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A comparative study of methods for the diagnosis of respiratory virus infections in childhood

Published online by Cambridge University Press:  15 May 2009

Patricia M. Sturdy
Affiliation:
Department of Virology, The Royal Victoria Infirmary and University of Newcastle upon Tyne
Joyce McQuillin
Affiliation:
Department of Virology, The Royal Victoria Infirmary and University of Newcastle upon Tyne
P. S. Gardner
Affiliation:
Department of Virology, The Royal Victoria Infirmary and University of Newcastle upon Tyne
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Summary

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Nasopharyngeal secretions and cough/nasal swabs were taken from 111 children admitted to hospital in Newcastle upon Tyne with acute lower respiratory disease. A comparison was made between nasopharyngeal secretions and cough/nasal swabs as material for isolation of viruses in tissue culture. These results were, in turn, compared with those obtained by applying a fluorescent antibody technique to the exfoliated cells in the nasopharyngeal secretions for the rapid diagnosis of respiratory syncytial virus infection.

More viruses were isolated in tissue culture from nasopharyngeal secretion than from cough/nasal swabs. Further evidence for the superiority of nasopharyngeal secretions was obtained by comparing the virus isolations in the laboratory in 1967 with those in 1968. Respiratory syncytial virus was not only isolated more often but more quickly in tissue culture inoculated with nasopharyngeal secretions.

The fluorescent antibody technique not only provided a diagnosis on the patient's day of admission in 95% of those infected with respiratory syncytial virus but also proved to be as sensitive as the culture of nasopharyngeal secretions and considerably more sensitive than the culture of cough/nasal swabs for the diagnosis of respiratory syncytial virus infection.

We wish to acknowledge the invaluable help given us by consultants, medical officers, ward sisters and their staff in the paediatric wards of the Child Health Department. We also wish to thank the technical staff in the Department of Virology for their aid.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1969

References

REFERENCES

Andrew, J. D. & Gardner, P. S. (1963). The occurrence of respiratory syncytial virus in acute respiratory disease in infancy. Br. med. J. ii, 1447.CrossRefGoogle Scholar
Auger, W. J. (1939). An original method of obtaining sputum from infants and children. J. Pediat. 15, 640.CrossRefGoogle Scholar
Beale, A. J., McLeod, D. L., Stackiw, W. & Rhodes, A. J. (1958). Isolation of cytopathogenic agents from the respiratory tract in acute laryngotracheobronchitis. Br. med. J. i, 302.CrossRefGoogle Scholar
Beem, M., Wright, F. H., Hamre, D., Egerer, R. & Oehme, M. (1960). Association of the chimpanzee coryza agent with acute respiratory disease in children. New Engl. J. Med. 263, 523.CrossRefGoogle ScholarPubMed
Chanock, R. M. (1956). Association of a new type of cytopathogenic myxovirus with infantile croup. J. exp. Med. 104, 555.CrossRefGoogle ScholarPubMed
Chanock, R. & Finberg, L. (1957). Recovery from infants with respiratory illness of a virus related to chimpanzee coryza agent (C.C.A.). II. Epidemiological aspects of infection in infants and young children. Am. J. Hyg. 66, 291.Google Scholar
Chanock, R. M., Kim, H. W., Vargosko, A. J., Deleva, A., Johnson, K. M., Cumming, C. & Parrott, R. H. (1961). Respiratory syncytial virus. I. Virus recovery and other observations during 1960 outbreak of bronchiolitis, pneumonia and minor respiratory diseases in children. J. Am. med. Ass. 176, 647.Google ScholarPubMed
Doane, F. W., Chatiyanonda, K., McLean, D. M., Anderson, N., Bannatyne, R. M. & Rhodes, A. J. (1967). Rapid laboratory diagnosis of paramyxovirus infections by electron microscopy. Lancet ii, 751.CrossRefGoogle Scholar
Elderkin, F. M., Gardner, P. S., Turk, D. C. & White, A. C. (1965). Aetiology and management of bronchiolitis and pneumonia in childhood. Br. med. J. ii, 722.CrossRefGoogle Scholar
Gardner, P. S. (1968). Virus infections and respiratory disease of childhood. Archs Dis. Childh. 43, 232.CrossRefGoogle ScholarPubMed
Gardner, P. S. & McQuillin, J. (1968). Application of immunofluorescent antibody technique in rapid diagnosis of respiratory syncytial virus infection. Br. med. J. iii, 340.CrossRefGoogle Scholar
Gardner, P. S., McQuillin, J., Black, M. M. & Richardson, J. (1968). Rapid diagnosis of herpesvirus hominis infections in superficial lesions by immunofluorescent antibody techniques. Br. med. J. iv, 89.CrossRefGoogle Scholar
Hilleman, M. R., Reilly, C. M., Stokes, J. Jr. & Hamparian, V. V. (1963). Clinical-epidemiologic findings in coryza virus infections. Am. Rev. resp. Dis. 88, 274.Google Scholar
Holdaway, D., Romer, A. C. & Gardner, P. S. (1967). The diagnosis and management of bronchiolitis. Pediatrics, Springfield, 39, 924.CrossRefGoogle ScholarPubMed
Holzel, A., Parker, L., Patterson, W. H., Cartmel, D., White, L. L. R., Purdy, R., Thompson, K. M. & Tobin, J. O'H. (1965). Virus isolations from throats of children admitted to hospital with respiratory and other diseases, in Manchester, 1962–4. Br. med. J. i, 614.CrossRefGoogle Scholar
Holzel, A., Parker, L., Patterson, W. H., White, L. L. R., Thompson, K. M. & Tobin, J. O'H. (1963). The isolation of respiratory syncytial virus from children with acute respiratory diseases. Lancet, i, 295.CrossRefGoogle Scholar
Jordan, W. S. (1962). Growth characteristics of respiratory syncytial virus. J. Immun. 88, 581.CrossRefGoogle ScholarPubMed
McLean, D. M., Roy, T. E., O'Brien, M. J., Wyllie, J. C. & McQueen, E. J. (1961). Para-influenza viruses in association with acute laryngotracheobronchitis, Toronto 1960–61. Can. med. Ass. J. 85, 290.Google ScholarPubMed
McQuillin, J. & Gardner, P. S. (1968). Rapid diagnosis of respiratory syncytial virus infection by immunofluorescent antibody techniques. Br. med. J. i, 602.CrossRefGoogle Scholar
Morgan, E. A., Turner, J. A., Rhodes, A. J., Peach, A. M., Zaiman, E. & Duncan, D. (1956). Observations on the etiology of acute laryngotracheobronchitis, Toronto, 1953–54. Can. med. Ass. J. 75, 638.Google Scholar
Portnoy, B., Eckert, H. L. & Salvatore, M. A. (1965). Rhinovirus infections in children with acute respiratory disease: evidence against aetiological importance. Pediatrics, Springfield, 35, 899.CrossRefGoogle Scholar
Rowe, W. P., Huebner, R. J., Gilmore, L. K., Parrott, R. H. & Ward, T. G. (1953). Isolation of a cytopathogenic agent from human adenoids undergoing spontaneous degeneration in tissue culture. Proc. Soc. exp. Biol. Med. 84, 570.CrossRefGoogle ScholarPubMed
Stott, E. J., Bell, E. J., Eadie, M. B., Ross, C. A. C. & Grist, N. R. (1967). A comparative virological study of children in hospital with respiratory and diarrhoeal illness. J. Hyg., Camb. 65, 9.CrossRefGoogle Scholar
Tyrrell, D. A. J. & Bynoe, M. L. (1965). Cultivation of a novel type of common-cold virus in organ cultures. Br. med. J. i, 1467.CrossRefGoogle Scholar
Tyrrell, D. A. J., Bynoe, M. L., Hitchcock, G., Pereira, H. G. & Andrewes, C. H. (1960). Some virus isolations from common colds. I. Experiments employing human volunteers Lancet i, 235.CrossRefGoogle Scholar