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Seroepidemiological study on toxocaral infection in man by enzyme-linked immunosorbent assay

Published online by Cambridge University Press:  19 October 2009

K. Matsumura
Affiliation:
Yamaguchi Prefectural Research Institute of Hygiene, 2–5–67 Aoi Yamaguchi 753, Japan
R. Endo
Affiliation:
Yamaguchi Prefectural Research Institute of Hygiene, 2–5–67 Aoi Yamaguchi 753, Japan
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A seroepidemiological survey for toxocaral infection was performed using samples from children and adult women in the Yamaguchi area of Western Japan, An enzyme-linked immunosorbent assay using excretory–secretory antigen was applied to these sera. Of samples tested, 3·1% from children and 3·7% from women were positive. It was found that regression analysis of positive rates by age between 20 and 70 or more years was significant in the positive direction. The positive rates from urban, rural and fishing areas were 5·7, 3·9 and 1·7% respectively. Also, the rates from northern, western and eastern parts in the research area were 5·7, 4·7 and 0·5% respectively. These findings suggested that environmental factors are important for toxocaral infection. Further, the rate for 108 samples who answered that they have owned dogs was 6·2% compared to 2·9% of 422 respondents who denied an experience of owning dogs. This fact suggested thatattention should be paid to dog breeding for prevention and control of toxocaral infection in man.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1983

References

REFERENCES

Beaver, P. C. (1969). The nature of visceral larva migrans. Journal of Parasitology 55, 3.CrossRefGoogle ScholarPubMed
Borg, O. A. & Woodruff, A. W. (1973). Prevalence of infective ova oftoxocara species in public places. British Medical Journal 24, 470.CrossRefGoogle Scholar
de Savigny, D. H. (1975). In vitro maintenance of Toxocara canis larvae and a simple method for the production of Toxocaral ES antigen for use in serodiagnostic tests for visceral larva migrans. Journal of Parasitology 61, 781.CrossRefGoogle Scholar
de Savigny, D. H., Voller, A. & Woodruff, A. W. (1979). Toxocariasis: serological diagnosis by enzyme immunoassay. Journal of Clinical Pathology 32, 284.CrossRefGoogle ScholarPubMed
Matsumura, M. & Endo, R. (1982). Enzyme-linked immunosorbent assay for Toxocariasis in man. Bulletin of the Faculty of Agriculture Yamaguchi University.(In the Press.)Google Scholar
Mok, C. H. (1968). Visceral larva migrans – a discussion based on a review of the literature. Clinical Pediatrics 7, 565.CrossRefGoogle ScholarPubMed
Oshima, T., Sato, K., Tanae, A. & Murata, M. (1965). The first two cases report of infant Toxocariasis in Japan. Japanese Journal of Parasitology 14, 351.Google Scholar
Quinn, R., Smith, H. V. & Bruce, R. G. (1980). Studies on the incidence of Toxocara and Toxocara canis spp. ova in the environment. 1. A comparison of flotation procedures for recovering Toxocara spp. ova from soil. Journal of Hygiene 84, 83.CrossRefGoogle ScholarPubMed
Woodruff, A. W. (1970). Toxocariasis. British Medical Journal 3, 663.CrossRefGoogle ScholarPubMed
Woodruff, A. W., de Savigny, D. & Jacobs, D. E. (1978). Study of Toxocaral infection on dog breeders. British Medical Journal 4, 1747.CrossRefGoogle Scholar
Yoshimura, H. (1973). Parasitic disease from pets (dog and cat). Journal of Medical Technology 17, 166.Google Scholar