Volatile pyrethroid spatial repellents for preventing mosquito bites: a systematic review and meta-analysis

Ingrid Chen; Sarah L. Miller; Daniel Msellemu; Aidi G. Lugenge; Johnson Kyeba Swai; Nicole Achee; Marta Andrés; Christopher S. Bibbs; Theeraphap Chareonviriyaphap; J. Derek Charlwood; Greg Devine; Noel Elman; Ulrike Fillinger; Carmen Flores-Mendoza; Seth Gibson; Nicodem Govella; Steven Gowelo; Sebastian Horstmann; Hitoshi Kawada; Daniel Kline; Aaron Lloyd; Neil F. Lobo; Marta F. Maia; Arnold Mmbando; Mara Moreno-Gómez; Amy C. Morrison; Winifrida Mponzi; Emmanuel P. Mwanga; Margaret Njoroge; Sheila B. Ogoma; Fredros O. Okumu; Mercy Opiyo; Welbeck A. Oumbouke; John Paliga; Arissara Pongsiri; Alongkot Ponlawat; Manop Saeaung; Ferdinand Salazar; Onyango Sangoro; Jennifer C. Stevenson; Chutipong Sukkanon; Din Syafruddin; Mgeni Mohamed Tambwe; Julie Anne A. Tangena; Elodie A. Vajda; Gonzalo Vazquez-Prokopec; Joseph M. Wagman; Chanly Yan; Isabel Elaine Allen; Sarah J. Moore

doi:10.1016/j.ebiom.2025.105891

Volatile pyrethroid spatial repellents for preventing mosquito bites: a systematic review and meta-analysis

Ingrid Chen, Sarah L. Miller, Daniel Msellemu, Aidi G. Lugenge, Johnson Kyeba Swai, Nicole Achee, Marta Andrés, Christopher S. Bibbs, Theeraphap Chareonviriyaphap, J. Derek Charlwood, Greg Devine, Noel Elman, Ulrike Fillinger, Carmen Flores-Mendoza, Seth Gibson, Nicodem Govella, Steven Gowelo, Sebastian Horstmann, Hitoshi Kawada, Daniel KlineAaron Lloyd, Neil F. Lobo, Marta F. Maia, Arnold Mmbando, Mara Moreno-Gómez, Amy C. Morrison, Winifrida Mponzi, Emmanuel P. Mwanga, Margaret Njoroge, Sheila B. Ogoma, Fredros O. Okumu, Mercy Opiyo, Welbeck A. Oumbouke, John Paliga, Arissara Pongsiri, Alongkot Ponlawat, Manop Saeaung, Ferdinand Salazar, Onyango Sangoro, Jennifer C. Stevenson, Chutipong Sukkanon, Din Syafruddin, Mgeni Mohamed Tambwe, Julie Anne A. Tangena, Elodie A. Vajda, Gonzalo Vazquez-Prokopec, Joseph M. Wagman, Chanly Yan, Isabel Elaine Allen, Sarah J. Moore

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

Abstract

Background: Volatile pyrethroid spatial repellents (VPSRs) can prevent mosquito-borne diseases including malaria and dengue fever, but the use of varied evaluation methods has resulted in a lack of clarity regarding their protective efficacy (PE) against contact with mosquitoes. This systematic review and meta-analysis consolidates the entomological evidence base on the PE of VPSRs against Anopheles, Aedes, and Culex mosquitoes and different test methods used.

Methods: We identified studies completed between January 2000 and September 2023 by searching through databases, conference abstracts, and personal correspondences. Included studies were semi-field or field studies that measured the PE of VPSRs using human landing catch (HLC) of mosquito landings on human legs and/or mosquito trap density, the number of mosquitoes captured using traps per set time period, compared to control groups. The systematic review summarised study-level data using a generalised linear mixed model with random effects. The meta-analysis pooled individual mosquito-level data and weather data on temperature, humidity, and wind from satellites, analysing PE subgrouped by product format, active ingredient, mosquito capture method used, mosquito species, and indoor vs outdoor setting. Risk of bias was assessed using a SYRCLE tool adapted for mosquito studies. Additional studies published from October 2023 to July 2025 were summarised. PROSPERO registration: CRD42021268852.

Findings: 58 eligible publications showed that VPSRs provided an average of 56% (95% CI 50, 62%) PE from mosquito bites. Meta-analysis of individual mosquito-level data from 50 (86%) of eligible studies involving 1,703,120 mosquitoes showed that PE was highest when measured using HLC, with similar results seen in semi-field (58%, 95% CI 54, 62%) and field studies (50%, 95% CI 40, 59%). Differences between indoor (54%, 95% CI 18, 68%) and outdoor settings (56%, 95% CI 51, 60%) were unclear. Species-level differences were observed with low PE seen in Anopheles funestus (31%, 95% CI 19, 43%); the potential for cross-resistance to solid-state pyrethroids is unclear. Efficacy was not sensitive to combined weather effects.

Interpretation: VPSRs offer protection from contact with mosquitoes, with semi-field studies reflecting field data and species-level differences observed. HLC provided the best quality data. Additional field studies that evaluate outdoor protection in malaria-endemic settings are needed, especially in West African, South American, and Southeast Asian settings. Funding: National Institutes of Health (National Institute of Allergy and Infectious Diseases (K01AI156182)) and “Accelerate to Eliminate Malaria” program.

Original language	English
Article number	105891
Journal	eBioMedicine
Volume	119
Early online date	26 Aug 2025
DOIs	https://doi.org/10.1016/j.ebiom.2025.105891
Publication status	Published - 1 Sept 2025

Keywords

Meta-analysis
Mosquito
Spatial emanator
Spatial repellent
Vector control
Volatile pyrethroid

UN SDGs

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

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PIIS2352396425003354Final published version, 4.18 MBLicence: CC BY

Cite this

Chen, I., Miller, S. L., Msellemu, D., Lugenge, A. G., Swai, J. K., Achee, N., Andrés, M., Bibbs, C. S., Chareonviriyaphap, T., Charlwood, J. D., Devine, G., Elman, N., Fillinger, U., Flores-Mendoza, C., Gibson, S., Govella, N., Gowelo, S., Horstmann, S., Kawada, H., ... Moore, S. J. (2025). Volatile pyrethroid spatial repellents for preventing mosquito bites: a systematic review and meta-analysis. eBioMedicine, 119, Article 105891. https://doi.org/10.1016/j.ebiom.2025.105891

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title = "Volatile pyrethroid spatial repellents for preventing mosquito bites: a systematic review and meta-analysis",

abstract = "Background: Volatile pyrethroid spatial repellents (VPSRs) can prevent mosquito-borne diseases including malaria and dengue fever, but the use of varied evaluation methods has resulted in a lack of clarity regarding their protective efficacy (PE) against contact with mosquitoes. This systematic review and meta-analysis consolidates the entomological evidence base on the PE of VPSRs against Anopheles, Aedes, and Culex mosquitoes and different test methods used. Methods: We identified studies completed between January 2000 and September 2023 by searching through databases, conference abstracts, and personal correspondences. Included studies were semi-field or field studies that measured the PE of VPSRs using human landing catch (HLC) of mosquito landings on human legs and/or mosquito trap density, the number of mosquitoes captured using traps per set time period, compared to control groups. The systematic review summarised study-level data using a generalised linear mixed model with random effects. The meta-analysis pooled individual mosquito-level data and weather data on temperature, humidity, and wind from satellites, analysing PE subgrouped by product format, active ingredient, mosquito capture method used, mosquito species, and indoor vs outdoor setting. Risk of bias was assessed using a SYRCLE tool adapted for mosquito studies. Additional studies published from October 2023 to July 2025 were summarised. PROSPERO registration: CRD42021268852. Findings: 58 eligible publications showed that VPSRs provided an average of 56\% (95\% CI 50, 62\%) PE from mosquito bites. Meta-analysis of individual mosquito-level data from 50 (86\%) of eligible studies involving 1,703,120 mosquitoes showed that PE was highest when measured using HLC, with similar results seen in semi-field (58\%, 95\% CI 54, 62\%) and field studies (50\%, 95\% CI 40, 59\%). Differences between indoor (54\%, 95\% CI 18, 68\%) and outdoor settings (56\%, 95\% CI 51, 60\%) were unclear. Species-level differences were observed with low PE seen in Anopheles funestus (31\%, 95\% CI 19, 43\%); the potential for cross-resistance to solid-state pyrethroids is unclear. Efficacy was not sensitive to combined weather effects. Interpretation: VPSRs offer protection from contact with mosquitoes, with semi-field studies reflecting field data and species-level differences observed. HLC provided the best quality data. Additional field studies that evaluate outdoor protection in malaria-endemic settings are needed, especially in West African, South American, and Southeast Asian settings. Funding: National Institutes of Health (National Institute of Allergy and Infectious Diseases (K01AI156182)) and “Accelerate to Eliminate Malaria” program.",

keywords = "Meta-analysis, Mosquito, Spatial emanator, Spatial repellent, Vector control, Volatile pyrethroid",

author = "Ingrid Chen and Miller, \{Sarah L.\} and Daniel Msellemu and Lugenge, \{Aidi G.\} and Swai, \{Johnson Kyeba\} and Nicole Achee and Marta Andr{\'e}s and Bibbs, \{Christopher S.\} and Theeraphap Chareonviriyaphap and Charlwood, \{J. Derek\} and Greg Devine and Noel Elman and Ulrike Fillinger and Carmen Flores-Mendoza and Seth Gibson and Nicodem Govella and Steven Gowelo and Sebastian Horstmann and Hitoshi Kawada and Daniel Kline and Aaron Lloyd and Lobo, \{Neil F.\} and Maia, \{Marta F.\} and Arnold Mmbando and Mara Moreno-G{\'o}mez and Morrison, \{Amy C.\} and Winifrida Mponzi and Mwanga, \{Emmanuel P.\} and Margaret Njoroge and Ogoma, \{Sheila B.\} and Okumu, \{Fredros O.\} and Mercy Opiyo and Oumbouke, \{Welbeck A.\} and John Paliga and Arissara Pongsiri and Alongkot Ponlawat and Manop Saeaung and Ferdinand Salazar and Onyango Sangoro and Stevenson, \{Jennifer C.\} and Chutipong Sukkanon and Din Syafruddin and Tambwe, \{Mgeni Mohamed\} and Tangena, \{Julie Anne A.\} and Vajda, \{Elodie A.\} and Gonzalo Vazquez-Prokopec and Wagman, \{Joseph M.\} and Chanly Yan and Allen, \{Isabel Elaine\} and Moore, \{Sarah J.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

month = sep,

day = "1",

doi = "10.1016/j.ebiom.2025.105891",

language = "English",

volume = "119",

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Chen, I, Miller, SL, Msellemu, D, Lugenge, AG, Swai, JK, Achee, N, Andrés, M, Bibbs, CS, Chareonviriyaphap, T, Charlwood, JD, Devine, G, Elman, N, Fillinger, U, Flores-Mendoza, C, Gibson, S, Govella, N, Gowelo, S, Horstmann, S, Kawada, H, Kline, D, Lloyd, A, Lobo, NF, Maia, MF, Mmbando, A, Moreno-Gómez, M, Morrison, AC, Mponzi, W, Mwanga, EP, Njoroge, M, Ogoma, SB, Okumu, FO, Opiyo, M, Oumbouke, WA, Paliga, J, Pongsiri, A, Ponlawat, A, Saeaung, M, Salazar, F, Sangoro, O, Stevenson, JC, Sukkanon, C, Syafruddin, D, Tambwe, MM, Tangena, JAA, Vajda, EA, Vazquez-Prokopec, G, Wagman, JM, Yan, C, Allen, IE & Moore, SJ 2025, 'Volatile pyrethroid spatial repellents for preventing mosquito bites: a systematic review and meta-analysis', eBioMedicine, vol. 119, 105891. https://doi.org/10.1016/j.ebiom.2025.105891

TY - JOUR

T1 - Volatile pyrethroid spatial repellents for preventing mosquito bites: a systematic review and meta-analysis

AU - Chen, Ingrid

AU - Miller, Sarah L.

AU - Msellemu, Daniel

AU - Lugenge, Aidi G.

AU - Swai, Johnson Kyeba

AU - Achee, Nicole

AU - Andrés, Marta

AU - Bibbs, Christopher S.

AU - Chareonviriyaphap, Theeraphap

AU - Charlwood, J. Derek

AU - Devine, Greg

AU - Elman, Noel

AU - Fillinger, Ulrike

AU - Flores-Mendoza, Carmen

AU - Gibson, Seth

AU - Govella, Nicodem

AU - Gowelo, Steven

AU - Horstmann, Sebastian

AU - Kawada, Hitoshi

AU - Kline, Daniel

AU - Lloyd, Aaron

AU - Lobo, Neil F.

AU - Maia, Marta F.

AU - Mmbando, Arnold

AU - Moreno-Gómez, Mara

AU - Morrison, Amy C.

AU - Mponzi, Winifrida

AU - Mwanga, Emmanuel P.

AU - Njoroge, Margaret

AU - Ogoma, Sheila B.

AU - Okumu, Fredros O.

AU - Opiyo, Mercy

AU - Oumbouke, Welbeck A.

AU - Paliga, John

AU - Pongsiri, Arissara

AU - Ponlawat, Alongkot

AU - Saeaung, Manop

AU - Salazar, Ferdinand

AU - Sangoro, Onyango

AU - Stevenson, Jennifer C.

AU - Sukkanon, Chutipong

AU - Syafruddin, Din

AU - Tambwe, Mgeni Mohamed

AU - Tangena, Julie Anne A.

AU - Vajda, Elodie A.

AU - Vazquez-Prokopec, Gonzalo

AU - Wagman, Joseph M.

AU - Yan, Chanly

AU - Allen, Isabel Elaine

AU - Moore, Sarah J.

PY - 2025/9/1

Y1 - 2025/9/1

N2 - Background: Volatile pyrethroid spatial repellents (VPSRs) can prevent mosquito-borne diseases including malaria and dengue fever, but the use of varied evaluation methods has resulted in a lack of clarity regarding their protective efficacy (PE) against contact with mosquitoes. This systematic review and meta-analysis consolidates the entomological evidence base on the PE of VPSRs against Anopheles, Aedes, and Culex mosquitoes and different test methods used. Methods: We identified studies completed between January 2000 and September 2023 by searching through databases, conference abstracts, and personal correspondences. Included studies were semi-field or field studies that measured the PE of VPSRs using human landing catch (HLC) of mosquito landings on human legs and/or mosquito trap density, the number of mosquitoes captured using traps per set time period, compared to control groups. The systematic review summarised study-level data using a generalised linear mixed model with random effects. The meta-analysis pooled individual mosquito-level data and weather data on temperature, humidity, and wind from satellites, analysing PE subgrouped by product format, active ingredient, mosquito capture method used, mosquito species, and indoor vs outdoor setting. Risk of bias was assessed using a SYRCLE tool adapted for mosquito studies. Additional studies published from October 2023 to July 2025 were summarised. PROSPERO registration: CRD42021268852. Findings: 58 eligible publications showed that VPSRs provided an average of 56% (95% CI 50, 62%) PE from mosquito bites. Meta-analysis of individual mosquito-level data from 50 (86%) of eligible studies involving 1,703,120 mosquitoes showed that PE was highest when measured using HLC, with similar results seen in semi-field (58%, 95% CI 54, 62%) and field studies (50%, 95% CI 40, 59%). Differences between indoor (54%, 95% CI 18, 68%) and outdoor settings (56%, 95% CI 51, 60%) were unclear. Species-level differences were observed with low PE seen in Anopheles funestus (31%, 95% CI 19, 43%); the potential for cross-resistance to solid-state pyrethroids is unclear. Efficacy was not sensitive to combined weather effects. Interpretation: VPSRs offer protection from contact with mosquitoes, with semi-field studies reflecting field data and species-level differences observed. HLC provided the best quality data. Additional field studies that evaluate outdoor protection in malaria-endemic settings are needed, especially in West African, South American, and Southeast Asian settings. Funding: National Institutes of Health (National Institute of Allergy and Infectious Diseases (K01AI156182)) and “Accelerate to Eliminate Malaria” program.

AB - Background: Volatile pyrethroid spatial repellents (VPSRs) can prevent mosquito-borne diseases including malaria and dengue fever, but the use of varied evaluation methods has resulted in a lack of clarity regarding their protective efficacy (PE) against contact with mosquitoes. This systematic review and meta-analysis consolidates the entomological evidence base on the PE of VPSRs against Anopheles, Aedes, and Culex mosquitoes and different test methods used. Methods: We identified studies completed between January 2000 and September 2023 by searching through databases, conference abstracts, and personal correspondences. Included studies were semi-field or field studies that measured the PE of VPSRs using human landing catch (HLC) of mosquito landings on human legs and/or mosquito trap density, the number of mosquitoes captured using traps per set time period, compared to control groups. The systematic review summarised study-level data using a generalised linear mixed model with random effects. The meta-analysis pooled individual mosquito-level data and weather data on temperature, humidity, and wind from satellites, analysing PE subgrouped by product format, active ingredient, mosquito capture method used, mosquito species, and indoor vs outdoor setting. Risk of bias was assessed using a SYRCLE tool adapted for mosquito studies. Additional studies published from October 2023 to July 2025 were summarised. PROSPERO registration: CRD42021268852. Findings: 58 eligible publications showed that VPSRs provided an average of 56% (95% CI 50, 62%) PE from mosquito bites. Meta-analysis of individual mosquito-level data from 50 (86%) of eligible studies involving 1,703,120 mosquitoes showed that PE was highest when measured using HLC, with similar results seen in semi-field (58%, 95% CI 54, 62%) and field studies (50%, 95% CI 40, 59%). Differences between indoor (54%, 95% CI 18, 68%) and outdoor settings (56%, 95% CI 51, 60%) were unclear. Species-level differences were observed with low PE seen in Anopheles funestus (31%, 95% CI 19, 43%); the potential for cross-resistance to solid-state pyrethroids is unclear. Efficacy was not sensitive to combined weather effects. Interpretation: VPSRs offer protection from contact with mosquitoes, with semi-field studies reflecting field data and species-level differences observed. HLC provided the best quality data. Additional field studies that evaluate outdoor protection in malaria-endemic settings are needed, especially in West African, South American, and Southeast Asian settings. Funding: National Institutes of Health (National Institute of Allergy and Infectious Diseases (K01AI156182)) and “Accelerate to Eliminate Malaria” program.

KW - Meta-analysis

KW - Mosquito

KW - Spatial emanator

KW - Spatial repellent

KW - Vector control

KW - Volatile pyrethroid

U2 - 10.1016/j.ebiom.2025.105891

DO - 10.1016/j.ebiom.2025.105891

M3 - Article

C2 - 40866281

AN - SCOPUS:105015312563

SN - 2352-3964

VL - 119

JO - eBioMedicine

JF - eBioMedicine

M1 - 105891

ER -

Volatile pyrethroid spatial repellents for preventing mosquito bites: a systematic review and meta-analysis

Abstract

Keywords

UN SDGs

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