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Common respiratory and gastrointestinal illness in paediatric student nurses and medical technology students

Published online by Cambridge University Press:  19 October 2009

H.-J. Gerth ,
Ch. Grüner ,
R. Müller  and
K. Dietz
H.-J. Gerth
Affiliation:
Hygiene-Institut der Universität Tübingen, Abt. für Med. Virologie und Epidemiologie der Viruskrankheiten, D7400 Tübingen, FRG
Ch. Grüner
Affiliation:
Hygiene-Institut der Universität Tübingen, Abt. für Med. Virologie und Epidemiologie der Viruskrankheiten, D7400 Tübingen, FRG
R. Müller
Affiliation:
Universitäts-Kinderklinik, D7400 Tübingen, FRG
K. Dietz
Affiliation:
Institut für Med. Biometrie der Universität Tübingen, D7400 Tübingen, FRG
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Summary

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The aim of this study was to establish the risk of acquiring common respiratory and gastrointestinal illness for paediatric nurses. Using self-administered questionnaires, student nurses at two children's hospitals and students at one school of medical technology reported biweekly the number of minor illnesses, symptoms, and indicators of severity of infection over a 3-year period (1975–8). Although a systematic bias was evident with some symptoms, others appeared to be quite reliable. The following four syndromes were defined to estimate the risk: upper respiratory syndrome (URS), lower respiratory syndrome (LRS), respiratory and gastrointestinal syndrome (RGS), and gastrointestinal syndrome (GS). Surveillance days were allocated to groups with high- or low-intensity contact with children. The incidence of all illnesses was 2·9 per person-year in the low-intensity contact group and 4·4 per person-year in the high-intensity contact group. The reported incidence of LRS and RGS in the high-intensity contact group was 1·55 times higher than in the low-intensity group (P < 0·001). LRS and RGS incidence was similar in nurses at both schools. During low contact periods it corresponded to that of the medical technologists.

Type
Research Article
Information
Epidemiology & Infection , Volume 98 , Issue 1 , February 1987 , pp. 33 - 45
Copyright
Copyright © Cambridge University Press 1987

References

REFERENCES

Cox, D. R. (1953). Some simple approximate tests for Poisson variates Biometrika 40, 354360.CrossRefGoogle Scholar
Ditchburn, R. K., McQuillin, J., Gardner, P. S. & Court, S. D. M. (1971). Respiratory syncytial virus in hospital cross infection. British Medical Journal 3, 671673.CrossRefGoogle ScholarPubMed
Fox, J. P., Elveback, L. R., Spigland, I., Frothingham, Th. E., Stevens, D. A. & Huger, M. (1966). The virus watch program: A continuing surveillance of viral infections in metropolitan New York families. I. Overall plan, methods of collecting and handling information and a summary report of specimens collected and illnesses observed. The American Journal of Epidemiology 83, 389412.CrossRefGoogle Scholar
Gardner, P. S., Court, D. M., Brockleban, J. T., Downham, M. A. P. S. & Weightman, D. (1973). Virus cross-infection in paediatric wards. British Medical Journal 2, 571575.CrossRefGoogle ScholarPubMed
Gerth, H.-J., Grüner, Ch., Müller, R. & Dietz, K. (1987). Seroepidemiological studies on the occurrence of common respiratory infections in paediatric student nurses and medical technology students. Epidemiology and Infection 98, 4763.CrossRefGoogle ScholarPubMed
Hall, C. B., Douglas, G. D. Jr, Geiman, J. M. & Messner, R. N. (1975). Nosocomial respiratory syncytial virus infections. New England Journal of Medicine 293, 13431346.CrossRefGoogle ScholarPubMed
Meissner, H. C., Murray, S. A., Kiernan, M. A., Snydman, D. R. & McIntosh, K. (1984). A simultaneous outbreak of respiratory syncytial virus and parainfluenza virus type 3 in a newborn nursery. Journal of Pediatrics St. Louis 104, 680684.Google Scholar
Mufson, M. A., Mocega, H. E. & Krause, H. E. (1973). Acquisition of parainfluenza 3 virus infection by hospitalized children. I. Frequency, rates and temporal data. Journal of Infectious Diseases 128, 141147.CrossRefGoogle ScholarPubMed
Sims, D. G., Downham, M. A. P. S., Webb, J. K. G., Gardner, P. S. & Weightman, D. (1975). Hospital cross-infection on children's wards with respiratory syncytial virus and the role of adult carriage. Acta Paediatrica Scandinavica 64, 541545.CrossRefGoogle ScholarPubMed
Valenti, W. M., Clarke, Th. A., Hall, C. B., Menegus, M. A. & Shapiro, D. L. (1982). Concurrent outbreaks of rhinovirus and respiratory syncytial virus in an intensive care nurserv: epidemiology and associated risk factors. Journal of Pediatrics St. Louis 100, 722726.Google Scholar
van Volkenburoh, V. A. & Frost, W. H. (1933). Acute minor respiratory diseases prevailing in a group of families residing in Baltimore, Maryland, 1928–1930. Prevalence, distribution and clinical description of observed cases. American Journal of Hygiene 17, 122153.Google Scholar