流行病控制中的反弹:疫苗接种时间错位如何放大感染高峰

Piergiorgio Castioni, Sergio Gómez, Clara Granell, Alex Arenas
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摘要

在本研究中,我们探讨了疫苗接种活动的时机与疾病在人群中传播轨迹之间的动态相互作用。通过对模型输出的建模和综合数据分析,我们发现了一个反直觉的现象:在不恰当的时机启动疫苗接种过程可能会导致更明显的第二个感染高峰。这种 "反弹 "现象挑战了疫苗接种对流行病动态影响的传统认识。考虑到自然免疫和疫苗诱导免疫,我们详细研究了时机不当的疫苗接种工作如何会无意中降低人群的整体免疫水平。我们的研究结果表明,全人群免疫力的下降会导致病例的延迟和更严重的复发。这项研究不仅为我们了解控制大流行病的疫苗接种策略增添了一个重要的维度,而且还强调了适时进行战略干预以优化公共卫生结果的必要性。此外,我们还计算了 COVID-19 定制数学模型的最佳疫苗接种策略,并发现存在两类最佳策略。第一种策略优先考虑早期快速接种疫苗,以减少死亡人数;第二种策略优先考虑晚期缓慢接种疫苗,以减少病例数;这两种策略都主要针对老年人群。我们的研究结果对疫苗接种政策的制定具有重要意义,尤其是在传染病迅速发展的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Rebound in epidemic control: how misaligned vaccination timing amplifies infection peaks

Rebound in epidemic control: how misaligned vaccination timing amplifies infection peaks
In this study, we explore the dynamic interplay between the timing of vaccination campaigns and the trajectory of disease spread in a population. Through modeling and comprehensive data analysis of model output, we have uncovered a counter-intuitive phenomenon: initiating a vaccination process at an inopportune moment can paradoxically result in a more pronounced second peak of infections. This “rebound” phenomenon challenges the conventional understanding of vaccination impacts on epidemic dynamics. We provide a detailed examination of how improperly timed vaccination efforts can inadvertently reduce the overall immunity level in a population, considering both natural and vaccine-induced immunity. Our findings reveal that such a decrease in population-wide immunity can lead to a delayed, yet more severe, resurgence of cases. This study not only adds a critical dimension to our understanding of vaccination strategies in controlling pandemics but also underscores the necessity for strategically timed interventions to optimize public health outcomes. Furthermore, we compute which vaccination strategies are optimal for a COVID-19 tailored mathematical model, and find that there are two types of optimal strategies. The first type prioritizes vaccinating early and rapidly to reduce the number of deaths, while the second type acts later and more slowly to reduce the number of cases; both of them target primarily the elderly population. Our results hold significant implications for the formulation of vaccination policies, particularly in the context of rapidly evolving infectious diseases.
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