Last Updated: 15/09/2025

Optimizing low-technology metofluthrin emanators to extend active ingredient release while maximizing protection against malaria transmission

Objectives

To test dose-optimization for an emanator prototype with metofluthrin, rather than transfluthrin, using a range of thicknesses of diffusion-retarding plastic coatings.

The primary objective is to identify the minimum dose, and optimal coating thickness at that dose, which confers ≥80% protection against exposure to biting An. arabiensis, as well as An. gambiae and An. funestus, for at least one year.
The secondary objective is to demonstrate that the predicted maximum cost per year of protection is comparable with those for long-lasting insecticidal nets.

Principal Institution

Liverpool School of Tropical Medicine (LSTM), United Kingdom

Principal Investigators / Focal Persons

Gerry F. Killeen

Partner Institutions

Kenya Medical Research Institute (KEMRI), Kenya

Partner Investigators

Sheila Barasa
Louis Niessen

Rationale and Abstract

Recently, a low-technology emanator was developed, consisting of commonly available Hessian sacking impregnated with the widely-used volatile pyrethroid transfluthrin, which is slowly released into the air in vapour phase. Emanators protected humans against behaviourally and physiologically resistant Anopheles arabiensis indoors and outdoors for over 2 years and killed the vast majority of mosquitoes that succeeded in feeding on protected humans. The disadvantage of transfluthrin is its relatively high melting point, which limits its vapor pressure and efficacy outside of low-altitude equatorial settings with very high night time temperatures. Fortunately, a similarly safe volatile pyrethroid called metofluthrin is also available from generic sources, which has a lower melting point so it remains volatile across the full range of temperatures relevant to malaria transmission. If both objectives for this project are achieved, this early phase study will be followed by an application to conduct the main study: a community-randomized controlled trial to assess impact upon malaria incidence among both users and non-users, supplemented with participatory social science studies of end-user perceptions. Both studies will be conducted in a relatively high altitude (1100m) region of west Kenya with moderate temperatures.

External reference

Project details

Themes

Combination of Interventions
Financing & Economics
Vector Control

Date

Jun 2016 — Jun 2018

Total Project Funding

$134,002

Funding Details

Medical Research Council (MRC), United Kingdom

Grant ID: MR/N027442/1

GBP 99,214