Abstract
In this work, we formulate and mathematically study integer and fractional models of typhoid fever transmission dynamics. The models include vaccination as a control measure. After recalling some preliminary results for the integer model (determination of the epidemiological threshold denoted by Rc, asymptotic stability of the equilibrium point without disease whenever Rc<1, the existence of an equilibrium point with disease whenever Rc>1), we replace the integer derivative with the Caputo derivative. We perform a stability analysis of the disease-free equilibrium and prove the existence and uniqueness of the solution of the fractional model using fixed point theory. We construct the numerical scheme and prove its stability. Simulation results show that when the fractional-order η decreases, the peak of infected humans is delayed. To reduce the proliferation of the disease, mass vaccination combined with environmental sanitation is recommended. We then extend the previous model by replacing the mass action incidences with standard incidences. We compute the corresponding epidemiological threshold denoted by Rc⋆ and ensure the uniform stability of the disease-free equilibrium, for both new models, when Rc⋆<1. A new calibration of the new model is conducted with real data of Mbandjock, Cameroon, to estimate Rc⋆=1.4348. We finally perform several numerical simulations that permit us to conclude that such diseases can possibly be tackled through vaccination combined with environmental sanitation.
Subject
Statistics and Probability,Statistical and Nonlinear Physics,Analysis
Reference40 articles.
1. Typhoid vaccines: WHO position paper;Wkly. Epidemiol. Rec.,2008
2. Typhoid vaccines: WHO position paper–March 2018–Vaccins antityphoïdiques: Note de synthèse de l’OMS–mars 2018;Wkly. Epidemiol. Rec.,2018
3. Some Quantitative Studies in Epidemiology
4. A mathematical study of a tuberculosis model with fractional derivatives
5. Mathematical modeling, forecasting, and optimal control of typhoid fever transmission dynamics
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