鱼-人传播和鱼的不同生命阶段对克隆氏病的影响:新型数学模型

Wei Wang, Xiaohui Huang, Hao Wang
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摘要

克隆氏病是一种人畜共患病,主要由生吃鱼虾引起,目前还没有疫苗可以预防。全球感染人数超过 3000 万,仅中国就占了一半左右,是克隆氏病肆虐最严重的国家之一。在这项工作中,我们建立了一个新颖的常微分方程(ODE)模型,以讨论真实生态系统中鱼类的生物属性和中华绒螯鱼复杂的生命周期。该模型包括幼鱼、成鱼、感染鱼、人类和蛔虫。我们推导出了基本繁殖数,并对所提出的模型进行了严格的稳定性分析。在数值上,我们使用中国广西 2016 年至 2021 年的数据来讨论克隆氏蛔虫病的爆发,并得出基本繁殖数 R0=1.4764。拟合曲线恰当地反映了总体趋势,并复制了克隆氏病病例数的低峰。通过降低 2018 年的蛔虫释放率,克隆氏病病例的拟合值迅速下降并几乎消失。如果我们降低受感染鱼类对人类的传播率,克隆氏蛔虫病是可以得到控制的。我们的研究还表明,加强宣传教育和净化水质可以有效控制克龙病在中国广西的传播。
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Effects of fish-human transmission and different life stages of fish on Clonorchiasis: A novel mathematical model.

Clonorchiasis is a zoonotic disease mainly caused by eating raw fish and shrimp, and there is no vaccine to prevent it. More than 30 million people are infected worldwide, of which China alone accounts for about half, and is one of the countries most seriously affected by Clonorchiasis. In this work, we formulate a novel Ordinary Differential Equation (ODE) model to discuss the biological attributes of fish within authentic ecosystems and the complex lifecycle of Clonorchis sinensis. This model includes larval fish, adult fish, infected fish, humans, and cercariae. We derive the basic reproduction number and perform a rigorous stability analysis of the proposed model. Numerically, we use data from 2016 to 2021 in Guangxi, China, to discuss outbreaks of Clonorchiasis and obtain the basic reproduction number R0=1.4764. The fitted curve appropriately reflects the overall trend and replicates a low peak in the case number of Clonorchiasis. By reducing the release rate of cercariae in 2018, the fitted values of Clonorchiasis cases dropped rapidly and almost disappeared. If we decrease the transmission rate from infected fish to humans, Clonorchiasis can be controlled. Our studies also suggest that strengthening publicity education and cleaning water quality can effectively control the transmission of Clonorchiasis in Guangxi, China.

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