Chlorfenapyr bednets effectively overcome pyrethroid resistance escalation in highly resistant Anopheles malaria vectors in Uganda
Ambrose Oruni, Benjamin D. Menze, Yvan G. Fotso-Toguem, Vanessa B. Ngannang-Fezeu, Riccado F. Thiomela, Magellan Tchouakui, Jack Hearn, Jonathan Kayondo, Charles S. Wondji

TL;DR
Chlorfenapyr-treated bednets are highly effective against pyrethroid-resistant malaria mosquitoes in Uganda, outperforming other insecticide-treated nets.
Contribution
The study demonstrates that Interceptor G2 bednets effectively overcome pyrethroid resistance in Anopheles mosquitoes through field trials in Uganda.
Findings
Interceptor G2 bednets achieved 70.6% mortality against An. funestus and 63.2% against An. gambiae.
Pyrethroid-only nets like Interceptor had minimal efficacy with mortality rates around 25%.
PBO nets like Olyset Plus showed moderate blood-feeding inhibition but lower mosquito mortality.
Abstract
Escalating insecticide resistance threatens the efficacy of LLINs, undermining malaria control in Africa. We conducted the first experimental hut trials in Uganda using highly resistant free-flying wild Anopheles mosquitoes and F2 hybrids of FANG and Uganda An. funestus to evaluate the performance of bednets. The interceptor G2 (chlorfenapyr) bednet demonstrated superior efficacy compared to Interceptor (pyrethroid-only) net [mortality odds ratio (OR): 18.7 (8.05–48.6) P < 0.0001], achieving an overall mortality rate of 70.6% and 63.2% against An. funestus and An. gambiae respectively. In contrast, PermaNet 3.0 and Olyset Plus (piperonyl butoxide (PBO)) and Royal Guard (pyriproxyfen (PPF)-treated) bednets exhibited significantly lower mortality against An. funestus [Olyset Plus: 36.1%, PermaNet 3.0: 31.0% and Royal Guard (37.6%], though performance against An. gambiae was moderate…
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Taxonomy
TopicsMalaria Research and Control · Neurobiology and Insect Physiology Research · Mosquito-borne diseases and control
