A Mathematical Model of a Tuberculosis Transmission Dynamics Incorporating First and Second Line Treatment

J. Andrawus; F.Y. Eguda; I.G. Usman; S.I. Maiwa; I.M. Dibal; T.G. Urum; G.H. Anka

doi:10.4314/jasem.v24i5.29

Journal of Applied Sciences and Environmental Management (Jun 2020)

A Mathematical Model of a Tuberculosis Transmission Dynamics Incorporating First and Second Line Treatment

J. Andrawus,
F.Y. Eguda,
I.G. Usman,
S.I. Maiwa,
I.M. Dibal,
T.G. Urum,
G.H. Anka

Affiliations

J. Andrawus
F.Y. Eguda
I.G. Usman
S.I. Maiwa
I.M. Dibal
T.G. Urum
G.H. Anka

DOI: https://doi.org/10.4314/jasem.v24i5.29
Journal volume & issue: Vol. 24, no. 5

Abstract

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This paper presents a new mathematical model of a tuberculosis transmission dynamics incorporating first and second line treatment. We calculated a control reproduction number which plays a vital role in biomathematics. The model consists of two equilibrium points namely disease free equilibrium and endemic equilibrium point, it has been shown that the disease free equilibrium point was locally asymptotically stable if the control reproduction number is less than one and also the endemic equilibrium point was locally asymptotically stable if the control reproduction number is greater than one. Numerical simulation was carried out which supported the analytical results. Keywords: Mathematical Model, Biomathematics, Reproduction Number, Disease Free Equilibrium, Endemic Equilibrium Point

Published in Journal of Applied Sciences and Environmental Management

ISSN: 2659-1502 (Print); 2659-1499 (Online)
Publisher: Joint Coordination Centre of the World Bank assisted National Agricultural Research Programme (NARP)
Country of publisher: Nigeria
LCC subjects: Science
Website: https://www.ajol.info/index.php/jasem

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