潜伏性肺结核的敏感性和稳定性分析

I. C. Eli, A. B. Okrinya
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摘要

结核病是一种危险的传染病,如果不采取控制措施,甚至可能导致死亡。该病由分枝杆菌引起,通常影响肺和其他相关器官,如淋巴腺、肠、肾、子宫、骨和脑。结核病通过被细菌污染的空气被吸入肺部而传播。咳嗽、胸痛、呼吸短促、食欲不振、体重减轻、发烧、感冒和疲劳是结核病的一些症状。然而,我们提出了一个数学模型来研究结核病的传播动力学,并在劳斯-赫维茨准则的帮助下分析研究了地方性平衡点是稳定的。灵敏度分析表明,当且仅当β≈β^1,且β^1≤0.1时,才会发生疫情。最后利用Matlab证明了无病平衡是不稳定的,地方性平衡在60天后趋于稳定。在无病平衡状态下,恢复种群迅速增加,暴露种群急剧减少。这是一个迹象,表明不会爆发肺结核感染。此外,有效接触率的增加会增加感染人群和恢复人群。同样可以推断,随着∝的增加,恢复种群不呈现趋势,而随着∝的增加,易感种群和感染种群分别增加和减少。恢复后的种群没有表现出对∝的应答模式,因为恢复后的个体没有获得永久免疫。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sensitivity and Stability Analysis of Tuberculosis Disease with Infectious Latent
Tuberculosis (TB) is a dangerous contagious disease which can even lead to death if no control measure is applied. The disease is caused by mycobacterium which generally affects lungs and other related organs such as lymph gland, intestine, kidneys, uterus, bone and brain. The spread of TB occurs via the bacteria contaminated air which is inhaled into the lungs. Cough, chest pain, shortness of breath, appetite loss, weight loss, fever, cold and fatigue are some of the symptoms of TB. However, we proposed a mathematical model to investigate the transmission dynamics of tuberculosis and it is investigated analytically that the endemic equilibrium point is stable with the help of Routh-Hurwitz criteria. The sensitivity analysis shows that there would be an epidemic if and only if β≈β^1, where β^1≤0.1. Finally, using Matlab, it is shown that the disease free equilibrium is unstable which the endemic equilibrium becomes stable beyond 60 days. In addition, the recovered population increased rapidly while the exposed population decreased steeply in the disease-free equilibrium. It is an indication that there will be no outbreak of the tuberculosis infection. Besides, an increased in the effective contact rate increases both the infected population and recovered population. It is equally inferred that the recovered population do not show a trend pattern as ∝ increases while the susceptible and infected populations increased and decreased respectively as ∝ is increased. The recovered population showed no response pattern for ∝ since recovered individuals do not obtain permanent immunity.
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