通过行为响应优化地方流行病控制

Francesco Parino;Lorenzo Zino;Alessandro Rizzo
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摘要

行为因素在人类疾病的出现、传播和遏制过程中起着至关重要的作用,对干预措施的效果有重大影响。然而,将这些因素纳入流行病模型的工作仍然有限,阻碍了人们了解如何优化设计干预措施以缓解现实生活中流行病爆发的可能性。本文旨在填补这一空白。具体而言,我们提出了一个简明模型,将流行病分区模型与捕捉行为反应的人口博弈结合起来,得到一个非线性常微分方程系统。基于流行弹性行为--经验证明疾病流行会影响自我保护行为的坚持--的假设,我们考虑了传染病和自我保护行为之间的非线性负反馈。我们描述了系统的渐近行为,确定了疾病迅速根除或在全球范围内趋于流行平衡的条件。此外,我们还阐明了行为反应如何影响地方性平衡。然后,我们提出并解决了一个最优控制问题,以便为模型规划具有成本效益的干预措施,同时考虑其对医疗保健和社会经济的影响。通过对性传播疾病的案例研究进行数字模拟,证明并验证了我们的研究结果。
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Optimal Control of Endemic Epidemic Diseases With Behavioral Response
Behavioral factors play a crucial role in the emergence, spread, and containment of human diseases, significantly influencing the effectiveness of intervention measures. However, the integration of such factors into epidemic models is still limited, hindering the possibility of understanding how to optimally design interventions to mitigate epidemic outbreaks in real life. This paper aims to fill in this gap. In particular, we propose a parsimonious model that couples an epidemic compartmental model with a population game that captures the behavioral response, obtaining a nonlinear system of ordinary differential equations. Grounded on prevalence-elastic behavior—the empirically proven assumption that the disease prevalence affects the adherence to self-protective behavior—we consider a nontrivial negative feedback between contagions and adoption of self-protective behavior. We characterize the asymptotic behavior of the system, establishing conditions under which the disease is quickly eradicated or a global convergence to an endemic equilibrium is attained. In addition, we elucidate how the behavioral response affects the endemic equilibrium. Then, we formulate and solve an optimal control problem to plan cost-effective interventions for the model, accounting for their healthcare and social-economical implications. Numerical simulations on a case study calibrated on sexually transmitted diseases demonstrate and validate our findings.
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