Hostname: page-component-8448b6f56d-tj2md Total loading time: 0 Render date: 2024-04-19T08:26:20.070Z Has data issue: false hasContentIssue false
  • English
  • Français

Faecal adenoviruses from Glasgow babies Studies on culture and identity

Published online by Cambridge University Press:  25 March 2010

A. H. Kidd ,
Bonnie P. Cosgrove ,
Raewyn A. Brown  and
C. R. Madeley
A. H. Kidd
Affiliation:
University Department of Infectious Diseases and Regional Virus Laboratory, Ruchill Hospital, Glasgow G20 9NB, U.K.
Bonnie P. Cosgrove
Affiliation:
University Department of Infectious Diseases and Regional Virus Laboratory, Ruchill Hospital, Glasgow G20 9NB, U.K.
Raewyn A. Brown
Affiliation:
University Department of Infectious Diseases and Regional Virus Laboratory, Ruchill Hospital, Glasgow G20 9NB, U.K.
C. R. Madeley
Affiliation:
University Department of Infectious Diseases and Regional Virus Laboratory, Ruchill Hospital, Glasgow G20 9NB, U.K.
Rights & Permissions [Opens in a new window]

Summary

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.

Attempts were made to isolate viruses from babies' stools that contained adenoviruses detected by electron microscopy. One hundred and fifty-nine specimens from 71 children were studied and adenoviruses of established serotypes were isolated from 81 stools. Serial stool samples containing adenovirus particles were obtained from 35 children, and prolonged shedding of recognized serotypes was common. Simultaneous and sequential infections by different serotypes were also observed. Thirty-six children shed adenoviruses that could not be isolated using cell cultures normally used to detect adenoviruses, and nine of these children also shed adenoviruses of established serotypes. Passage in Chang conjunctival cell cultures allowed characterization of fastidious adenoviruses from 14 children as members of a previously unrecognized serotype.

Type
Research Article
Information
Journal of Hygiene , Volume 88 , Issue 3 , June 1982 , pp. 463 - 474
Copyright
Copyright © Cambridge University Press 1982

References

REFERENCES

Bell, J. A., Heubner, R. J., Rosen, L., Rowe, W. P., Cole, R. M., Mastrota, F. M., Floyd, T. M., Chanock, R. M. & Shvedoff, R. A. (1961). Illness and microbial experiences of nursery children at Junior Village. American Journal of Hygiene 74, 267292.Google Scholar
Brandt, C. D., Kim, H. W., Vargosko, A. J., Jeffries, B. C., Arrobio, J. O., Rindge, B., Parrott, R. H. & Chanock, R. M. (1969). Infections in 18,000 infants and children in a controlled study of respiratory tract disease. I. Adenovirus pathogenicity in relation to serologic type and illness syndrome. American Journal of Epidemiology 90, 484500.CrossRefGoogle Scholar
Brandt, C. D., Kim, H. W., Yolken, R. H., Kapikian, A. Z., Arrobio, J. O., Rodriguez, W. J., Wyatt, R. G., Chanock, R. M. & Parrott, R. H. (1979). Comparative epidemiology of two rotavirus serotypes and other viral agents associated with pediatric gastroenteritis. American Journal of Epidemiology 110, 243254.CrossRefGoogle ScholarPubMed
Bryden, A. S., Davies, H. A., Hadley, R. E., Flewett, T. H., Morris, C. A. & Oliver, P. (1975). Rotavirus enteritis in the West Midlands during 1974. Lancet ii, 241243.CrossRefGoogle Scholar
Couch, R. B., Chanock, R. M., Cate, T. R., Lang, D. J., Knight, V. & Huebner, R. J. (1963). Immunization with types 4 and 7 adenovirus by selective infection of the intestinal tract. American Review of Respiratory Diseases 88 (suppl.), 394403.Google ScholarPubMed
de Jong, J. C., Wigand, R., Kidd, A. H., Kapsenberg, J. G. & Muzerie, C. J. (1981). Candidate adenovirus 38, associated with human infantile gastroenteritis, and related to ‘non-cultivatable’ enteric adenovirus.Abstracts of the Fifth International Congress of Virology,August 1981, p. 194.Google Scholar
Flewett, T. H., Bryden, A. S., Davis, H. A. & Morris, C. A. (1975). Epidemic viral enteritis in a long-stay children's ward. Lancet i, 45.CrossRefGoogle Scholar
Flewett, T. H. (1977). Acute non-bacterial infectious gastroenteritis. In Recent Advances in Clinical Virology, 1 (ed. Waterson, A. P.), p. 161. Edinburgh: Churchill Livingstone.Google Scholar
Fox, J. P., Brandt, C. D., Wasserman, F. E., Hall, C. E., Spigland, I., Kogon, A. & Elveback, L. R. (1969). The virus watch program: a continuing surveillance of viral infections in metropolitan New York families. VI. Observations of adenovirus infections: virus excretion patterns, antibody response, efficiency of surveillance, patterns of infection, and relation to illness. American Journal of Epidemiology 89, 2550.CrossRefGoogle Scholar
Green, M., Mackey, J. K., Wold, W. S. M. & Ridgen, P. (1979). Thirty-one human adenovirus serotypes (Ad1–Ad31) form five groups (A–E) based on DNA genome homologies. Virology 93, 481492.CrossRefGoogle ScholarPubMed
Halonen, P., Sarkkinen, H., Arstila, P.Hjertsson, E. & Torfason, E. (1980). Four-layer radioimmunoassay for detection of adenovirus in stool. Journal of Clinical Microbiology 11, 614617.CrossRefGoogle ScholarPubMed
Holmes, I. H. (1979). Viral gastroenteritis. In Progress in Medical Virology 25, 136. Basel: S. Karger.Google Scholar
Jacobsson, P. Å., Johansson, M. E. & Wadell, G. (1979). Identification of an enteric adenovirus by immunoelectroosmophoresis (IEOP) technique. Journal of Medical Virology 3, 307312.CrossRefGoogle ScholarPubMed
Johansson, M. E., Uhnoo, I., Kidd, A. H., Madeley, C. R. & Wadell, G. (1980). Direct identification of enteric adenovirus, a candidate new serotype associated with infantile gastroenteritis. Journal of Clinical Microbiology 12, 95100.CrossRefGoogle ScholarPubMed
Kapikian, A. Z., Yolken, R. H., Greenberg, H. B., Wyatt, R. G., Kalica, A. R., Chanock, R. M. & Kim, H. W. (1979). Gastroenteritis viruses. In Diagnostic Procedures for Viral, Rickettsial and Chlamydial Infections, 5th ed. (ed. Lennette, E. H. and Schmidt, N. J.), pp. 927995. American Public Health Association.Google Scholar
Kidd, A. H. & Madeley, C. R. (1981). In vitro growth of some fastidious adenoviruses from stool specimens. Journal of Clinical Pathology 34, 213216.CrossRefGoogle ScholarPubMed
Kidd, A. H., Chrystie, I. L., Banatvala, J. E. & Hawkins, G. (1981). Infection by fastidious enteric adenoviruses in childhood. Lancet ii, 371372.CrossRefGoogle Scholar
Madeley, C. R., Cosgrove, B. P., Bell, E. J. & Fallon, R. J. (1977). Stool viruses in babies in Glasgow. 1. Hospital admissions with diarrhoea. Journal of Hygiene 78, 261273.CrossRefGoogle Scholar
Madeley, C. R. (1979). Viruses in the stools. Journal of Clinical Pathology 32, 110.CrossRefGoogle ScholarPubMed
Moffet, H. L., Shulenberger, H. K. & Burkholder, E. R. (1968). Epidemiology and etiology of severe infantile diarrhoea. Journal of Pediatrics 72, 114.CrossRefGoogle Scholar
Nelson-Rees, W. A. & Flandermeyer, R. R. (1976). HeLa cultures defined. Science 191, 9698.CrossRefGoogle ScholarPubMed
Rafajko, R. R. (1966). Intratypic differences between adenovirus type 12 strains. Bacteriology Proceedings, p. 137.Google Scholar
Richmond, S. J., Caul, E. O., Dunn, S. M., Ashley, C. R., Clarke, S. K. R. & Seymour, N. R. (1979). An outbreak of gastroenteritis in young children caused by adenoviruses. Lancet i, 11781180.CrossRefGoogle Scholar
Rosen, L., Hovis, J. F. & Bell, J. A. (1962). Observations on some little-known adenoviruses. Proceedings of the Society for Experimented Biology and Medicine 111, 166171.CrossRefGoogle ScholarPubMed
Rowe, W. P., Hartley, J. W. & Huebner, R. J. (1958). Serotype composition of the adenovirus group. Proceedings of the Society for Experimental Biology and Medicine 97, 465470.CrossRefGoogle ScholarPubMed
Schoub, B. D., Koornhof, H. J., Lecatsas, G., Prozesky, O. W., Freiman, I., Hartman, E. & Kassel, H. (1975). Viruses in acute summer gastroenteritis in black infants. Lancet i, 10931094.CrossRefGoogle Scholar
Schwartz, A. R., Togo, Y. & Hornick, R. B. (1974). Clinical evaluation of live, oral types 1, 2 and 5 adenovirus vaccines. Annual Review of Respiratory Diseases 109, 233238.Google Scholar
Scott, T. M., Madeley, C. R., Cosgrove, B. P. & Stanfield, J. P. (1979). Stool viruses in babies in Glasgow. 3. Community studies. Journal of Hygiene 83, 469485.CrossRefGoogle ScholarPubMed
Strohl, W. A. & Schlesinger, R. W. (1965). Quantitative studies of natural and experimental adenovirus infections of human cells. II. Primary cultures and the possible role of asynchronous viral multiplication in the maintenance of infection. Virology 26, 208220.CrossRefGoogle ScholarPubMed
Uhnoo, I., Johansson, M., Svensson, L. & Wadell, G. (1981). Classification of adenoviruses causing diarrhoea.Abstracts of the Fifth International Congress of Virology,August 1981, p. 190.Google Scholar
Wadell, G., Hammarskjöld, M. L., Winberg, G., Varsanyi, T. M. & Sundell, G. (1980). Genetic variability of adenoviruses. Annals of the New York Academy of Sciences 354, 1642.CrossRefGoogle ScholarPubMed
White, G. B. B. & Stancliffe, D. (1975). Viruses and gastroenteritis. Lancet ii, 703.Google Scholar
Whitelaw, A., Davies, H. A. & Parry, J. (1977). Electron microscopy of fatal adenovirus gastroenteritis. Lancet i, 361.CrossRefGoogle Scholar
Wong, S. C. & Kilbourne, E. D. (1961). Changing viral susceptibility of a human cell line in continuous cultivation. Journal of Experimental Medicine 113, 95110.CrossRefGoogle ScholarPubMed
Yow, M. D., Melnick, J. L., Blattner, R. J., Stephenson, W. B., Robinson, N. M. & Burkhardt, M. A. (1970). The association of viruses and bacteria with infantile diarrhoea. American Journal of Epidemiology 92, 3339.CrossRefGoogle Scholar