Simulation of an Intracellular Differential Equation Model of the Dynamics of Malaria with Immune Control and Treatment


Article PDF :

Veiw Full Text PDF

Article type :

Original Article

Author :

Titus Ifeanyi Chinebu | Edmund Onwubiko Ezennorom | John U Okwor

Volume :

2

Issue :

6

Abstract :

We designed a simulation of an intracellular differential equation model of the dynamics of malaria with immune control and treatment which considered malaria parasites in the liver and blood. We considered transmission dynamics of malaria and the interaction between the infection in the liver and blood. The disease free equilibrium of our model was asymptotically stable when the basic reproduction number is less than one and unstable when it is greater than one. Numerical simulations show that if the immune response is strong with effective treatment, malaria infection will be cleared from an infectious human host. A treatment strategy using highly effective drugs against malaria parasites with strong immune response can reduce malaria progression and control the disease. By Titus Ifeanyi Chinebu | Edmund Onwubiko Ezennorom | John U Okwor "Simulation of an Intracellular Differential Equation Model of the Dynamics of Malaria with Immune Control and Treatment" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-6 , October 2018, URL: https://www.ijtsrd.com/papers/ijtsrd18476.pdf Paper URL: http://www.ijtsrd.com/mathemetics/other/18476/simulation-of-an-intracellular-differential-equation-model-of-the-dynamics-of-malaria-with-immune-control-and-treatment/titus-ifeanyi-chinebu

Keyword :

Mathematical model, Malaria parasite, Hepatocyte, Erythrocyte, Meroziote, Sporozoite, Immune response, Treatment
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