Dynamics of Salmonellosis and the impacts of contaminated dairy products and environments: Mathematical modeling perspective and parameter estimation

IF 2.6 3区 环境科学与生态学 Q2 ECOLOGY
Herman Trazias , Jacob I. Irunde , Moatlhodi Kgosimore , Maranya M. Mayengo
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引用次数: 0

Abstract

This study proposes a system of non-linear ordinary differential equations (ODEs) based on a SIR-type epidemic model to explore the role that humans and dairy cattle play in the contamination process and the effects of contaminated dairy products and environments in salmonellosis dynamics. The driving force behind using a system of non-linear ODEs lies in their ability to accurately capture biological complexity, such as population interactions, which are inherently non-linear. The positivity of model solutions is checked to ensure their mathematical and biological compatibility. The Lyapunov stability theorem is used to examine the global stability of the equilibria states based on the value of a threshold parameter R0, also known as the basic reproduction number, which is formulated using the next generation matrix approach. Parameter estimation and model fitting are done using the least squares method along with the salmonellosis incidence data from 1990 to 2020. The uncertainty and global sensitivity analysis are performed using the Latin hypercube sampling and partial rank correlation coefficients methods. The dynamics of R0 along with model parameters responsible for contamination are explored using contour plots. The proposed model is simulated with a statistical range of 95% confidence interval to assess the reliability and precision of the estimates derived from the real data. The simulations are performed to explore the complex scenarios and forecast the dynamics of salmonellosis. The results show that the bacteria growth rate, ingestion rates of Salmonella typhimurium bacteria in contaminated dairy products and environments, shedding rates of Salmonella typhimurium into the environments by the infected humans and dairy cattle, and the harvesting rate of contaminated dairy products are directly proportional to R0, meaning that they are responsible for increasing the severity of salmonellosis whenever they are increased, while the decay rates of Salmonella typhimurium bacteria are inversely proportional to R0. Control measures such as hand hygiene, food preparation cleanliness, cooking food thoroughly, isolating sick and new animals, and training farmers on symptom recognition and reporting cases to medical staff are recommended to mitigate the severity of salmonellosis.

沙门氏菌病的动态变化以及受污染乳制品和环境的影响:数学建模视角与参数估计
本研究提出了一个基于 SIR 型流行病模型的非线性常微分方程(ODEs)系统,以探讨人和奶牛在污染过程中所扮演的角色,以及受污染的奶制品和环境对沙门氏菌病动态变化的影响。使用非线性 ODEs 系统的驱动力在于它们能够准确捕捉生物复杂性,如种群相互作用,而种群相互作用本身就是非线性的。对模型解的正验性进行检验,以确保其数学和生物学兼容性。利用李亚普诺夫稳定性定理,根据阈值参数 R0(也称为基本繁殖数)的值来检验平衡状态的全局稳定性,该参数是利用下一代矩阵方法制定的。参数估计和模型拟合采用最小二乘法,并使用 1990 年至 2020 年的沙门氏菌病发病率数据。使用拉丁超立方采样法和偏等级相关系数法进行不确定性和全局敏感性分析。利用等值线图探讨了 R0 的动态以及造成污染的模型参数。在 95% 置信区间的统计范围内对所提出的模型进行了模拟,以评估从真实数据中得出的估计值的可靠性和精确性。进行模拟是为了探索复杂的情况并预测沙门氏菌病的动态变化。结果表明,细菌生长率、受污染乳制品和环境中鼠伤寒沙门氏菌的摄入率、受感染人类和乳牛对环境中鼠伤寒沙门氏菌的脱落率以及受污染乳制品的收获率与 R0 成正比,这意味着只要它们增加,就会导致沙门氏菌病的严重程度增加,而鼠伤寒沙门氏菌的衰减率与 R0 成反比。为减轻沙门氏菌病的严重程度,建议采取控制措施,如保持手部卫生、食物配制清洁、彻底煮熟食物、隔离患病和新感染的动物,以及培训农民识别症状和向医务人员报告病例。
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来源期刊
Ecological Modelling
Ecological Modelling 环境科学-生态学
CiteScore
5.60
自引率
6.50%
发文量
259
审稿时长
69 days
期刊介绍: The journal is concerned with the use of mathematical models and systems analysis for the description of ecological processes and for the sustainable management of resources. Human activity and well-being are dependent on and integrated with the functioning of ecosystems and the services they provide. We aim to understand these basic ecosystem functions using mathematical and conceptual modelling, systems analysis, thermodynamics, computer simulations, and ecological theory. This leads to a preference for process-based models embedded in theory with explicit causative agents as opposed to strictly statistical or correlative descriptions. These modelling methods can be applied to a wide spectrum of issues ranging from basic ecology to human ecology to socio-ecological systems. The journal welcomes research articles, short communications, review articles, letters to the editor, book reviews, and other communications. The journal also supports the activities of the [International Society of Ecological Modelling (ISEM)](http://www.isemna.org/).
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