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  1. Article ; Online: Fine-Scale Space-Time Cluster Detection of COVID-19 in Mainland China Using Retrospective Analysis.

    Xu, Min / Cao, Chunxiang / Zhang, Xin / Lin, Hui / Yao, Zhong / Zhong, Shaobo / Huang, Zhibin / Shea Duerler, Robert

    International journal of environmental research and public health

    2021  Volume 18, Issue 7

    Abstract: ... of space-time scan statistic to detect the clusters of COVID-19 in mainland China with a different maximum ... space-time clusters. The analysis based on the data of cases from onset may detect the start times ... clusters vary with the clustering radius. Forty-three space-time clusters were detected with a maximum ...

    Abstract Exploring spatio-temporal patterns of disease incidence can help to identify areas of significantly elevated or decreased risk, providing potential etiologic clues. The study uses the retrospective analysis of space-time scan statistic to detect the clusters of COVID-19 in mainland China with a different maximum clustering radius at the family-level based on case dates of onset. The results show that the detected clusters vary with the clustering radius. Forty-three space-time clusters were detected with a maximum clustering radius of 100 km and 88 clusters with a maximum clustering radius of 10 km from 2 December 2019 to 20 June 2020. Using a smaller clustering radius may identify finer clusters. Hubei has the most clusters regardless of scale. In addition, most of the clusters were generated in February. That indicates China's COVID-19 epidemic prevention and control strategy is effective, and they have successfully prevented the virus from spreading from Hubei to other provinces over time. Well-developed provinces or cities, which have larger populations and developed transportation networks, are more likely to generate space-time clusters. The analysis based on the data of cases from onset may detect the start times of clusters seven days earlier than similar research based on diagnosis dates. Our analysis of space-time clustering based on the data of cases on the family-level can be reproduced in other countries that are still seriously affected by the epidemic such as the USA, India, and Brazil, thus providing them with more precise signals of clustering.
    MeSH term(s) Brazil ; COVID-19 ; China/epidemiology ; Cities ; Cluster Analysis ; Humans ; India ; Retrospective Studies ; SARS-CoV-2 ; Spatio-Temporal Analysis
    Language English
    Publishing date 2021-03-30
    Publishing country Switzerland
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 2175195-X
    ISSN 1660-4601 ; 1661-7827
    ISSN (online) 1660-4601
    ISSN 1661-7827
    DOI 10.3390/ijerph18073583
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: Fine-Scale Space-Time Cluster Detection of COVID-19 in Mainland China Using Retrospective Analysis

    Min Xu / Chunxiang Cao / Xin Zhang / Hui Lin / Zhong Yao / Shaobo Zhong / Zhibin Huang / Duerler Robert Shea

    International Journal of Environmental Research and Public Health, Vol 18, Iss 3583, p

    2021  Volume 3583

    Abstract: ... of space-time scan statistic to detect the clusters of COVID-19 in mainland China with a different maximum ... space-time clusters. The analysis based on the data of cases from onset may detect the start times ... China’s COVID-19 epidemic prevention and control strategy is effective, and they have successfully ...

    Abstract Exploring spatio-temporal patterns of disease incidence can help to identify areas of significantly elevated or decreased risk, providing potential etiologic clues. The study uses the retrospective analysis of space-time scan statistic to detect the clusters of COVID-19 in mainland China with a different maximum clustering radius at the family-level based on case dates of onset. The results show that the detected clusters vary with the clustering radius. Forty-three space-time clusters were detected with a maximum clustering radius of 100 km and 88 clusters with a maximum clustering radius of 10 km from 2 December 2019 to 20 June 2020. Using a smaller clustering radius may identify finer clusters. Hubei has the most clusters regardless of scale. In addition, most of the clusters were generated in February. That indicates China’s COVID-19 epidemic prevention and control strategy is effective, and they have successfully prevented the virus from spreading from Hubei to other provinces over time. Well-developed provinces or cities, which have larger populations and developed transportation networks, are more likely to generate space-time clusters. The analysis based on the data of cases from onset may detect the start times of clusters seven days earlier than similar research based on diagnosis dates. Our analysis of space-time clustering based on the data of cases on the family-level can be reproduced in other countries that are still seriously affected by the epidemic such as the USA, India, and Brazil, thus providing them with more precise signals of clustering.
    Keywords COVID-19 ; GIS ; space-time cluster ; retrospective analysis ; fine-scale ; Medicine ; R
    Subject code 006
    Language English
    Publishing date 2021-03-01T00:00:00Z
    Publisher MDPI AG
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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