Does washing insecticide-treated nets 20 times for experimental hut evaluations provide a suitable proxy for their end-of-life performance under household conditions?

  1. Thomas Syme
  2. Abel Agbevo
  3. Josias Fagbohoun
  4. Boris N’dombidjé
  5. Judicael Nounagnon
  6. Juniace Ahoga
  7. Joël Akpi
  8. Corine Ngufor
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Abstract

Background

Insecticide-treated nets (ITNs) are washed 20 times as part of experimental hut trials to simulate the loss of active ingredient (AI) occurring over their intended 3-year lifespan and estimate insecticidal durability. The ability of the 20-wash method to predict the end-of-life performance of ITNs has not been empirically validated.

Methods

We performed an experimental hut trial to compare the efficacy of new ITNs unwashed and washed 20 times to field-aged ITNs withdrawn from households 3 years post-distribution against a pyrethroid-resistant vector population in Covè, Benin. Four products from pyrethroid-only (Interceptor ® ), pyrethroid-piperonyl butoxide (PermaNet ® 3.0), pyrethroid-pyriproxyfen (Royal Guard ® ) and pyrethroid-chlorfenapyr (Interceptor ® G2) ITN types were tested. Net pieces were tested in bioassays and sent for chemical analysis to assess differences in surface AI bioavailability and total chemical content between washed and field-aged nets. Susceptibility bioassays were also performed to assess insecticide resistance in the Covè vector population.

Results

Mosquito mortality in experimental huts was similar or slightly higher with field-aged nets than washed nets with Interceptor ® (11% vs. 10%, p  = 0.339, OR = 1.19, 95% CIs [0.84, 1.69]), PermaNet ® 3.0 (12% vs. 18%, p  < 0.001, OR = 1.78, 95% CIs [1.34, 2.38]) and Royal Guard ® (9% vs. 14%, p  = 0.076, OR = 1.33, 95% CIs: [0.97, 1.83]). Likewise, field-aged Royal Guard ® induced a similar reduction in fertility to washed Royal Guard ® (22% vs. 29%, p  = 0.066). In contrast, mortality was significantly lower with field-aged nets Interceptor ® G2 compared to washed nets (54% vs. 19%, p  < 0.001, OR = 0.18, 95% CIs [0.14, 0.24]). Blood-feeding inhibition was higher with field-aged nets than washed nets across all ITN types. Retention of non-pyrethroid AIs was lower than for the pyrethroid, particularly with field-aged nets (PermaNet ® 3.0 (roof): 25% vs. 68%, p  < 0.001, Royal Guard ® : 27% vs. 53%, p  < 0.001, Interceptor ® G2: 14% vs. 39%, p  < 0.001).

Conclusions

In this setting, the 20-wash method provided a suitable proxy for the end-of-life killing and sterilising performance of Interceptor ® , PermaNet ® 3.0 and Royal Guard® in experimental huts. In contrast, washing overestimated the end-of-life performance of Interceptor ® G2 for mortality and underestimated the personal protection of all field-aged ITNs.

Graphical Abstract

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  1. Version published to 10.1186/s13071-025-06743-w
  2. Version published to 10.21203/rs.3.rs-5216975/v1 on Research Square