A preliminary study on designing a cluster randomized control trial of two new mosquito nets to prevent malaria parasite infection

Noboru Minakawa,Peter A Lutiali,Kyoko Futami,Rie Isozumi,James O Kongere,Beatrice Awuor,Hitoshi Kawada,George O Sonye

doi:10.1186/s41182-020-00276-x

Noboru Minakawa, Peter A Lutiali + Show 6 more

Open Access

https://doi.org/10.1186/s41182-020-00276-x

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Abstract

BackgroundAlthough long-lasting insecticidal nets (LLINs) are the most effective tool for preventing malaria parasite transmission, the nets have some limitations. For example, the increase of LLIN use has induced the rapid expansion of mosquito insecticide resistance. More than two persons often share one net, which increases the infection risk. To overcome these problems, two new mosquito nets were developed, one incorporating piperonyl butoxide and another covering ceilings and open eaves. We designed a cluster randomized controlled trial (cRCT) to evaluate these nets based on the information provided in the present preliminary study.ResultsNearly 75% of the anopheline population in the study area in western Kenya was Anopheles gambiae s. l., and the remaining was Anopheles funestus s. l. More female anophelines were recorded in the western part of the study area. The number of anophelines increased with rainfall. We planned to have 80% power to detect a 50% reduction in female anophelines between the control group and each intervention group. The between-cluster coefficient of variance was 0.192. As the number of clusters was limited to 4 due to the size of the study area, the estimated cluster size was 7 spray catches with an alpha of 0.05. Of 1619 children tested, 626 (48%) were Plasmodium falciparum positive using a rapid diagnostic test (RDT). The prevalence was higher in the northwestern part of the study area. The number of children who slept under bed nets was 929 (71%). The P. falciparum RDT-positive prevalence (RDTpfPR) of net users was 45%, and that of non-users was 55% (OR 0.73; 95% CI 0.56, 0.95). Using 45% RDTpfPR of net users, we expected each intervention to reduce prevalence by 50%. The intracluster correlation coefficient was 0.053. With 80% power and an alpha of 0.05, the estimated cluster size was 116 children. Based on the distribution of children, we modified the boundaries of the clusters and established 300-m buffer zones along the boundaries to minimize a spillover effect.ConclusionsThe cRCT study design is feasible. As the number of clusters is limited, we will apply a two-stage procedure with the baseline data to evaluate each intervention.

Highlights

Long-lasting insecticidal nets (LLINs) are the most effective tool for preventing malaria parasite transmission, the nets have some limitations
According to the World Malaria Report 2019 by the World Health Organization (WHO), half of the people at risk of malaria in sub-Saharan Africa were sleeping under Insecticide-treated net (ITN) in 2018, and households with at least one ITN for every two people increased to 72% [7]
After consulting with the local administration, we investigated P. falciparum infection prevalence among children from 7 to 119 months old in July 2010

Summary

Introduction

Long-lasting insecticidal nets (LLINs) are the most effective tool for preventing malaria parasite transmission, the nets have some limitations. Insecticide-treated nets (ITNs) are the most effective tool for preventing malaria parasite infection [1,2,3]. According to the World Malaria Report 2019 by the World Health Organization (WHO), half of the people at risk of malaria in sub-Saharan Africa were sleeping under ITNs in 2018, and households with at least one ITN for every two people increased to 72% [7]. This is still far from realizing universal coverage. When sleeping on the floor, it becomes difficult for small children to hang nets properly [10, 12]

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