We analyze an epidemiological model to evaluate the effectiveness of multiple means of control in malaria-endemic areas. The mathematical model consists of a system of several ordinary differential equations, and is based on a multicompartment representation of the system. The model takes into account the mutliple resting-questing stages undergone by adult female mosquitos during the period in which they function as disease vectors. We compute the basic reproduction number R0, and show that that if R0<1, the disease free equilibrium (DFE) is globally asymptotically stable (GAS) on the non-negative orthant. If R0>1, the system admits a unique endemic equilibrium (EE) that is GAS. We perform a sensitivity analysis of the dependence of R0 and the EE on parameters related to control measures, such as killing effectiveness and bite prevention. Finally, we discuss the implications for a comprehensive, cost-effective strategy for malaria control.
@article{arxiv.1808.07574,
title = {Analysis of Malaria Control Measures Effectiveness Using Multi-Stage Vector Model},
author = {Jean Claude Kamgang and Christopher Thron},
journal= {arXiv preprint arXiv:1808.07574},
year = {2023}
}