Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial.

Eric Ochomo; John E. Gimnig; Quentin Awori; Bernard Abong'o; Prisca Oria; Nickline K. Ashitiba; Brian Polo; Vincent Moshi; Hilda Otanga; Ferdinard Adung'o; Eunice A. Ouma; Susan Outa; Edith Ramaita; Rebecca Levine; Wycliffe Odongo; Steven A. Harvey; April Monroe; Ashley Hudson; Bradley Sandberg; Jared Hendrickson; Xingyuan Zhao; Ruyu Zhou; Fang Liu; Nicole L. Achee; John P. Grieco

doi:10.1016/s0140-6736(24)02253-0

Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial.

Eric Ochomo, John E. Gimnig, Quentin Awori, Bernard Abong'o, Prisca Oria, Nickline K. Ashitiba, Brian Polo, Vincent Moshi, Hilda Otanga, Ferdinard Adung'o, Eunice A. Ouma, Susan Outa, Edith Ramaita, Rebecca Levine, Wycliffe Odongo, Steven A. Harvey, April Monroe, Ashley Hudson, Bradley Sandberg, Jared HendricksonXingyuan Zhao, Ruyu Zhou, Fang Liu, Nicole L. Achee, John P. Grieco

Vector Biology

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

Background

Spatial repellent products are used for prevention of insect bites, and a body of evidence exists on spatial repellent entomological efficacy. A new option for vector control, spatial repellent products are designed to release active ingredient into the air for disruption of human–vector contact thereby reducing human exposure to mosquito-borne pathogens. Clinical trials have shown spatial repellent epidemiological efficacy against Aedes-borne viruses but inconclusive outcomes against malaria. We aimed to show and quantify the protective efficacy of spatial repellents in reducing malaria infection incidence in Busia County, Kenya.

Methods

A prospective, cluster-randomised, controlled trial in Busia County, western Kenya was done to quantify the efficacy of a transfluthrin-based spatial repellent against human malaria infection following mass distribution of insecticide treated nets. Investigators, staff, and study participants were masked to cluster allocation. Infection incidence was measured by microscopy in children aged 6 months to younger than 10 years during a 4-month baseline (March–July 2021) and 24-month follow-up period with intervention (October, 2021–October, 2023). From 58 clusters (29 intervention, 29 placebo), a total of 1526 and 1546 participants from two consecutive, 12-month cohorts were assessed for first-time malaria infection (primary endpoint) by survival analysis at interim and end-of-trial timepoints, respectively. This trial is registered with ClinicalTrials.gov, NCT04766879 and is complete.

Findings

The outcome of the primary endpoint indicated that spatial repellents significantly reduced the hazard rate of first-time malaria infection by 33·4% (95% CI 11·1–50·1; p=0·0058) and the hazard rate of overall new malaria infections by 32·1% (15·9–45·2; p=0·0004). No reported adverse events and serious adverse events were deemed to be associated with the spatial repellent.

Interpretation

Our trial provides the first evidence of a demonstrative spatial repellent protective efficacy in reducing risk of malaria infection in an African setting characterised by high malaria transmission, pyrethroid resistant malaria vectors, and high coverage of insecticide treated nets. Results support spatial repellent products as a beneficial component of malaria prevention.

Original language	English
Pages (from-to)	147-156
Number of pages	10
Journal	The Lancet
Volume	405
Issue number	10473
Early online date	19 Dec 2024
DOIs	https://doi.org/10.1016/s0140-6736(24)02253-0
Publication status	Published - 9 Jan 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/s0140-6736(24)02253-0

Effect of a spatial repellent on malaria incidence in an area of western KenyaAccepted author manuscript, 880 KBLicence: CC BY-NC-ND

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Ochomo, E., Gimnig, J. E., Awori, Q., Abong'o, B., Oria, P., Ashitiba, N. K., Polo, B., Moshi, V., Otanga, H., Adung'o, F., Ouma, E. A., Outa, S., Ramaita, E., Levine, R., Odongo, W., Harvey, S. A., Monroe, A., Hudson, A., Sandberg, B., ... Grieco, J. P. (2025). Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial. The Lancet, 405(10473), 147-156. https://doi.org/10.1016/s0140-6736(24)02253-0

Ochomo, Eric ; Gimnig, John E. ; Awori, Quentin et al. / Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial. In: The Lancet. 2025 ; Vol. 405, No. 10473. pp. 147-156.

@article{5d7ed837cae940c2a4c9772b93f4e2e0,

title = "Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial.",

abstract = "BackgroundSpatial repellent products are used for prevention of insect bites, and a body of evidence exists on spatial repellent entomological efficacy. A new option for vector control, spatial repellent products are designed to release active ingredient into the air for disruption of human–vector contact thereby reducing human exposure to mosquito-borne pathogens. Clinical trials have shown spatial repellent epidemiological efficacy against Aedes-borne viruses but inconclusive outcomes against malaria. We aimed to show and quantify the protective efficacy of spatial repellents in reducing malaria infection incidence in Busia County, Kenya.MethodsA prospective, cluster-randomised, controlled trial in Busia County, western Kenya was done to quantify the efficacy of a transfluthrin-based spatial repellent against human malaria infection following mass distribution of insecticide treated nets. Investigators, staff, and study participants were masked to cluster allocation. Infection incidence was measured by microscopy in children aged 6 months to younger than 10 years during a 4-month baseline (March–July 2021) and 24-month follow-up period with intervention (October, 2021–October, 2023). From 58 clusters (29 intervention, 29 placebo), a total of 1526 and 1546 participants from two consecutive, 12-month cohorts were assessed for first-time malaria infection (primary endpoint) by survival analysis at interim and end-of-trial timepoints, respectively. This trial is registered with ClinicalTrials.gov, NCT04766879 and is complete.FindingsThe outcome of the primary endpoint indicated that spatial repellents significantly reduced the hazard rate of first-time malaria infection by 33·4\% (95\% CI 11·1–50·1; p=0·0058) and the hazard rate of overall new malaria infections by 32·1\% (15·9–45·2; p=0·0004). No reported adverse events and serious adverse events were deemed to be associated with the spatial repellent.InterpretationOur trial provides the first evidence of a demonstrative spatial repellent protective efficacy in reducing risk of malaria infection in an African setting characterised by high malaria transmission, pyrethroid resistant malaria vectors, and high coverage of insecticide treated nets. Results support spatial repellent products as a beneficial component of malaria prevention.",

author = "Eric Ochomo and Gimnig, \{John E.\} and Quentin Awori and Bernard Abong'o and Prisca Oria and Ashitiba, \{Nickline K.\} and Brian Polo and Vincent Moshi and Hilda Otanga and Ferdinard Adung'o and Ouma, \{Eunice A.\} and Susan Outa and Edith Ramaita and Rebecca Levine and Wycliffe Odongo and Harvey, \{Steven A.\} and April Monroe and Ashley Hudson and Bradley Sandberg and Jared Hendrickson and Xingyuan Zhao and Ruyu Zhou and Fang Liu and Achee, \{Nicole L.\} and Grieco, \{John P.\}",

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Ochomo, E, Gimnig, JE, Awori, Q, Abong'o, B, Oria, P, Ashitiba, NK, Polo, B, Moshi, V, Otanga, H, Adung'o, F, Ouma, EA, Outa, S, Ramaita, E, Levine, R, Odongo, W, Harvey, SA, Monroe, A, Hudson, A, Sandberg, B, Hendrickson, J, Zhao, X, Zhou, R, Liu, F, Achee, NL & Grieco, JP 2025, 'Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial.', The Lancet, vol. 405, no. 10473, pp. 147-156. https://doi.org/10.1016/s0140-6736(24)02253-0

Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial. / Ochomo, Eric; Gimnig, John E.; Awori, Quentin et al.
In: The Lancet, Vol. 405, No. 10473, 09.01.2025, p. 147-156.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial.

AU - Ochomo, Eric

AU - Gimnig, John E.

AU - Awori, Quentin

AU - Abong'o, Bernard

AU - Oria, Prisca

AU - Ashitiba, Nickline K.

AU - Polo, Brian

AU - Moshi, Vincent

AU - Otanga, Hilda

AU - Adung'o, Ferdinard

AU - Ouma, Eunice A.

AU - Outa, Susan

AU - Ramaita, Edith

AU - Levine, Rebecca

AU - Odongo, Wycliffe

AU - Harvey, Steven A.

AU - Monroe, April

AU - Hudson, Ashley

AU - Sandberg, Bradley

AU - Hendrickson, Jared

AU - Zhao, Xingyuan

AU - Zhou, Ruyu

AU - Liu, Fang

AU - Achee, Nicole L.

AU - Grieco, John P.

PY - 2025/1/9

Y1 - 2025/1/9

N2 - BackgroundSpatial repellent products are used for prevention of insect bites, and a body of evidence exists on spatial repellent entomological efficacy. A new option for vector control, spatial repellent products are designed to release active ingredient into the air for disruption of human–vector contact thereby reducing human exposure to mosquito-borne pathogens. Clinical trials have shown spatial repellent epidemiological efficacy against Aedes-borne viruses but inconclusive outcomes against malaria. We aimed to show and quantify the protective efficacy of spatial repellents in reducing malaria infection incidence in Busia County, Kenya.MethodsA prospective, cluster-randomised, controlled trial in Busia County, western Kenya was done to quantify the efficacy of a transfluthrin-based spatial repellent against human malaria infection following mass distribution of insecticide treated nets. Investigators, staff, and study participants were masked to cluster allocation. Infection incidence was measured by microscopy in children aged 6 months to younger than 10 years during a 4-month baseline (March–July 2021) and 24-month follow-up period with intervention (October, 2021–October, 2023). From 58 clusters (29 intervention, 29 placebo), a total of 1526 and 1546 participants from two consecutive, 12-month cohorts were assessed for first-time malaria infection (primary endpoint) by survival analysis at interim and end-of-trial timepoints, respectively. This trial is registered with ClinicalTrials.gov, NCT04766879 and is complete.FindingsThe outcome of the primary endpoint indicated that spatial repellents significantly reduced the hazard rate of first-time malaria infection by 33·4% (95% CI 11·1–50·1; p=0·0058) and the hazard rate of overall new malaria infections by 32·1% (15·9–45·2; p=0·0004). No reported adverse events and serious adverse events were deemed to be associated with the spatial repellent.InterpretationOur trial provides the first evidence of a demonstrative spatial repellent protective efficacy in reducing risk of malaria infection in an African setting characterised by high malaria transmission, pyrethroid resistant malaria vectors, and high coverage of insecticide treated nets. Results support spatial repellent products as a beneficial component of malaria prevention.

AB - BackgroundSpatial repellent products are used for prevention of insect bites, and a body of evidence exists on spatial repellent entomological efficacy. A new option for vector control, spatial repellent products are designed to release active ingredient into the air for disruption of human–vector contact thereby reducing human exposure to mosquito-borne pathogens. Clinical trials have shown spatial repellent epidemiological efficacy against Aedes-borne viruses but inconclusive outcomes against malaria. We aimed to show and quantify the protective efficacy of spatial repellents in reducing malaria infection incidence in Busia County, Kenya.MethodsA prospective, cluster-randomised, controlled trial in Busia County, western Kenya was done to quantify the efficacy of a transfluthrin-based spatial repellent against human malaria infection following mass distribution of insecticide treated nets. Investigators, staff, and study participants were masked to cluster allocation. Infection incidence was measured by microscopy in children aged 6 months to younger than 10 years during a 4-month baseline (March–July 2021) and 24-month follow-up period with intervention (October, 2021–October, 2023). From 58 clusters (29 intervention, 29 placebo), a total of 1526 and 1546 participants from two consecutive, 12-month cohorts were assessed for first-time malaria infection (primary endpoint) by survival analysis at interim and end-of-trial timepoints, respectively. This trial is registered with ClinicalTrials.gov, NCT04766879 and is complete.FindingsThe outcome of the primary endpoint indicated that spatial repellents significantly reduced the hazard rate of first-time malaria infection by 33·4% (95% CI 11·1–50·1; p=0·0058) and the hazard rate of overall new malaria infections by 32·1% (15·9–45·2; p=0·0004). No reported adverse events and serious adverse events were deemed to be associated with the spatial repellent.InterpretationOur trial provides the first evidence of a demonstrative spatial repellent protective efficacy in reducing risk of malaria infection in an African setting characterised by high malaria transmission, pyrethroid resistant malaria vectors, and high coverage of insecticide treated nets. Results support spatial repellent products as a beneficial component of malaria prevention.

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DO - 10.1016/s0140-6736(24)02253-0

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JO - The Lancet

JF - The Lancet

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Ochomo E, Gimnig JE, Awori Q, Abong'o B, Oria P, Ashitiba NK et al. Effect of a spatial repellent on malaria incidence in an area of western Kenya characterised by high malaria transmission, insecticide resistance, and universal coverage of insecticide treated nets (part of the AEGIS Consortium): a cluster-randomised, controlled trial. The Lancet. 2025 Jan 9;405(10473):147-156. Epub 2024 Dec 19. doi: 10.1016/s0140-6736(24)02253-0