The Impact of Insecticide-treated Bed Nets on Parity and Malaria Sporozoite Infectivity of Anopheles Species in Kamuli District, Uganda

Background: The main objective of treating bed nets with insecticides is to affect the mean longevity of the main vector population, and consequently the vector density and sporozoite rates.

Objective: This study aimed at establishing the impact of insecticide-treated bed nets (ITNs) on the longevity and ability to transmit malaria sporozoites by the vector species as an assessment of effectiveness of the ITN intervention in Kamuli district, Uganda.

Methods: Indoor human-biting mosquitoes were trapped in three randomly selected houses in two separate nights using battery-operated CDC light traps in both intervention (with ITNs) and non-intervention villages (without ITNs). The female anophelines were dissected and their parity rates and Plasmodium falciparum sporozoite positivity compared between the two zones. A sporozoite Enzyme-Linked Immuno Sorbent Assay, ELISA, was used to detect the presence of P. falciparum sporozoites in the parous vectors in both zones.

The parity and P. falciparum sporozoite infectivity were compared between the two zones using the Kruskal-Wallis rank sum test of the R-Statistics software.

Results: Out of the 166 Anopheles mosquitoes dissected, 37.3% (19 out of 51) and 53.9% (62 out of 115) were parous in the intervention and non-intervention zones, respectively, indicating that parity of the mosquitoes was higher in the non-intervention (p = 0.005). Infectivity of the vectors in the non-intervention exceeded that in the intervention zone (p = 0.032), with active sporozoite transmission observed before and after bed time in the non-intervention zone.

Conclusion: Results showed that ITNs had impacted on the survival and consequently the density of the older malaria vectors, and on their ability to transmit Plasmodium sporozoites. This calls for intensification of use of this effective malaria control strategy, coupled with behavioural change communications strategy to promote correct use, as well as use of other interventions like repellents to provide additional protection especially before and after bed time.