Effectiveness of Point-of-use Water Treatment Technologies to Prevent Stunting Among Children in South Africa

Lack of access to safe water in low-resource settings likely contributes to stunted growth early in life, which affects more than a quarter of children under 5 years worldwide. Point-of-use water treatment technologies have the potential to provide effective and low-cost solutions to improving quality of drinking water in these settings. One such technology, a silver-impregnated ceramic disk, continually disinfects water in household water storage containers by diffusing silver into the water for daily treatment of 10 to 15 liters for at least six months. Silver-impregnated ceramic water filters are another commercially available technology that additionally remove pathogens mechanically. While both technologies have proven to be highly effective in treating water, it is unknown whether the use of these technologies will translate to improvements in child health outcomes. This community-based intervention trial will estimate the effect of the silver-impregnated ceramic disk and a silver-impregnated ceramic water filter on linear growth of children in Limpopo, South Africa.

Households in the Dzimauli community will be randomized to receive the ceramic disk, a water filter, the safe-storage water container alone, or no intervention. Children will be followed every three months for 2 years to assess height, weight, and pathogen burden in stool samples. Cognitive assessments will be completed at 2, 5, and 7 years of follow-up. The investigators hypothesize that children in households given the ceramic disk or the water filter will show improved linear growth compared to those in households without these interventions. The investigators expect that the ceramic disk will perform similarly to the water filter and result in similar improvements in linear growth when compared to children from control households.

Estimates of effectiveness demonstrated in this trial will provide the necessary evidence base to support the scale-up of manufacturing and distribution of the ceramic disks and filters, which could provide a robust point-of-use water treatment solution for rural areas. By helping to identify effective tools to reduce the risk of stunting in children, the trial will contribute to targets to improve child health in low-resource settings.