Hostname: page-component-8448b6f56d-cfpbc Total loading time: 0 Render date: 2024-04-24T17:49:06.130Z Has data issue: false hasContentIssue false
  • English
  • Français

Feasibility and efficacy of in-home water chlorination in rural North-eastern Brazil

Published online by Cambridge University Press:  19 October 2009

Louis V. Kirchhoff ,
Karen E. McClelland ,
Maria Do Carmo Pinho ,
J. Galba Araujo ,
M. Auxiliadora De Sousa  and
Richard L. Guerrant
Louis V. Kirchhoff
Affiliation:
Division of Geographic Medicine, University of Virginia School of Medicine, Charlottesville, VA 22908, U.S.A.
Karen E. McClelland
Affiliation:
Division of Geographic Medicine, University of Virginia School of Medicine, Charlottesville, VA 22908, U.S.A.
Maria Do Carmo Pinho
Affiliation:
Maternidade Escola Assis Chateaubriand, Universidade Federal do Ceará, Fortaleza, Ceará, Brazil
J. Galba Araujo
Affiliation:
Maternidade Escola Assis Chateaubriand, Universidade Federal do Ceará, Fortaleza, Ceará, Brazil
M. Auxiliadora De Sousa
Affiliation:
Maternidade Escola Assis Chateaubriand, Universidade Federal do Ceará, Fortaleza, Ceará, Brazil
Richard L. Guerrant
Affiliation:
Division of Geographic Medicine, University of Virginia School of Medicine, Charlottesville, VA 22908, U.S.A.
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.

The purpose of this study was to assess the feasibility, acceptability and effect of an in-home water chlorination programme in a rural village. Previous studies at this site showed high levels of faecal coliforms in household water, high diarrhoea rates in children, and enterotoxigenic Escherichia coli and rotaviruses were the most common pathogens isolated from patients. Household water came from a pond and was stored in clay pots. No homes had sanitary facilities. A blind, cross-over trial of treatment of household water with inexpensive hypochlorite by a community health worker was carried out over 18 weeks among 20 families. Water in the clay pots was sampled serially, and symptom surveillance was done by medical students. The programme was generally acceptable to the villagers and no change in water use patterns were apparent. The mean faecal coliform level in the chlorinated water was significantly less than in the placebo treated samples (70 vs 16000 organisms/dl, P < 0·001). People living in houses receiving placebo treatment had a mean of 11·2 days of diarrhoea per year, and the highest rate of 36·7 was among children less than 2 years old. Diarrhoea rates were not significantly different among the participants while exposed to water treated with hypochlorite. We conclude that a low-cost programme of this type, which utilizes community resources, is logistically feasible, appears to be culturally acceptable in this setting, and can result in a marked reduction in water contamination. The lack of effect on diarrhoea rates suggests that improvement in water quality may affect morbidity only when other variables relating to faecal–oral agent transmission are ameliorated at the same time.

Type
Research Article
Information
Journal of Hygiene , Volume 94 , Issue 2 , April 1985 , pp. 173 - 180
Copyright
Copyright © Cambridge University Press 1985

References

REFERENCES

Burki, S. J., Voorhoeve, J. J. C. & Layton, R. (1977). Global Estimates for Meeting Basic Needs: Background Paper (Basic Needs Paper no. 1). Washington D.C.: World Bank.Google Scholar
Center For Disease Control (1980). Health Information for International Travel. Morbidity & Mortality Weekly Report 29 (Supp.), 9798.Google Scholar
Dixon, W. J. & Massey, F. J. Jr, (1969). Introduction to Statistical Analysis, pp. 237, 351. New York: McGraw-Hill.Google Scholar
Feachem, R., Burns, E. & Curtis, D. (1978). Water, Health and Development, pp. 139260. London: Tri-Med.Google Scholar
Feachem, R. G. (1984). Interventions for the control of diarrhoeal diseases among young children: promotion of personal and domestic hygiene. Bulletin of the World Health Organization 62, 467476.Google ScholarPubMed
Geldreich, E. E. (1975). Handbook for Evaluating Water Bacteriology Laboratories. Publication no. EPA-670/9-75-006. Washington D.C.: U.S. Environmental Protection Agency.Google Scholar
Guerrant, R. L., Kirchhoff, L. V., Shields, D. S., Nations, M. K., Leslie, J., de Sousa, M. A., Araújo, J. G., Corréia, L. L., Sauer, K. T., McClelland, K. E., Trowbridoe, F. L. & Hughes, J. M. (1983). Prospective study of diarrheal illnesses in Northeastern Brazil: Patterns of disease, nutritional impact, etiologies and risk factors. Journal of Infectious Diseases 148, 986997.CrossRefGoogle ScholarPubMed
Khairy, A. E. M., El, Sebaie O., Abdel, Gawad A. & El, Attar L. (1982). The sanitary condition of rural drinking water in a Nile Delta village. II. Bacterial contamination of drinking water in a Nile Delta village. Journal of Hygiene 88, 6367.CrossRefGoogle Scholar
Leeuwenburg, J., Gemert, W., Muller, A. S. & Patel, S. C. (1978). Agents affecting health of mother and child in a rural area of Kenya. VII. The incidence of diarrhoeal disease in the under-five population. Tropical and Geographical Medicine, 30, 383391.Google Scholar
Mata, L. J. (1978). The Children of Santa Maria Cauque: A Prospective Field Study of Health and Growth. Cambridge, Massachusetts: MIT Press.Google Scholar
Rahaman, M. M., Patwari, Y., Aziz, K. M. S. & Munshi, M. H. (1979). Diarrhoeal mortality in two Bangladeshi villages with and without community based oral rehydration therapy. Lancet ii, 809812.CrossRefGoogle Scholar
Rubenstein, A., Boyle, J., Odoroff, C. L. & Kunity, S. J. (1969). Effect of improved sanitary facilities on infant diarrhea in a Hopi village. Public Health Reports 84, 10931097.CrossRefGoogle Scholar
Schliessmann, D. J., Atchley, F. O., Wilcomb, M. J. Jr, & Welch, S. F. (1958). Relation of environmental factors to the occurrence of enteric diseases in areas of eastern Kentucky. Public Health Monograph 54, 135.Google Scholar
Schliessmann, D. J. (1959). Diarrhoeal disease and the environment. Bulletin of the World Health Organization 21, 381386.Google Scholar
Shields, D. S., Hook, E. W., Nations, M. K., Sousa, M. A., Araújo, J. G. & Guerrant, R. L. (1985). Water contamination and enterotoxigenic E. coli diarrhea in Northeastern Brazil (in the Press.)Google Scholar
Snyder, J. D. & Merson, M. H. (1982). The magnitude of the global problem of acute diarrhoeal disease: a review of active surveillance data. Bulletin of the World Health Organization 60, 605613.Google ScholarPubMed