Jerubet, Rodah and Kimathi, George and Wanaina, Mary (2019) Analysis and Modeling of Tuberculosis Transmission Dynamics. Journal of Advances in Mathematics and Computer Science, 32 (5). pp. 1-14. ISSN 2456-9968
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Abstract
Mycobacterium tuberculosis is the causative agent of Tuberculosis in humans [1,2]. A mathematical model that explains the transmission of Tuberculosis is developed. The model consists of four compartments; the susceptible humans, the infectious humans, the latently infected humans, and the recovered humans. We conducted an analysis of the disease-free equilibrium and endemic equilibrium points. We also computed the basic reproduction number using the next generation matrix approach. The disease-free equilibrium was found to be asymptotically stable if the reproduction number was less than one. The most sensitive parameter to the basic reproduction number was also determined using sensitivity analysis. Recruitment and contact rate are the most sensitive parameter that contributes to the basic reproduction number. Ordinary Differential Equations is used in the formulation of the model equations. The Tuberculosis model is analyzed in order to give a proper account of the impact of its transmission dynamics and the effect of the latent stage in TB transmission. The steady state's solution of the model is investigated. The findings showed that as more people come into contact with infectious individuals, the spread of TB would increase. The latent rate of infection below a critical value makes TB infection to persist. However, the recovery rate of infectious individuals is an indication that the spread of the disease will reduce with time which could help curb TB transmission.
Item Type: | Article |
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Subjects: | Pustaka Library > Mathematical Science |
Depositing User: | Unnamed user with email support@pustakalibrary.com |
Date Deposited: | 09 May 2023 09:10 |
Last Modified: | 05 Mar 2024 04:12 |
URI: | http://archive.bionaturalists.in/id/eprint/541 |