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Policy choices for Shanghai responding to challenges of Omicron.
Qian, Ying; Cao, Siqi; Zhao, Laijun; Yan, Yuge; Huang, Jiaoling.
  • Qian Y; Business School, University of Shanghai for Science and Technology, Shanghai, China.
  • Cao S; Business School, University of Shanghai for Science and Technology, Shanghai, China.
  • Zhao L; Business School, University of Shanghai for Science and Technology, Shanghai, China.
  • Yan Y; School of Public Health, Shanghai Jiao Tong University School of Medicine, Shanghai, China.
  • Huang J; School of Public Health, Shanghai Jiao Tong University School of Medicine, Shanghai, China.
Front Public Health ; 10: 927387, 2022.
Article in English | MEDLINE | ID: covidwho-2154837
ABSTRACT

Background:

A new wave of Coronavirus disease 2019 (COVID-19) infection driven by Omicron BA.2 subvariant hit Shanghai end of February 2020. With higher transmissibility and milder symptoms, the daily new confirmed cases have soared to more than 20 K within one and a half months. The greatest challenge of Omicron spreading is that the rapidly surging number of infected populations overwhelming the healthcare system. What policy is effective for huge cities to fight against fast-spreading COVID-19 new variant remains a question.

Methods:

A system dynamics model of the Shanghai Omicron epidemic was developed as an extension of the traditional susceptible-exposed-infected-susceptible recovered (SEIR) model to incorporate the policies, such as contact tracing and quarantine, COVID-19 testing, isolation of areas concerned, and vaccination. Epidemic data from Shanghai Municipal Health Commission were collected for model validation.

Results:

Three policies were tested with the model COVID-19 testing, isolation of areas concerned, and vaccination. Maintaining a high level of COVID-19 testing and transfer rate of the infected population can prevent the number of daily new confirmed cases from recurring growth. In the scenario that 50% of the infected population could be transferred for quarantine on daily bases, the daily confirmed asymptomatic cases and symptomatic cases remained at a low level under 100. For isolation of areas concerned, in the scenario with most isolation scope, the peak of daily confirmed asymptomatic and symptomatic cases dropped 18 and 16%, respectively, compared with that in the scenario with least isolation. Regarding vaccination, increasing the vaccination rate from 75 to 95% only slightly reduced the peak of the confirmed cases, but it can reduce the severe cases and death by 170%.

Conclusions:

The effective policies for Omicron include high level of testing capacity with a combination of RAT and PCR testing to identify and quarantine the infected cases, especially the asymptomatic cases. Immediate home-isolation and fast transfer to centralized quarantine location could help control the spread of the virus. Moreover, to promote the vaccination in vulnerable population could significantly reduce the severe cases and death. These policies could be applicable to all metropolises with huge population facing high transmissible low severity epidemic.
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Full text: Available Collection: International databases Database: MEDLINE Main subject: COVID-19 Type of study: Diagnostic study / Observational study / Prognostic study Topics: Vaccines / Variants Limits: Humans Country/Region as subject: Asia Language: English Journal: Front Public Health Year: 2022 Document Type: Article Affiliation country: Fpubh.2022.927387

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Full text: Available Collection: International databases Database: MEDLINE Main subject: COVID-19 Type of study: Diagnostic study / Observational study / Prognostic study Topics: Vaccines / Variants Limits: Humans Country/Region as subject: Asia Language: English Journal: Front Public Health Year: 2022 Document Type: Article Affiliation country: Fpubh.2022.927387