Household based treatment of drinking water with flocculant-disinfectant for preventing diarrhoea in areas with turbid source water in rural western Kenya: cluster randomised controlled trial

doi:10.1136/bmj.38512.618681.E0

BMJ 2005;331:478 (3 September), doi:10.1136/bmj.38512.618681.E0 (published 26 July 2005)

Paper

Household based treatment of drinking water with flocculant-disinfectant for preventing diarrhoea in areas with turbid source water in rural western Kenya: cluster randomised controlled trial

John A Crump, medical epidemiologist¹, Peter O Otieno, study coordinator², Laurence Slutsker, director², Bruce H Keswick, scientist³, Daniel H Rosen, statistician², R Michael Hoekstra, statistician⁴, John M Vulule, director⁵, Stephen P Luby, medical epidemiologist¹

¹ Foodborne and Diarrhoeal Diseases Branch, Division of Bacterial and Mycotic Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, 1600 Clifton Road, MS A-38, Atlanta, Georgia 30333, USA, ² Centers for Disease Control and Prevention, PO Box 1578, Kisumu, Kenya, ³ Procter & Gamble Health Sciences Institute, 8700 Mason Montgomery Road, Mason, Ohio 45040, USA, ⁴ Biostatistics and Informatics Branch, Division of Bacterial and Mycotic Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, Georgia, ⁵ Center for Vector Biology Control and Research, Kenya Medical Research Institute, PO Box 1578, Kisumu, Kenya

Correspondence to: J A Crump jcrump{at}cdc.gov

Objective To compare the effect on prevalence of diarrhoea andmortality of household based treatment of drinking water withflocculant-disinfectant, sodium hypochlorite, and standard practicesin areas with turbid water source in Africa.

Design Cluster randomised controlled trial over 20 weeks.

Setting Family compounds, each containing several houses, inrural western Kenya.

Participants 6650 people in 605 family compounds.

Intervention Water treatment: flocculant-disinfectant, sodiumhypochlorite, and usual practice (control).

Main outcome measures Prevalence of diarrhoea and all causemortality. Escherichia coli concentration, free residual chlorineconcentration, and turbidity in household drinking water assurrogates for effectiveness of water treatment.

Results In children < 2 years old, compared with those inthe control compounds, the absolute difference in prevalenceof diarrhoea was –25% in the flocculant-disinfectant arm(95% confidence interval –40 to –5) and –17%in the sodium hypochlorite arm (–34 to 4). In all agegroups compared with control, the absolute difference in prevalencewas –19% in the flocculant-disinfectant arm (–34to –2) and –26% in the sodium hypochlorite arm (–39to –9). There were significantly fewer deaths in the interventioncompounds than in the control compounds (relative risk of death0.58, P = 0.036). Fourteen per cent of water samples from controlcompounds had E coli concentrations < 1 CFU/100 ml comparedwith 82% in flocculant-disinfectant and 78% in sodium hypochloritecompounds. The mean turbidity of drinking water was 8 nephelometricturbidity units (NTU) in flocculant-disinfectant households,compared with 55 NTU in the two other compounds (P < 0.001).

Conclusions In areas of turbid water, flocculant-disinfectantwas associated with a significant reduction in diarrhoea amongchildren < 2 years. This health benefit, combined with asignificant reduction in turbidity, suggests that the flocculant-disinfectantis well suited to areas with highly contaminated and turbidwater.

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