Dynamic variations in and prediction of COVID-19 with omicron in the four first-tier cities of mainland China, Hong Kong, and Singapore

Ni, Xiaohua; Sun, Bo; Hu, Zengyun; Cui, Qianqian; Zhang, Zhuo; Zhang, Hua

doi:10.3389/fpubh.2023.1228564

Front. Public Health

2023

DOI: 10.3389/fpubh.2023.1228564

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Dynamic variations in and prediction of COVID-19 with omicron in the four first-tier cities of mainland China, Hong Kong, and Singapore

Xiaohua Ni,

Bo Sun,

Zengyun Hu

et al.

Abstract: BackgroundThe COVID-19 pandemic, which began in late 2019, has resulted in the devastating collapse of the social economy and more than 10 million deaths worldwide. A recent study suggests that the pattern of COVID-19 cases will resemble a mini-wave rather than a seasonal surge. In general, COVID-19 has more severe impacts on cities than on rural areas, especially in cities with high population density.MethodsIn this study, the background situation of COVID-19 transmission is discussed, including the populatio… Show more

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2024

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Scenario analysis of COVID-19 dynamical variations by different social environmental factors: a case study in Xinjiang

Fu,

Liu,

Wang

et al. 2024

Front. Public Health

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BackgroundWith the rapid advancement of the One Health approach, the transmission of human infectious diseases is generally related to environmental and animal health. Coronavirus disease (COVID-19) has been largely impacted by environmental factors regionally and globally and has significantly disrupted human society, especially in low-income regions that border many countries. However, few research studies have explored the impact of environmental factors on disease transmission in these regions.MethodsWe used the Xinjiang Uygur Autonomous Region as the study area to investigate the impact of environmental factors on COVID-19 variation using a dynamic disease model. Given the special control and prevention strategies against COVID-19 in Xinjiang, the focus was on social and environmental factors, including population mobility, quarantine rates, and return rates. The model performance was evaluated using the statistical metrics of correlation coefficient (CC), normalized absolute error (NAE), root mean square error (RMSE), and distance between the simulation and observation (DISO) indices. Scenario analyses of COVID-19 in Xinjiang encompassed three aspects: different population mobilities, quarantine rates, and return rates.ResultsThe results suggest that the established dynamic disease model can accurately simulate and predict COVID-19 variations with high accuracy. This model had a CC value of 0.96 and a DISO value of less than 0.35. According to the scenario analysis results, population mobilities have a large impact on COVID-19 variations, with quarantine rates having a stronger impact than return rates.ConclusionThese results provide scientific insight into the control and prevention of COVID-19 in Xinjiang, considering the influence of social and environmental factors on COVID-19 variation. The control and prevention strategies for COVID-19 examined in this study may also be useful for the control of other infectious diseases, especially in low-income regions that are bordered by many countries.

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Scenario analysis of COVID-19 dynamical variations by different social environmental factors: a case study in Xinjiang

Fu,

Liu,

Wang

et al. 2024

Front. Public Health

Self Cite

View full text Add to dashboard Cite

show abstract

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Dynamic variations in and prediction of COVID-19 with omicron in the four first-tier cities of mainland China, Hong Kong, and Singapore

Cited by 1 publication

References 60 publications

Scenario analysis of COVID-19 dynamical variations by different social environmental factors: a case study in Xinjiang

Scenario analysis of COVID-19 dynamical variations by different social environmental factors: a case study in Xinjiang

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