Coronavirus disease 2019 outbreak in Beijing’s Xinfadi Market, China: a modeling study to inform future resurgence response
Coronavirus disease 2019 outbreak in Beijing’s Xinfadi Market, China: a modeling study to inform future resurgence response
Background: A local coronavirus disease 2019 (COVID-19) case confirmed on June 11, 2020 triggered an outbreak in Beijing, China after 56 consecutive days without a newly confirmed case. Non-pharmaceutical interventions (NPIs) were used to contain the source in Xinfadi (XFD) market. To rapidly control the outbreak, both traditional and newly introduced NPIs including large-scale management of high-risk populations and expanded severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) PCR-based screening in the general population were conducted in Beijing. We aimed to assess the effectiveness of the response to the COVID-19 outbreak in Beijing’s XFD market and inform future response efforts of resurgence across regions. Methods: A modified susceptible–exposed–infectious–recovered (SEIR) model was developed and applied to evaluate a range of different scenarios from the public health perspective. Two outcomes were measured: magnitude of transmission (i.e., number of cases in the outbreak) and endpoint of transmission (i.e., date of containment). The outcomes of scenario evaluations were presented relative to the reality case (i.e., 368 cases in 34 days) with 95% Confidence Interval (CI). Results: Our results indicated that a 3 to 14 day delay in the identification of XFD as the infection source and initiation of NPIs would have caused a 3 to 28-fold increase in total case number (31–77 day delay in containment). A failure to implement the quarantine scheme employed in the XFD outbreak for defined key population would have caused a fivefold greater number of cases (73 day delay in containment). Similarly, failure to implement the quarantine plan executed in the XFD outbreak for close contacts would have caused twofold greater transmission (44 day delay in containment). Finally, failure to implement expanded nucleic acid screening in the general population would have yielded 1.6-fold greater transmission and a 32 day delay to containment. Conclusions: This study informs new evidence that in form the selection of NPI to use as countermeasures in response to a COVID-19 outbreak and optimal timing of their implementation. The evidence provided by this study should inform responses to future outbreaks of COVID-19 and future infectious disease outbreak preparedness efforts in China and elsewhere. Graphical abstract: [Figure not available: see fulltext.]
Beijing, COVID-19, Nonpharmaceutical intervention, Public health, SARS-CoV-2
Wang, Xiao-Li
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Lin, Xin
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Yang, Peng
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Wu, Zun-You
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Li, Gang
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McGoogan, Jennifer M.
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Jiao, Zeng-Tao
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He, Xin-Jun
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Li, Si-Qi
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Shi, Hong-Hao
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Wang, Jing-Yuan
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Huang, Chun
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Wang, Quan-Yi
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Lai, Shengjie
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7 May 2021
Wang, Xiao-Li
b4bd9a05-9a2e-4d21-a7ad-e6347e0a3e55
Lin, Xin
356ea1d7-4c9a-4ab9-9458-b6beec02870a
Yang, Peng
3fc33b62-2759-4806-9e1d-58e1365d6857
Wu, Zun-You
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Li, Gang
abbadcd7-af71-405a-afbc-40d1e4ec1f1a
McGoogan, Jennifer M.
bfa9fa93-0dee-4fdc-9485-973467aa2622
Jiao, Zeng-Tao
5d2557e2-d79b-492f-9df0-402c7af65a21
He, Xin-Jun
60101585-1290-4f2f-8cff-c27502495347
Li, Si-Qi
80293863-5e17-461e-a46a-bbd988216365
Shi, Hong-Hao
b9016804-0fbb-4b52-bb96-6798ac33c3db
Wang, Jing-Yuan
1ef18ce1-e125-4db4-afd0-f927c21ca89f
Huang, Chun
84e02b06-f595-42c8-a532-3e3176ddb34b
Wang, Quan-Yi
177e390d-37c8-42f4-9642-74feab36cbd7
Lai, Shengjie
b57a5fe8-cfb6-4fa7-b414-a98bb891b001
Wang, Xiao-Li, Lin, Xin, Yang, Peng, Wu, Zun-You, Li, Gang, McGoogan, Jennifer M., Jiao, Zeng-Tao, He, Xin-Jun, Li, Si-Qi, Shi, Hong-Hao, Wang, Jing-Yuan, Huang, Chun, Wang, Quan-Yi and Lai, Shengjie
(2021)
Coronavirus disease 2019 outbreak in Beijing’s Xinfadi Market, China: a modeling study to inform future resurgence response.
Infectious Diseases of Poverty, 10 (1), [62].
(doi:10.1186/s40249-021-00843-2).
Abstract
Background: A local coronavirus disease 2019 (COVID-19) case confirmed on June 11, 2020 triggered an outbreak in Beijing, China after 56 consecutive days without a newly confirmed case. Non-pharmaceutical interventions (NPIs) were used to contain the source in Xinfadi (XFD) market. To rapidly control the outbreak, both traditional and newly introduced NPIs including large-scale management of high-risk populations and expanded severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) PCR-based screening in the general population were conducted in Beijing. We aimed to assess the effectiveness of the response to the COVID-19 outbreak in Beijing’s XFD market and inform future response efforts of resurgence across regions. Methods: A modified susceptible–exposed–infectious–recovered (SEIR) model was developed and applied to evaluate a range of different scenarios from the public health perspective. Two outcomes were measured: magnitude of transmission (i.e., number of cases in the outbreak) and endpoint of transmission (i.e., date of containment). The outcomes of scenario evaluations were presented relative to the reality case (i.e., 368 cases in 34 days) with 95% Confidence Interval (CI). Results: Our results indicated that a 3 to 14 day delay in the identification of XFD as the infection source and initiation of NPIs would have caused a 3 to 28-fold increase in total case number (31–77 day delay in containment). A failure to implement the quarantine scheme employed in the XFD outbreak for defined key population would have caused a fivefold greater number of cases (73 day delay in containment). Similarly, failure to implement the quarantine plan executed in the XFD outbreak for close contacts would have caused twofold greater transmission (44 day delay in containment). Finally, failure to implement expanded nucleic acid screening in the general population would have yielded 1.6-fold greater transmission and a 32 day delay to containment. Conclusions: This study informs new evidence that in form the selection of NPI to use as countermeasures in response to a COVID-19 outbreak and optimal timing of their implementation. The evidence provided by this study should inform responses to future outbreaks of COVID-19 and future infectious disease outbreak preparedness efforts in China and elsewhere. Graphical abstract: [Figure not available: see fulltext.]
Text
Coronavirus disease 2019 outbreak in Beijing
- Accepted Manuscript
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Submitted date: 26 January 2021
Accepted/In Press date: 14 April 2021
Published date: 7 May 2021
Additional Information:
Funding Information:
This study was funded by grants from Beijing Science and Technology Planning Project (Z201100005420010) and Beijing Talent Project (2020A50). The work was partially supported by the National Key R&D Program of China (2019YFB2102103), the National Natural Science Foundation of China (Grant No. 92046010, 82161148011).
Publisher Copyright:
© 2021, The Author(s).
Keywords:
Beijing, COVID-19, Nonpharmaceutical intervention, Public health, SARS-CoV-2
Identifiers
Local EPrints ID: 448925
URI: http://eprints.soton.ac.uk/id/eprint/448925
ISSN: 2049-9957
PURE UUID: 17263bf2-025c-4c30-9fb6-cbc95d917f85
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Date deposited: 10 May 2021 16:33
Last modified: 17 Mar 2024 03:52
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Contributors
Author:
Xiao-Li Wang
Author:
Xin Lin
Author:
Peng Yang
Author:
Zun-You Wu
Author:
Gang Li
Author:
Jennifer M. McGoogan
Author:
Zeng-Tao Jiao
Author:
Xin-Jun He
Author:
Si-Qi Li
Author:
Hong-Hao Shi
Author:
Jing-Yuan Wang
Author:
Chun Huang
Author:
Quan-Yi Wang
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