Mathematical Analysis on a General Delayed HBV Model with Capsids and Two Infection Routes

Pub Date : 2024-03-27 DOI:10.1007/s10255-024-1049-z
Li-li Liu, Hong-gang Wang, Ya-zhi Li
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引用次数: 0

Abstract

Considering that HBV belongs to the DNA virus family and is hepatotropic, we model the HBV DNA-containing capsids as a compartment. In this paper, a delayed HBV infection model is established, where the general incidence function and two infection routes including cell-virus infection and cell-cell infection are introduced. According to some preliminaries, including well-posedness, basic reproduction number and existence of two equilibria, we obtain the threshold dynamics for the model. We illustrate numerical simulations to verify the above theoretical results, and furthermore explore the impacts of intracellular delay and cell-cell infection on the global dynamics of the model.

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带有囊壳和两种感染途径的一般延迟型 HBV 模型的数学分析
考虑到 HBV 属于 DNA 病毒家族且具有肝毒性,我们将含 HBV DNA 的囊壳作为一个区室来建模。本文建立了延迟 HBV 感染模型,其中引入了一般发生函数和两种感染途径,包括细胞-病毒感染和细胞-细胞感染。根据一些预设条件,包括拟合性、基本繁殖数和两个均衡点的存在,我们得到了模型的阈值动力学。我们通过数值模拟验证了上述理论结果,并进一步探讨了细胞内延迟和细胞-细胞感染对模型全局动力学的影响。
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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