Abstract
BackgroundTo sustain the efficacy of malaria vector control, the World Health Organization (WHO) recommends the combination of effective tools. Before designing and implementing additional strategies in any setting, it is critical to monitor or predict when and where transmission occurs. However, to date, very few studies have quantified the behavioural interactions between humans and Anopheles vectors in Africa. Here, we characterized residual transmission in a rural area of Burkina Faso where long lasting insecticidal nets (LLIN) are widely used.MethodsWe analysed data on both human and malaria vectors behaviours from 27 villages to measure hourly human exposure to vector bites in dry and rainy seasons using a mathematical model. We estimated the protective efficacy of LLINs and characterised where (indoors vs. outdoors) and when both LLIN users and non-users were exposed to vector bites.ResultsThe percentage of the population who declared sleeping under a LLIN the previous night was very high regardless of the season, with an average LLIN use ranging from 92.43 to 99.89%. The use of LLIN provided > 80% protection against exposure to vector bites. The proportion of exposure for LLIN users was 29–57% after 05:00 and 0.05–12% before 20:00. More than 80% of exposure occurred indoors for LLIN users and the estimate reached 90% for children under 5 years old in the dry cold season.ConclusionsLLINs are predicted to provide considerable protection against exposure to malaria vector bites in the rural area of Diébougou. Nevertheless, LLIN users are still exposed to vector bites which occurred mostly indoors in late morning. Therefore, complementary strategies targeting indoor biting vectors in combination with LLIN are expected to be the most efficient to control residual malaria transmission in this area.
Highlights
To sustain the efficacy of malaria vector control, the World Health Organization (WHO) recommends the combination of effective tools
The average declared long lasting insecticidal nets (LLIN) use rate was very high in the study population ranging from 95.49% in the dry season to 99.67% in the rainy season (Table 1)
The declared LLIN use rate was higher in the 0–5 years old age group (97.87% in the dry season to 100% in the rainy season) compared to children aged 6–17 years old (95.36% in the dry season to 99.79% in the rainy season) and adults (92.45% in the dry season to 99.19% in the rainy season) (Table 1)
Summary
To sustain the efficacy of malaria vector control, the World Health Organization (WHO) recommends the combination of effective tools. Burkina Faso is one of the sixteen (16) in the world that documented an increase in malaria burden from 2016 to 2017 [2] This trend might be attributed to the recent increases in prevalence and strength of pyrethroid resistance in malaria vectors [3,4,5]. In subSaharan Africa, there have been many reports of changes in vector species and/or vector biting behaviours to avoid contact with LLIN [6,7,8] Such changes in vector populations are considered by many specialists as an important threat for indoor control strategies such as LLIN [9, 10]
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