979). Immunization of calves against enterotoxigenic colibacillosis by vaccinating dams with purified K99 antigen and whole cell bacterins. Infection and Immunity 25, 121126.CrossRefGoogle ScholarPubMed
Acres, S. D., Laing, C. J., Saunders, J. T. & Radostits, O. M. (1975). Acute undifferentiated neonatal diarrhoea in beef calves. 1. Occurrence and distribution of infectious agents. Canadian Journal of Comparative Medicine 39, 116132.Google Scholar
Aning, K. G., Thomlinson, J. R., Wray, C., Sojka, W. J. & Coulter, J. (1983). Adhesion factor distinct from K88, K99,987 P, CFAI and CFAII in porcine Escherichia coli. Veterinary Record 112, 251.CrossRefGoogle Scholar
Arbuckle, J. B. R. (1968). The distribution of certain Escherichia coli strains in pigs and their environment. British Veterinary Journal 124, 152159.CrossRefGoogle ScholarPubMed
Bijlsma, S. W., DeNijs, A. & Frik, J. F. (1981). Adherence of Escherichia coli to porcine intestinal brush borders by means of serological variants of the K88 antigen. Antonie van Leeuwenhoek Journal of Microbiology and Serology 47, 467468.CrossRefGoogle Scholar
Binns, M. M., Davies, D. L. & Hardy, K. G. (1979). Cloned fragments of the plasmid Col V, 1-K94 specifying virulence and serum resistance. Nature 279, 778–81.CrossRefGoogle Scholar
Buntain, B. J. & Selman, I. E. (1980). Controlled studies of various treatments for neonatal calf diarrhoea in calves of known immunoglobulin levels. Veterinary Record 107, 245248.CrossRefGoogle ScholarPubMed
Butler, J. E. (1974). In Immunoglobulins of the Mammary Secretions in Lactation (ed. Larson, B. L. and Smith, V. R.), vol. III, pp. 217253. New York: Academic Press.Google Scholar
Bywater, R. J. (1977). Evaluation of an oral glucose-glycine-electrolyte formulation and amoxicillin for treatment of diarrhoea in calves. American Journal of Veterinary Research 38, 19831987.Google ScholarPubMed
Chanter, N., Morgan, H. J., Bridger, J. C., Hall, G. A. & Reynolds, D. J. (1984). Dysentery in gnotobiotic calves caused by atypical Escherichia coli. The Veterinary Record 114, 71.CrossRefGoogle ScholarPubMed
Contrepois, M., Giradeau, J. P., Dubourguier, H. C., Gouet, P. & Levieux, D. (1978). Specific protection by colostrum from cows vaccinated with the K 99 antigen in newborn calves experimentally infected with Escherichia coli Ent+ K99+. Annales de Recherches Vétérinaires 9, 385388.Google Scholar
Dam, A. (1971). Preliminary experiments on vaccination and serum treatment in the prophylaxis of E. coli 0149: K91: H10 infection in newborn piglets. Ada Velerinaria Scandinavica 12, 457459.CrossRefGoogle Scholar
Dobrescu, L. (1983). New biological effect of edema disease principle (Escherichia coli neurotoxin) and its use as an in vitro assay for this toxin. American Journal of Veterinary Research 44, 3234.Google Scholar
Dobrescu, L. & Huygelen, C. (1976). Protection of piglets against neonatal E. coli enteritis by immunization of the sow with a vaccine containing heat-labile enterotoxin (L.T.) Zentralblatt für Veterindr-Medizin 23, 7988.CrossRefGoogle Scholar
Dupont, M. L., Sullivan, P., Pickering, L. K., Haynes, G. & Ackerman, P. B. (1977). Symptomatic treatment of diarrhoea with bismuth subsalicylate among students attending a Mexican University. Gastroenterology 73, 715–18.CrossRefGoogle ScholarPubMed
Erskine, R. G., Sojka, W. J. & Lloyd, M. K. (1957). The experimental reproduction of a syndrome indistinguishable from oedema disease. Veterinary Record 69, 301303.Google Scholar
Escherich, T. (1885). Die Darmbacterien des Neugeboreuen und Saüglings Fortschritte der Medicin 3, 515522, 547–554.Google Scholar
Evans, D. J., Chen, L. C.Curlin, G. T. & Evans, D. G. (1972). Stimulation of adenyl cyclase by Escherichia coli enterotoxin. Nature (London), Neio Biology 236, 137138.CrossRefGoogle ScholarPubMed
Formal, S. B., Dupont, H. L., Hornick, R., Snyder, M. J., Libonati, J. & LeBrec, E. H.. (1971). Experimental models in the investigation of the virulence of dysentery bacilli and Escherichia coli. Annals of the New York Academy of Science 176, 190.CrossRefGoogle Scholar
Frantz, J. C. & Robertson, D. C. (1981). Immunological properties of Escherichia coli heat-stable enterotoxins: development of a radioimmunoassay specific for heat-stable enterotoxins with suckling mouse activity. Infection and Immunity 33, 193198.CrossRefGoogle ScholarPubMed
Fürer, E., Eryz, S. J., Dorner, F., Nicolet, J., Wanner, M. & Germanier, R. (1982). Protection against colibacillosis in neonatal piglets by immunization of dams with procholeragenoid. Infection and Immunity 35, 887894.CrossRefGoogle ScholarPubMed
Gaastra, W. & De Graaf, F. K. (1982). Host-specific fibrial adhesins on non-invasive enterotoxigenic Escherichia coli strains. Microbiological Review 46, 129161.CrossRefGoogle Scholar
Giannella, R. A., Drake, K. W. & Luttrell, M. (1981). Development of a radioimmunoassay for Escherichia coli heat-stable enterotoxin: comparison with the suckling mouse bioassay. Infection and Immimity 33, 186192.CrossRefGoogle ScholarPubMed
Giradeau, J. P., Dubourguier, M. C., & Contrepois, M. (1980). Attachement des E. coli entéropathogénes a la muqueuse intestinale. Bulletin des Groupements Techniques Veterinaires 4B, 190, 49.Google Scholar
Gouet, P., Contrepois, M., Dudourouier, H. C., Rion, Y., Scherrer, R., Laporte, J., Vautherot, J. F., Cohen, J. & L'Haridon, R. (1978). The experimental production of diarrhoea in colostrum-deprived axenic and gnotoxenic calves with enteropathogenic Escherichia coli, rotavirus and coronavirus and in a combined infection of rotavirus and Escherichia coli. Annales de Jlecherches Veterinaires 9, 433440.Google Scholar
Gross, W. B. (1957). Pathological changes of an Escherichia coli infection in chickens and turkeys. American Journal of Veterinary Research 18, 724730.Google ScholarPubMed
Gross, W. B. (1972). Colibacillosis. In Diseases in Poultry (ed. Hofstad, M. S., Calnek, B. W., Helmbod, C. F., Reid, W. M. and Yoder, H. W.), Iowa, The Iowa State Press.Google Scholar
Harry, E. G. & Hemsley, L. A. (1965). The association between the presence of septicaemia strains of Escherichia coli in the respiratory and intestinal tracts of chickens and the occurrence of coli septicaemia. Veterinary Record 77, 3540.Google ScholarPubMed
Inglis, J. S. S. (1960). The relationship of husbandry to calf scours: a review. Veterinary Record, 72, 11741177.Google Scholar
Isaacson, R. E., Fusco, P. C., Brinton, C. C. & Moon, H. W. (1978). In vitro adhesion of Escherichia coli to porcine small intestinal epithelial cells: pili as adhesive factors. Infection and Immunity 21, 392397.CrossRefGoogle ScholarPubMed
Isaacson, R. E., Nagy, B. & Moon, H. W. (1977). Colonization of porcine small intestine by Escherichia coli: colonization and adhesion factors of pig enteropathogens that lacks K 88. Journal of Infectious Diseases 135, 531539.Google Scholar
Jackson, G. (1981). A survey of antibiotic resistance of Escherichia coli isolated from farm animals in Great Britain from 1971–1977. Veterinary Record 108, 325328.CrossRefGoogle Scholar
Jensen, C. O. (1893). Ueber die Kälberruhr und deren Aetiologie. Monatschefte für praktische Thierheilkunde 4, 97124.Google Scholar
Johanssen, U., Rust, W., Habert, R., Glaser, F. & Schubert, D. (1979). Untersuchungen uber die Wirksamkeit von Azetylsalizylsaure zur Prophylaxe der Kolienterotoxamie der Absatzferkel. Monatschefte für Veterinarmedizin 34, 1216.Google Scholar
Jones, R., Phillips, R. W. & Cleek, J. L. (1984). Hyperosmotic oral replacement fluid for diarrheic calves. Journal of American Veterinary Medicine Association 184, 15011505.Google ScholarPubMed
Kaszubkiewicz, C., Kucharewicz-Krukowska, A., Michalski, Z., Bocianowski, M., Saltysiak, Z. & Durlak, I. (1982). Use of bacteriophage in the treatment of coli bacillosis of piglets. Medycyna Weterynaryjna, 38, 281282.Google Scholar
Klipstein, F. A., Enoert, F. R. & Clements, J. D. (1981). Protection in rats immunised with Escherichia coli heat stable enterotoxin. Infection and Immunity 34, 637639.CrossRefGoogle ScholarPubMed
Kohler, E. M. (1971). Enterotoxigenic activity of whole cell lysates of Escherichia coli in young pigs. American Journal of Veterinary Research 32, 731737.Google Scholar
Kohler, E. M. (1974). Protection of pigs against neonatal enteric colibacillosis with colostrum and milk from orally vaccinated sows. American Journal of Veterinary Research 35, 331338.Google ScholarPubMed
Kohler, E. M. & Bohl, E. H. (1966). Studies of Escherichia coli in gnotobiotic pigs. III. Evaluation of orally administered specific antisera. Canadian Journal of Comparative. Medicine 30, 233237.Google Scholar
Kurtz, H. J. & Short, E. C. (1976). Pathogenesis of edema disease in swine: pathologicald effects of hemolysin, autolysate and endotoxin of Escherichia coli (O 141). American Journal of Veterinary Research 37, 1524.Google Scholar
Laruelle, L. (1889). Etude bactériologique sur les peritonites par perforation. La Cellule 5, 61117.Google Scholar
Lascelles, A. K. & McDowell, G. H. (1974). Localised humoral immunity with particular reference to ruminants. Transplant Reviews 19, 170208.Google ScholarPubMed
Lecce, J. G., Balsbaugh, R. K., Clare, D. A. & King, M. W. (1982). Rotavirus and haemolytic enteropathogenic Escherichia coli in weaning pigs. Journal of Clinical Microbiology 16, 715723.CrossRefGoogle Scholar
Lecce, J. G., Clare, D. A., Balsbaugh, R. K. & Collier, D. N. (1983). Effect of dietary regimen on Rotavirus – Escherichia coli weanling diarrhoea of piglets. Journal of Clinical Microbiology 17, 689695.CrossRefGoogle ScholarPubMed
Logan, E. F., Pearson, G. R. & McNulty, M. S. (1977). Studies on the immunity of the calf to colibacillosis. VII. The experimental reproduction of enteric colibncillosis in colostrum-fed calves. Veterinary Record 101, 443446.CrossRefGoogle ScholarPubMed
Logan, E. F. & Penhale, W. J. (1971). Studies on the immunity of the calf to colibacillosis. IV. Prevention of experimental colisepticaemia by the intravenous administration of bovine serum IgM-Rich fraction. Veterinary Record 89, 663667.CrossRefGoogle ScholarPubMed
Logan, E. F., Stenhouse, A., Ormrod, D. J. & Penhale, W. J. (1974). The role of colostral immunoglobulins in the intestinal immunity to enteric colibacillosis. Research in Veterinary Science 17, 290301.CrossRefGoogle ScholarPubMed
Lonnroth, I., Andren, B., Large, S., Martinsson, K. & Holmgren, J. (1979). Chlorpromazin reversed diarrhoea in piglets caused by enterotoxigenic Escherichia coli. Infection and Immunity 24, 900905.CrossRefGoogle ScholarPubMed
Loosmore, R. M. (1964). Symposium on calf diseases: epidemiology. Veterinary Record 76, 13351348.Google Scholar
Lopez-Alvarez, J. & Gyles, C. L. (1980). Occurrence of the Vir plasmid among animal and human strains of invasive Escherichia coli. American Journal of Veterinary Research 41, 709774.Google ScholarPubMed
MoNulty, M. S. (1978). Review Article: Rotaviruses. Journal of General Virology 40, 118.CrossRefGoogle Scholar
Miller, B. G., Newby, T. J., Stokes, C. R. & Bourne, F. J. (1984). Influence of diet on postweaning malabsorption and diarrhoea in the pig. Research in Veterinary Science 36, 187193.CrossRefGoogle ScholarPubMed
Ministry of Agriculture, Fisheries and Food (1984). Veterinary Investigation Diagnosis Analysis II, 1983 and 1970–83.Google Scholar
Moon, H. W., Baety, A. L. & Giannella, R. A. (1983). Immunization of swine with heat-stable Escherichia coli enterotoxin coupled to a protein carrier does not protect suckling pigs against an Escherichia coli strain that produces heat-stable enterotoxin. Infection and Immunity 89, 990992.CrossRefGoogle Scholar
Morin, M. S., Lariviere, S. & Lallier, R. (1970). Pathological and microbiological observations made in spontaneous cases of acute neonatal calf diarrhoea. Canadian Journal of Comparative Medicine 40, 228240.Google Scholar
Morris, J. A. (1984). Bacterial mechanisms in intestinal disease. In Function and Dysfunction of the Small Intestine (ed. Batt, R. M. and Lawrence, T. J. L.), p. 247264. Liverpool University Press.Google Scholar
Morris, J. A. & Sojka, W. J. (1984). Escherichia coli as a pathogen in animals. In The virulence of Escherichia coli. (ed. Sussman, M.). Society for General Microbiology. Academic Press.Google Scholar
Morris, J. A., Thorns, C. J., Scott, A. C. & Sojka, W. J. (1982). Adhesive properties associated with the vir plasmid: a transmissible pathogenic characteristic associated with strains of invasive Escherichia coli. Journal of General Microbiology 128, 20972103.Google ScholarPubMed
Morris, J. A., Thorns, C. J. & Sojka, W. J. (1980). Evidence for two adhesive antigens on the K99 reference strain Escherichia coli B41. Journal of General Microbiology 118, 107113.Google ScholarPubMed
Murphy, T. & Ryan, M. A. (1958). The use of E. coli antiserum in agalactia associated with parturient fever syndrome in sows. Irish Veterinary Journal 12, 5157.Google Scholar
Myers, L. L., Newman, F. S., & Catlin, J. E. (1973). Passive immunization of calves against experimentally induced enteric colibacillosis by vaccination of dams. American Journal of Veterinary Research 34, 2933.Google ScholarPubMed
Nalin, D. R. & Cash, R. A. (1970). Kaolin and cholera. Journal of the Pakistan Medical Association 20, 177182.Google Scholar
Nalin, D. R., Cash, R. A., Rahman, M. & Yunus, D. (1970). Effect of glycine and glucose on sodium and water absorption in patients with cholera. Gut 11, 768772.Google Scholar
Newsome, P. M. (1980). Escherichia coli enterotoxins in colibacillosis. A Review. Proceedings of the British Cattle Veterinary Association for 1979–80.Google Scholar
Nielsen, N. O. & Clugston, R. F. (1971). Comparison of E. coli endotoxin shock and acute experimental oedema disease in young pigs. Annals of the Neiv York Academy of Science 176, 170189.Google Scholar
Penhale, W. J., McEwan, A. D., Selman, I. & Fisher, E. W. (1970). Quantitative studies on bovine immunoglobulins. II. Plasma immunoglobulin levels in market calves and their relationship to neonatal infection. British Veterinary Journal 126, 3037.CrossRefGoogle ScholarPubMed
Pohl, P., Lintermans, P., Van Muylem, K. & Schotte, M. (1982). Colibacilles entérotoxigènes du veau possédant un antigene d'attachment different de l'antigene K99. Annals Medicine Vétérinaire 126, 569571.Google Scholar
Pohl, P., Lintermans, P., Kaeckenbeeck, A., De Mol, P., Van Muylem, K. & Schotte, M. (1983). Existence de différents types d' Escherichia coli pathogenes pour l'intestin du veau. Annals Médiciiie Vétérinaire 127, 3741.Google Scholar
Porter, P. (1969). Porcine colostral IgA and IgM antibodies to Escherichia coli and their intestinal absorption by the neonatal piglet. Immunology 17, 617626.Google ScholarPubMed
Porter, P., Kenworthy, R. & Allen, W. D. (1974). Effect of oral immunisation with E. coli antigens on post weaning enteric infection in the young pig. Veterinary Record 95, 99104.CrossRefGoogle Scholar
Porter, P., Noakes, D. E. & Allen, W. D. (1970). Secretary IgA and antibodies to Escherichia coli in procine colostrum and milk and their significance in the alimentary tract of the young pig. Immunology 18, 245256.Google Scholar
Radostits, O. M., Rhodes, C. S., Mitchell, M. E., Spotswood, T. P. & Wenkoff, M. S. (1975). A clinical evaluation of antimicrobial agents and temporary starvation in the treatment of acute undiflerentiated diarrhoea in newborn calves. Canadian Veterinary Journal 16, 219227.Google Scholar
Roy, J. H. P., Palmer, J., Shillam, K. W. G., Ingram, P. L. & Wood, P. C. (1955). The nutritive value of colostrum for the calf. 10. The relationship between the period of time that a calf house has been occupied and the incidence of scouring and mortality in young calves. British Journal of Nutrition 9, 1120.CrossRefGoogle Scholar
Runnels, P. L., Moon, H. W. & Schneider, R. A. (1980). Development of resistance with host age to adhesion of K99+Escherichia coli to isolated intestinal epithelial cells. Infection and Immunity 28, 298300.CrossRefGoogle ScholarPubMed
Runnels, P. L., Moon, H. W., Whipp, S. C., Matthews, P. J. & Woode, G. N. (1980). Interaction of rotavirus and enterotoxigenic Escherichia coli (ETEC) in gnotobiotic calves. In Proceedings of IIIrd International Symposhim on neonatal diarrhoea, VIDO, pp. 343358. Saskatoon, Sash. Canada.Google Scholar
Rutter, M. J. & Jones, G. W. (1973). Protection against enteric disease caused by Escherichia coli – a model for vaccination with a virulence determinant. Nature 242, 531532.CrossRefGoogle Scholar
Sakazaki, R. & Namioka, S. (1957). Studies of new Escherichia coli type O 136:K78 (B22). Japan Journal of Experimental Medicine 27, 29.Google Scholar
Saunders, C. N., Stevens, A. J., Spence, J. B. & Sojka, W. J. (1960). Escherichia coli infection in piglets. Research in Veterinary Science 1, 2835.CrossRefGoogle Scholar
Schimmelpfennig, H. (1970). Untersuchungen zür Aetiologie der Oedemkrankheit des Schtveines. Berlin: Paul Parey.Google Scholar
Schimmelpfennig, H. & Weber, R. (1978). Studies on the oedema disease producing toxin of Escherichia coli (E. coli neurotoxin). Abstracts of the XIIth International Congress of Microbiology, pp. 521525, Munich, 1978.Google Scholar
Schipper, I. A., Pommer, J., Landblom, D., Danielson, R. & Slanger, W. (1984). A two-year study of vaccination in the prevention of E. coli diarrhoea. North Dakota Farm Research 41, 2329.Google Scholar
Schneider, R. A. & To, C. S. M. (1982). Enterotoxigenic Escherichia coli strains that express K88 and 987P pilus antigen. Infection and Immunity 36, 417418.CrossRefGoogle Scholar
Schultz, Von C. L., Brass, W. & Nussel, M. (1961). Experimented Untersuchungen zur pathogenese Schockartiger unde Rheumatoider Krankheit des Schweines 1. Schockartige Erkrankungen und die Beteiligung des Zentralen Nervensystems. Deutsche tierarziliche Wochenschrift, 68, 289296.Google Scholar
Sellwood, D. M., Gibbons, R. A., Jones, G. W. & Rutter, J. M. (1975). Adhesion of enteropathogenic Escherichia coli to pig intestinal brush borders the existence of two pig phenotypes. Journal of Medical Microbiology 8, 405411.Google Scholar
Sherman, D. M., Acres, S. D. & Sadowski, P. L. (1983). Protection of calves against fatal enteric colibacillosis by orally administered Escherichia coli specific monoclonal antibody. Infection and Immunity 42, 653658.Google Scholar
Shreeve, B. J. & Thomlinson, J. R. (1971). Bacteriological and serological studies in preparturient sows. British Veterinary Journal 127, 5766.CrossRefGoogle ScholarPubMed
Sivasvamy, G. & Gyles, C. L. (1970). The prevalence of enterotoxigenic Escherichia coli in faeces of calves with diarrhoea. Canadian Journal of Comparative Medicine 40, 241246.Google Scholar
Smith, H. W. (1960). The ecology of the intestinal bacteria of the calf with particular regard to Escherichia coli. Veterinary Record 72, 11781183.Google Scholar
Smith, H. W. (1974). A search for transmissible pathogenic characters in invasive strains of Escherichia coli: the discovery of a plasmid-controlled toxin and a plasmid-controlled lethal character closely associated, or identical, with Colicine V. Journal of General Microbiology 83, 95111.Google Scholar
Smith, H. W. (1976). Neonatal Escherichia coli infections in domestic mammals: transmissibility of pathogenic characteristics. Ciba Foundation Symposium 42. Acute Diarrhoea in Childhood, pp. 4572. Elsevier/Exerpta Medica/North Holland.Google Scholar
Smith, H. W. & Crabb, W. E. (1957). The effect of continuous administration of diets containing low levels of tetracyclines on the incidence of drug resistant Bacterium coli in the faeces of pigs and chickens. The sensitivity of Bad. coli to other chemotherapeutic agents. Veterinary Record 69, 2430.Google Scholar
Smith, H. W., Green, P. & Parsell, Z. (1983). Vero cell toxins in Escherichia coli and related bacteria: transfer by phage and conjugation and toxic action in laboratory animals, chickens and pigs. Journal of General Microbiology 129, 31213137.Google ScholarPubMed
Smith, H. W. & Huggins, M. B. (1982). Successful treatment of experimental Escherichia coli infections in mice using phage: its general superiority over antibiotics. Journal of General Microbiology 128, 307318.Google ScholarPubMed
Smith, H. W. & Huggins, M. B. (1983). Effectiveness of phages in treating experimental Escherichia coli diarrhoea in calves, piglets and lambs. Journal of General Microbiology 129, 26592675.Google Scholar
Smith, H. W. & Jones, J. E. T. (1963). Observations on the alimentary tract and its bacterial flora in healthy and diseased pigs. Journal of Pathology and Bacteriology 86, 387412.Google Scholar
Smith, H. W. & Linggood, M. A. (1971). Observations on the pathogenic properties of the K88, Hly and Ent plasmids of Escherichia coli with particular reference to porcine diarrhoea. Journal of Medical Microbiology 4, 467485.CrossRefGoogle ScholarPubMed
Söderlind, O., Olsson, E., Smyth, C. J. & Mollby, R. (1982). Effect of parenteral vaccination of dams on intestinal Escherichia coli in piglets with diarrhoea. Infection and Immunity 36, 900906.CrossRefGoogle Scholar
Sojka, W. J. (1965). Escherichia coli in domestic animals and poultry. Farnham Royal. Commonwealth Agricultural Bureau.Google Scholar
Sojka, W. J. (1971). Enteric disease in newborn piglets, calves and lambs due to Escherichia coli infection. Veterinary Bulletin 41, 509522.Google Scholar
Sojka, W. J. & Carnaghan, R. B. A. (1961). Escherichia coli infection in poultry. Research in Veterinary Science 1, 340350.Google Scholar
Sojka, W. J., Morris, J. A. & Wray, C.(1979). Enteric colibacillosis in lambs with special reference to passive protection of lambs against experimental infection by colostral transfer of antibodies from ewes vaccinated with K99. Fortschritte der Veterinärmedizin No. 29, 5263.Google Scholar
Sojka, W. J., Wray, C. & Morris, J. A. (1978). Passive protection in lambs against experimental colibacillosis by colostral transfer of antibodies from K99 vaccinated ewes. Journal of Medical Microbiology 11, 493499.CrossRefGoogle ScholarPubMed
Stair, E. L., Mebus, C. A., Twiehaus, M. J. & Underdahl, N. R. (1973). Neonatal calf diarrhoea: electron microscopy and intestines infected with reovirus like agent. Veterinary Pathology, 10, 155170.CrossRefGoogle ScholarPubMed
Tennant, B., Ward, D. E., Braun, R. R., Hunt, E. L. & Baldwin, B. H. (1978). Clinical management and control of neonatal enteric infections of calves. Journal of American Veterinary Medical Association 173, 654661.Google Scholar
Thomlinson, J. R. & Buxton, A. (1962). A comparison of experimental anaphylactic shock in guinea pigs with naturally occurring oedema disease and haemorrhagic gastro-enteritis in pigs. Research in Veterinary Science 3, 186202.Google Scholar
Thomlinson, J. R. & Lawrence, T. J. L. (1981). Dietary manipulation of gastric pH in the prophylaxis of enteric disease in weaned pigs: some field observations. Veterinary Record 109, 120122.Google Scholar
Truscott, R. B. (1973). Studies on the chicken-lethal toxin of Escherichia coli. Canadian Journal of Comparative Medicine 38, 160167.Google Scholar
Turjman, N., Gotterer, G. S. & Hendrix, T. R. (1978). Prevention and reversal of cholera enterotoxin effects in rabbit jejunum by nicotinic acid. Journal of Clinical Investigation 61, 11551160.CrossRefGoogle ScholarPubMed
Tzipori, S., Sherwood, D., Angus, K. W., Campbell, I. & Gordon, M. (1981). Diarrhoea in lambs: experimental infections with enterotoxigenic Escherichia coli, Rota virus and Cryptosporidium spp. Infection and Immunity 33, 401406.CrossRefGoogle Scholar
Underdahl, N. R., Torres-Medina, A. & Dorster, A. R. (1982). Effect of Streptococcus faecium C-68 in control of Escherichia coli-induced diarrhoea in gnotobiotic pigs. American Journal of Veterinary Research 43, 2272232.Google ScholarPubMed
Williams, P. H. & George, H. K. (1979). Col V plasmid mediated iron uptake and its enhanced virulence of invasive strains of Escherichia coli. In Plasmids of Medical, Environmental and Commercial Importance (ed. Timmis, K. N. and Puhler, A.), pp. 161172. North Holland: Amsterdam Elsevier.Google Scholar
Wood, P. C. (1955). The epidemiology of white scours among calves kept under experimental conditions. Journal of Pathology and Bacteriology 70, 179193.CrossRefGoogle ScholarPubMed
Wray, C., Dawson, M., Afshar, A. O. & Lucas, M. (1981). Experimental Escherichia coli and rotavirus infection in lambs. Research in Veterinary Science 30, 379381.Google Scholar
Wray, C., Dawson, M., Afshar, A. & Sojka, W. J. (1984). Experimental diarrhoea in lambs. Zentralblatt für Veterinärmedizin B31, 381390.Google Scholar
Wray, C. & Thomlinson, J. R. (1975). Factors influencing occurrence of colibacillosis in calves. Veterinary Record 96, 5256.Google Scholar