Elsayed Dahy, Ahmed M. Elaiw, Aeshah A. Raezah, Hamdy Z. Zidan, Abd Elsattar A. Abdellatif
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引用次数: 0
摘要
在本文中,我们研究了一个模型,提高了我们对细胞因子影响的HIV-1感染的理解。适应性免疫反应(细胞毒性T淋巴细胞(ctl)和抗体)和时间延迟对HIV-1感染的影响也包括在内。该模型考虑了两种类型的分布延迟,(i) CD4+T细胞HIV-1感染的延迟和(ii)新病毒粒子的成熟延迟。我们首先研究了系统的基本特征,然后找到了系统的平衡点。我们导出了5个阈值参数,即i, i = 0,1,…,4,它们完全决定了平衡点的存在性和稳定性。利用Lyapunov方法证明了所有平衡点的全局渐近稳定性。我们通过数值模拟来说明理论结果。我们还对基本繁殖数进行了敏感性分析,并确定了最敏感的参数。我们发现,焦亡作用是导致数为0的原因之一,忽略焦亡作用会导致对数为0的评价被低估。坏死性磺胺和高效抗逆转录病毒药物治疗(HAART)可以有效防止焦亡和减少病毒复制。此外,研究还发现,增加时间延迟可以有效地减少r0,从而抑制HIV-1的复制。此外,研究表明ctl和抗体免疫反应对免疫球蛋白o没有影响,而这可以减少HIV-1感染。
Global Properties of Cytokine-Enhanced HIV-1 Dynamics Model with Adaptive Immunity and Distributed Delays
In this paper, we study a model that enhances our understanding of cytokine-influenced HIV-1 infection. The impact of adaptive immune response (cytotoxic T lymphocytes (CTLs) and antibodies) and time delay on HIV-1 infection is included. The model takes into account two types of distributional delays, (i) the delay in the HIV-1 infection of CD4+T cells and (ii) the maturation delay of new virions. We first investigated the fundamental characteristics of the system, then found the system’s equilibria. We derived five threshold parameters, ℜi, i = 0, 1,…, 4, which completely determine the existence and stability of the equilibria. The Lyapunov method was used to prove the global asymptotic stability for all equilibria. We illustrate the theoretical results by performing numerical simulations. We also performed a sensitivity analysis on the basic reproduction number ℜ0 and identified the most-sensitive parameters. We found that pyroptosis contributes to the number ℜ0, and then, neglecting it will make ℜ0 underevaluated. Necrosulfonamide and highly active antiretroviral drug therapy (HAART) can be effective in preventing pyroptosis and at reducing viral replication. Further, it was also found that increasing time delays can effectively decrease ℜ0 and, then, inhibit HIV-1 replication. Furthermore, it is shown that both CTLs and antibody immune responses have no effect on ℜ0, while this can result in less HIV-1 infection.
期刊介绍:
Computation a journal of computational science and engineering. Topics: computational biology, including, but not limited to: bioinformatics mathematical modeling, simulation and prediction of nucleic acid (DNA/RNA) and protein sequences, structure and functions mathematical modeling of pathways and genetic interactions neuroscience computation including neural modeling, brain theory and neural networks computational chemistry, including, but not limited to: new theories and methodology including their applications in molecular dynamics computation of electronic structure density functional theory designing and characterization of materials with computation method computation in engineering, including, but not limited to: new theories, methodology and the application of computational fluid dynamics (CFD) optimisation techniques and/or application of optimisation to multidisciplinary systems system identification and reduced order modelling of engineering systems parallel algorithms and high performance computing in engineering.
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