Author
Listed:
- Cliff C. Kerr
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Dina Mistry
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Robyn M. Stuart
(University of Copenhagen
Burnet Institute)
- Katherine Rosenfeld
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Gregory R. Hart
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Rafael C. Núñez
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Jamie A. Cohen
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Prashanth Selvaraj
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Romesh G. Abeysuriya
(Burnet Institute)
- Michał Jastrzębski
(GitHub, Inc)
- Lauren George
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Brittany Hagedorn
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Jasmina Panovska-Griffiths
(University College London
Oxford University)
- Meaghan Fagalde
(Public Health – Seattle & King County)
- Jeffrey Duchin
(Public Health – Seattle & King County)
- Michael Famulare
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
- Daniel J. Klein
(Institute for Disease Modeling, Global Health Division, Bill & Melinda Gates Foundation)
Abstract
Initial COVID-19 containment in the United States focused on limiting mobility, including school and workplace closures. However, these interventions have had enormous societal and economic costs. Here, we demonstrate the feasibility of an alternative control strategy, test-trace-quarantine: routine testing of primarily symptomatic individuals, tracing and testing their known contacts, and placing their contacts in quarantine. We perform this analysis using Covasim, an open-source agent-based model, which has been calibrated to detailed demographic, mobility, and epidemiological data for the Seattle region from January through June 2020. With current levels of mask use and schools remaining closed, we find that high but achievable levels of testing and tracing are sufficient to maintain epidemic control even under a return to full workplace and community mobility and with low vaccine coverage. The easing of mobility restrictions in June 2020 and subsequent scale-up of testing and tracing programs through September provided real-world validation of our predictions. Although we show that test-trace-quarantine can control the epidemic in both theory and practice, its success is contingent on high testing and tracing rates, high quarantine compliance, relatively short testing and tracing delays, and moderate to high mask use. Thus, in order for test-trace-quarantine to control transmission with a return to high mobility, strong performance in all aspects of the program is required.
Suggested Citation
Cliff C. Kerr & Dina Mistry & Robyn M. Stuart & Katherine Rosenfeld & Gregory R. Hart & Rafael C. Núñez & Jamie A. Cohen & Prashanth Selvaraj & Romesh G. Abeysuriya & Michał Jastrzębski & Lauren Georg, 2021.
"Controlling COVID-19 via test-trace-quarantine,"
Nature Communications, Nature, vol. 12(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23276-9
DOI: 10.1038/s41467-021-23276-9
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Citations
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Cited by:
- Fatma Lestari & Margaret Cook & Kelly Johnstone & Miranda Surya Wardhany & Robiana Modjo & Baiduri Widanarko & Devie Fitri Octaviani, 2022.
"COVID-19 in the Workplace in Indonesia,"
Sustainability, MDPI, vol. 14(5), pages 1-23, February.
- Jonas Dehning & Sebastian B. Mohr & Sebastian Contreras & Philipp Dönges & Emil N. Iftekhar & Oliver Schulz & Philip Bechtle & Viola Priesemann, 2023.
"Impact of the Euro 2020 championship on the spread of COVID-19,"
Nature Communications, Nature, vol. 14(1), pages 1-14, December.
- Marlon Fritz & Thomas Gries & Margarete Redlin, 2023.
"The effectiveness of vaccination, testing, and lockdown strategies against COVID-19,"
International Journal of Health Economics and Management, Springer, vol. 23(4), pages 585-607, December.
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