Adaptive behaviors and vaccination on curbing COVID-19 transmission: Modeling simulations in eight countries

Adaptive behaviors and vaccination on curbing COVID-19 transmission: Modeling simulations in eight countries

Current persistent outbreak of COVID-19 is triggering a series of collective responses to avoid infection. To further clarify the impact mechanism of adaptive protection behavior and vaccination, we developed a new transmission model via a delay differential system, which parameterized the roles of...

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Published in:Journal of theoretical biology Vol. 559; p. 111379
Main Authors: Li, Zhaowan, Zhao, Jianguo, Zhou, Yuhao, Tian, Lina, Liu, Qihuai, Zhu, Huaiping, Zhu, Guanghu
Format: Journal Article
Language:English
Published: England Elsevier Ltd 21-02-2023
Subjects:
Adaptation, Psychological
Adaptive behavior
Brazil - epidemiology
COVID-19
COVID-19 - epidemiology
COVID-19 - prevention & control
Humans
Philippines
Prevention and control
Vaccination
Brazil
Philippines
COVID-19
Prevention and control
Vaccination
Adaptive behavior
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Summary:Current persistent outbreak of COVID-19 is triggering a series of collective responses to avoid infection. To further clarify the impact mechanism of adaptive protection behavior and vaccination, we developed a new transmission model via a delay differential system, which parameterized the roles of adaptive behaviors and vaccination, and allowed to simulate the dynamic infection process among people. By validating the model with surveillance data during March 2020 and October 2021 in America, India, South Africa, Philippines, Brazil, UK, Spain and Germany, we quantified the protection effect of adaptive behaviors by different forms of activity function. The modeling results indicated that (1) the adaptive activity function can be used as a good indicator for fitting the intervention outcome, which exhibited short-term awareness in these countries, and it could reduce the total human infections by 3.68, 26.16, 15.23, 4.23, 7.26, 1.65, 5.51 and 7.07 times, compared with the reporting; (2) for complete prevention, the average proportions of people with immunity should be larger than 90%, 92%, 86%, 71%, 92%, 84%, 82% and 76% with adaptive protection behaviors, or 91%, 97%, 94%, 77%, 92%, 88%, 85% and 90% without protection behaviors; and (3) the required proportion of humans being vaccinated is a sub-linear decreasing function of vaccine efficiency, with small heterogeneity in different countries. This manuscript was submitted as part of a theme issue on “Modelling COVID-19 and Preparedness for Future Pandemics”. •Impacts of adaptive protection and vaccination against COVID-19 were clarified.•Adaptive activity function with short-term awareness was a good fitting indicator.•Adaptive protection behaviors played big roles in preventing COVID-19 infections.•People with immunity were 71%–92% (77%–97% ) with (without) adaptive protection.•Required vaccination is a sub-linear decreasing function of vaccine efficiency.
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content type line 23
ISSN:0022-5193
1095-8541
1095-8541
DOI:10.1016/j.jtbi.2022.111379