An optimal control model for monkeypox transmission dynamics with vaccination and immunity loss following recovery

O.A. Adepoju, H.O. Ibrahim
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引用次数: 0

Abstract

The viral illness known as monkeypox causes symptoms such a rash that can appear on the hands, feet, chest, face, and lips or near the genitalia. This study presents a mathematical model for the kinetics of monkeypox transmission with vaccination and immunity loss following recovery. The theories of positivity and boundedness are used to analyze the model’s well-posedness. The next generation matrix is used to determine the model’s basic reproduction number. The model’s equilibrium points are discovered. We demonstrate that the disease-free equilibrium was locally asymptotically stable. The center manifold theory is used to establish the bifurcation analysis. The impact of the parameters related to the fundamental reproduction number R0 is investigated using the normalized forward sensitivity index. In addition, the model is expanded to incorporate time-dependent management of preventing interaction with contaminated rodents, avoiding contact with contaminated people, wearing personal protective equipment, and reducing rodent populations by utilizing an integrated pest management strategy. The model’s qualitative analysis is supported by numerical simulation.

猴痘传播动态的优化控制模型,包括疫苗接种和恢复后的免疫力丧失
猴痘是一种病毒性疾病,患者会出现皮疹等症状,皮疹可出现在手、脚、胸部、面部、嘴唇或生殖器附近。本研究提出了猴痘在接种疫苗后传播和康复后免疫力丧失的动力学数学模型。正定和有界理论用于分析模型的拟合性。下一代矩阵用于确定模型的基本繁殖数。发现模型的平衡点。我们证明了无病平衡是局部渐近稳定的。中心流形理论用于建立分岔分析。利用归一化前向敏感性指数研究了与基本繁殖数 R0 有关的参数的影响。此外,还对模型进行了扩展,以纳入与时间相关的管理,包括防止与受污染的啮齿动物发生相互作用、避免与受污染的人接触、穿戴个人防护设备,以及利用害虫综合治理策略减少啮齿动物数量。该模型的定性分析得到了数值模拟的支持。
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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来源期刊
Healthcare analytics (New York, N.Y.)
Healthcare analytics (New York, N.Y.) Applied Mathematics, Modelling and Simulation, Nursing and Health Professions (General)
CiteScore
4.40
自引率
0.00%
发文量
0
审稿时长
79 days
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