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Virus diarrhoea associated with pale fatty faeces

Published online by Cambridge University Press:  25 March 2010

Mair E. M. Thomas
Affiliation:
Epidemiological Research Laboratory, Central Public Health Laboratory, Colindale, London, NW9 5HT
P. Luton
Affiliation:
Department of Clinical Microbiology, University College Hospital, London, WC1 6AU
Janet Y. Mortimer
Affiliation:
Epidemiological Research Laboratory, Central Public Health Laboratory, Colindale, London, NW9 5HT
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Summary

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Steatorrhoea was a significant feature in an outbreak of rotavirus gastroenteritis which affected adults and infants in hospital. Fat globules or fatty acid crystals were obvious by light microscopy (LM) in faeces from 14 of 25 patients examined. Ten of the fatty stools and two of the remainder were very pale. By electron microscopy (EM) a rotavirus was seen in 11 of the 14 fatty faeces and in only two of 11 specimens without visible fat.

In a further study of pale or fatty faeces 20 such specimens sent for laboratory examination from patients not involved in the hospital outbreak were compared microbiologically with a similar number which were neither pale nor fatty. Viruses were found by EM in 11 (55%) of the pale or fatty stools; eight rotaviruses, two astroviruses and an uncultivable adenovirus were seen; one further patient had acute jaundice. In contrast, no viruses were seen by EM in the twenty specimens which were normally pigmented and without evident fat.

Steatorrhoea was significantly associated with rotavirus infection of the alimentary tract which usually presented as a fatty enteritis. We conclude that rotaviruses certainly, and other viruses possibly, can impede both the digestion of fat and the pigmentation of the faeces. Inspection and LM of faeces are easy. In acute enteritis a fatty or pale stool is an indication for virological examination.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1981

References

Bishop, R. F., Davidson, G. P., Holmes, I. H. & Ruck, B. J. (1973). Virus particles in epithelial cells of duodenal mucosa from children with acute non-bacterial gastroenteritis. Lancet ii, 1281.CrossRefGoogle Scholar
Blacklow, N. R., Dolin, R., Fedson, D. S., Dupont, H., Northrup, R. S.Hornock, R. B. & Chanock, R. M. (1972). Acute infectious nonbacterial gastroenteritis: etiology and pathogenesis. Annals of Internal Medicine 76, 993.CrossRefGoogle Scholar
Blacklow, N. R. & Cukor, G. (1981). Viral gastroenteritis. New England Journal of Medicine 304, 397.CrossRefGoogle ScholarPubMed
Branski, D., Lebenthal, E., Faden, H., Hatch, T. E. & Krasner, J. (1980). Reovirus type 3 infection in a suckling mouse: the effects on pancreatic structure and enzyme content. Pediatric Research 14, 8.Google Scholar
British Medical Journal (1980). 281, 504 (Correspondent's questions).Google Scholar
Cubitt, W. D. & Holzel, H. (1980). An outbreak of rotavirus infection in a long-stay ward of a geriatric hospital. Journal of Clinical Pathology 33, 306.CrossRefGoogle Scholar
Davison, G. P. & Barnes, G. L. (1979). Structural and functional abnormalities of the small intestine in infants and young children with rotavirus enteritis. Acta Paediatrica Scandinavica 68, 181.CrossRefGoogle Scholar
Hamilton, J. R. (1980). Infectious diarrhoea: implications of recent research. Canadian Medical Association Journal 122, 29.Google Scholar
Hildreth, C., Thomas, M. & Ridgway, G. (1981). Rotavirus infection in an obstetric unit. British Medical Journal 282, 231.Google Scholar
Holzell, H., Cubitt, W. D., McSwiggan, D. A., Sanderson, P. J. & Church, J. (1980). An outbreak of rotavirus infection among adults in a cardiology ward. Journal of Infection 2, 33.CrossRefGoogle Scholar
Konno, T., Suzuki, H., Imai, A. & Ishida, N. (1977). Reovirus-like agent in acute epidemic gastroenteritis in Japanese infants: Faecal shedding and serologic response. Journal of Infectious Diseases 135, 259.CrossRefGoogle ScholarPubMed
Madeley, C. R. (1979). Viruses in the stools. Journal of Clinical Pathology 32, 1.CrossRefGoogle ScholarPubMed
Mathan, M., Mathan, V. I., Swaminathan, S. P., Yesodoss, S. & Baker, S. J. (1975). Pleomorphic virus-like particles in human faeces. Lancet i, 1068.CrossRefGoogle Scholar
Mayr, A. (1980). New emerging viral zoonoses. Veterinary Record 106, 503.CrossRefGoogle ScholarPubMed
Morishima, T., Yamaguchi, H., Nagayoshi, S., Ozaki, T., Isomura, S. & Suzuki, S. (1980). Course of rotavirus gastroenteritis in a closed community. Archives of Diseases in Childhood 55, 147.CrossRefGoogle Scholar
Nagayoshi, S., Yamaguchi, H., Ichikawa, T., Miyazu, M., Morishima, T., Osaki, T., Isomura, S., Suzuki, S. & Hoshino, M. (1980). Changes of the rotavirus concentration in faeces during the course of acute gastroenteritis as determined by the immune adherence haemagglutination test. European Journal of Paediatrics 134, 99.CrossRefGoogle Scholar
Sabin, A. B. (1956). The significance of viruses recovered from the intestinal tracts of healthy infants and children. Annals of the New York Academy of Science 66, 226.CrossRefGoogle ScholarPubMed
Sabin, A. B. (1959). Reoviruses. Science 130, 1387.CrossRefGoogle ScholarPubMed
Stanley, N. F. (1961). Reovirus – a ubiquitous orphan. Medical Journal of Australia 2, 815.CrossRefGoogle Scholar
Steinhoff, M. C. (1980). Rotavirus: the first five years. Journal of Pediatrics 96, 611.CrossRefGoogle ScholarPubMed
Thomas, M. E. M. (1952). ‘Epidemic’ abdominal colic associated with steatorrhoea. British Medical Journal i, 691.CrossRefGoogle Scholar
Thomas, M. E. M. & Charter, R. E. (1956). Aetiology of juvenile diarrhoea. British Medical Journal ii, 339.CrossRefGoogle Scholar
Thomas, M. E. M. & Tillett, H. E. (1975). Diarrhoea in general practice. Journal of Hygiene 74, 183.Google ScholarPubMed
Tillett, H. E. & Thomas, M. E. M. (1981). Monitoring infectious diseases using routine microbiology data. 1. Study of gastroenteritis in an urban area. Journal of Hygiene 86, 49.CrossRefGoogle Scholar
Tillett, H. E. (1981). Monitoring infectious diseases using routine microbiology data. 2. An example of regression analysis used to study infectious gastroenteritis. Journal of Hygiene 86, 59.CrossRefGoogle Scholar
World Health Organisation (1980 a). Diarrhoeal diseases control programme. WHO Weekly Epidemiological Record 55, 209.Google Scholar
World Health Organisation (1980 b). Scientific working group. Rotavirus and other viral diarrhoeas. Bulletin of WHO 58, 183.Google Scholar
Wright, S. G. & Tomkins, A. M. (1978). Quantitative histology in giardiasis. Journal of Clinical Pathology 31, 712.CrossRefGoogle ScholarPubMed
Yolken, R. H., Kim, H. W., Clem, T., Wyatt, R. G., Kalika, A. R., Chanock, R. M. & Kapikian, A. Z. (1977). Enzyme-linked immunosorbent assay (ELISA) for detection of human reovirus-like agent of infantile gastroenteritis. Lancet ii, 263.CrossRefGoogle Scholar