Global Transmission Dynamics of a Schistosomiasis Model and Its Optimal Control

  • Diaby M
  • Sène M
  • Sène A
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Abstract

Drug treatment, snail control, cercariae control, improved sanitation and health education are the effective strategies which are used to control the schistosomiasis. In this paper, we consider a deterministic model for schistosomiasis transmission dynamics in order to explore the role of the several control strategies. The global stability of a schistosomiasis infection model that involves mating structure including male schistosomes, female schistosomes, paired schistosomes and snails is studied by constructing appropriate Lyapunov functions. We derive the basic reproduction number for the deterministic model, and establish that the global dynamics are completely determined by the values of . We show that the disease can be eradicated when ; otherwise, the system is persistent. In the case where , we prove the existence, uniqueness and global asymptotic stability of an endemic steady state. Sensitivity analysis and simulations are carried out in order to determine the relative importance of different control strategies for disease transmission and prevalence. Next, optimal control theory is applied to investigate the control strategies for eliminating schistosomiasis using time dependent controls. The characterization of the optimal control is carried out via the Pontryagins Maximum Principle. The simulation results demonstrate that the insecticide is important in the control of schistosomiasis.

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Diaby, M., Sène, M., & Sène, A. (2019). Global Transmission Dynamics of a Schistosomiasis Model and Its Optimal Control. Applied Mathematics, 10(06), 397–418. https://doi.org/10.4236/am.2019.106029

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