Dynamical System of the Mathematical Model for Tuberculosis with Vaccination

Dian Grace Ludji, P. Sianturi, E. H. Nugrahani
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引用次数: 4

Abstract

This research focused on the modification of deterministic mathematical models for tuberculosis with vaccination. It also aimed to see the effect of giving the vaccine. It was done by adding vaccine compartments to people who were given the vaccine in the susceptible compartment. The population was divided into nine different groups. Those were susceptible individuals (S), vaccine (V), new latently infected (E1), diagnosed latently infected (E2), undiagnosed latently infected (E3), undiagnosed actively infected (l), diagnosed actively infected with prompt treatment (Dr), diagnosed actively infected with delay treatment (Dp), and treated (T). Basic reproduction number was constructed using next-generation matrix. Sensitivity analysis was also conducted. The results show that the model comprises two equilibriums: diseasefree equilibrium (T0) and endemic equilibrium (T*). It also shows that there is a relationship between R0 and two equilibriums. Moreover, the disease-free equilibrium point is asymptotically stable local when it is R0 1. Furthermore, the parameters of β, ρ, and γ are the most important parameter.
接种疫苗后结核病数学模型的动力学系统
本研究的重点是通过疫苗接种对结核病的确定性数学模型进行修改。它还旨在观察接种疫苗的效果。这是通过在易感区为接种疫苗的人添加疫苗区来完成的。人群被分为九组。这些是易感个体(S)、疫苗(V)、新的潜伏感染者(E1)、诊断为潜伏感染者的(E2)、未诊断为潜伏传染者的(E3)、未确诊为主动感染者的人(1)、经及时治疗诊断为主动感染的人(Dr)、经延迟治疗诊断为积极感染的人和经治疗的人(T)。使用下一代矩阵构造基本繁殖数。还进行了敏感性分析。结果表明,该模型包括两个平衡:无病平衡(T0)和地方病平衡(T*)。这也表明R0与两个平衡之间存在关系。此外,当无病平衡点为R0 1时,它是渐近稳定的局部平衡点。此外,β、ρ和γ的参数是最重要的参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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6
审稿时长
16 weeks
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