Global Stability of Virus Persistence of a Mathematical Model of the Dynamics of Ebola Virus Infection in Human Cell Population

Please use this identifier to cite or link to this item: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/16848

Title:	Global Stability of Virus Persistence of a Mathematical Model of the Dynamics of Ebola Virus Infection in Human Cell Population
Authors:	Nurudeen, Lasisi Akinwande, N. I. Olayiwola, R.O. Cole, A. T. Abdulrahman, S.
Keywords:	Mathematical model; Ebola virus; Immune response; Positivity; Global stability
Issue Date:	Mar-2018
Publisher:	Journal of the Nigerian Association of Mathematical Physics
Series/Report no.:	45;
Abstract:	In this paper, we formulated a mathematical model of the dynamics of Ebola virus infection in human cell population, using ordinary differential equations. We have shown the positivity of solutions of the model equations. The virus free and virus persistence equilibrium points were obtained. We computed the basic reproduction number of the system and shown the global stability of virus persistence equilibrium state.
URI:	http://repository.futminna.edu.ng:8080/jspui/handle/123456789/16848
ISSN:	1116-4336
Appears in Collections:	Mathematics

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