Risk scorecard to minimize impact of COVID-19 when reopening

Shin B Lim; Rachael Pung; Kellie Tan; Jocelyn H S Lang; Dominique Z X Yong; Shi-Hua Teh; Elizabeth Quah; Yinxiaohe Sun; Stefan Ma; Vernon J M Lee

doi:10.1093/jtm/taab113

Risk scorecard to minimize impact of COVID-19 when reopening

J Travel Med. 2021 Oct 11;28(7):taab113. doi: 10.1093/jtm/taab113.

Authors

Shin B Lim¹, Rachael Pung^{1

2}, Kellie Tan¹, Jocelyn H S Lang¹, Dominique Z X Yong¹, Shi-Hua Teh¹, Elizabeth Quah¹, Yinxiaohe Sun³, Stefan Ma^{1

3}, Vernon J M Lee^{1

3}

Affiliations

¹ Ministry of Health, Singapore.
² London School of Hygiene and Tropical Medicine, UK.
³ Saw Swee Hock School of Public Health, National University of Singapore, Singapore.

Abstract

Background: We present a novel approach for exiting coronavirus disease 2019 (COVID-19) lockdowns using a 'risk scorecard' to prioritize activities to resume whilst allowing safe reopening.

Methods: We modelled cases generated in the community/week, incorporating parameters for social distancing, contact tracing and imported cases. We set thresholds for cases and analysed the effect of varying parameters. An online tool to facilitate country-specific use including the modification of parameters (https://sshsphdemos.shinyapps.io/covid_riskbudget/) enables visualization of effects of parameter changes and trade-offs. Local outbreak investigation data from Singapore illustrate this.

Results: Setting a threshold of 0.9 mean number of secondary cases arising from a case to keep R < 1, we showed that opening all activities excluding high-risk ones (e.g. nightclubs) allows cases to remain within threshold; while opening high-risk activities would exceed the threshold and result in escalating cases. An 80% reduction in imported cases per week (141 to 29) reduced steady-state cases by 30% (295 to 205). One-off surges in cases (due to superspreading) had no effect on the steady state if the R remains <1. Increasing the effectiveness of contact tracing (probability of a community case being isolated when infectious) by 33% (0.6 to 0.8) reduced cases by 22% (295 to 231). Cases grew exponentially if the product of the mean number of secondary cases arising from a case and (1-probability of case being isolated) was >1.

Conclusions: Countries can utilize a 'risk scorecard' to balance relaxations for travel and domestic activity depending on factors that reduce disease impact, including hospital/ICU capacity, contact tracing, quarantine and vaccination. The tool enabled visualization of the combinations of imported cases and activity levels on the case numbers and the trade-offs required. For vaccination, a reduction factor should be applied both for likelihood of an infected case being present and a close contact getting infected.

Keywords: SARS-CoV-2; contact tracing; imported cases; infectious diseases; quarantine; social distancing; traveller testing.

MeSH terms

COVID-19*
Communicable Disease Control
Contact Tracing
Humans
Quarantine
SARS-CoV-2