BMJ Global Health (Aug 2023)

Does ignoring transmission dynamics lead to underestimation of the impact of interventions against mosquito-borne disease?

  • Margaret Elliott,
  • T Alex Perkins,
  • Manar Alkuzweny,
  • Sean Cavany,
  • John H Huber,
  • Annaliese Wieler,
  • Quan Minh Tran,
  • Guido España,
  • Sean M Moore

DOI
https://doi.org/10.1136/bmjgh-2023-012169
Journal volume & issue
Vol. 8, no. 8

Abstract

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New vector-control technologies to fight mosquito-borne diseases are urgently needed, the adoption of which depends on efficacy estimates from large-scale cluster-randomised trials (CRTs). The release of Wolbachia-infected mosquitoes is one promising strategy to curb dengue virus (DENV) transmission, and a recent CRT reported impressive reductions in dengue incidence following the release of these mosquitoes. Such trials can be affected by multiple sources of bias, however. We used mathematical models of DENV transmission during a CRT of Wolbachia-infected mosquitoes to explore three such biases: human movement, mosquito movement and coupled transmission dynamics between trial arms. We show that failure to account for each of these biases would lead to underestimated efficacy, and that the majority of this underestimation is due to a heretofore unrecognised bias caused by transmission coupling. Taken together, our findings suggest that Wolbachia-infected mosquitoes could be even more promising than the recent CRT suggested. By emphasising the importance of accounting for transmission coupling between arms, which requires a mathematical model, we highlight the key role that models can play in interpreting and extrapolating the results from trials of vector control interventions.