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Mathematical Modelling of Listeriosis Epidemics in Animal and Human Population with Optimal Control.

Shaibu Osman, Oluwole Daniel Makinde, David Mwangi Theuri

2020Tamkang Journal of Mathematics20 citationsDOIOpen Access PDF

Abstract

Listeriosis is a serious disease caused by the germ Listeria monocytogenes. People usually become ill with listeriosis after eating contaminated food including meat. The disease primarily affects pregnant women, newborns, older adults, and people with weakened immune systems. In this paper, we propose and scrutinize a model problem describing the transmission dynamics of Listeriosis epidemic in animal and human population using the stability theory of differential equations. The model is qualitatively analysed for the basic reproduction number as well as possibility of forward and backward bifurcation with respect to the stability of disease free and endemic equilibria. The impact of the model parameters on the disease was evaluated via sensitivity analysis. An extension of the model to include time dependent control variables such as treatment, vaccination and education of susceptible (human) is carried out. Using Pontryagin’s Maximum Principle, we obtain the optimal control strategies needed for combating Listeriosis disease. Numerical simulation of the model is performed and pertinent results are displayed graphically and discussed quantitatively.

Topics & Concepts

Stability (learning theory)Basic reproduction numberPopulationMaximum principleListeria monocytogenesDiseaseStability theoryEpidemic modelPontryagin's minimum principleMathematicsOptimal controlComputer scienceMedicineMathematical optimizationEnvironmental healthBiologyMachine learningGeneticsBacteriaPhysicsQuantum mechanicsPathologyNonlinear systemListeria monocytogenes in Food SafetyAnimal Disease Management and Epidemiology
Mathematical Modelling of Listeriosis Epidemics in Animal and Human Population with Optimal Control. | Litcius