Litcius/Paper detail

Curbing the COVID-19 pandemic with facility-based isolation of mild cases: a mathematical modeling study

Simiao Chen, Qiushi Chen, Juntao Yang, Lin Lin, Linye Li, Lirui Jiao, Pascal Geldsetzer, Chen Wang, Annelies Wilder‐Smith, Till Bärnighausen

2020Journal of Travel Medicine33 citationsDOIOpen Access PDF

Abstract

BACKGROUND: In many countries, patients with mild coronavirus disease 2019 (COVID-19) are told to self-isolate at home, but imperfect compliance and shared living space with uninfected people limit the effectiveness of home-based isolation. We examine the impact of facility-based isolation compared to self-isolation at home on the continuing epidemic in the USA. METHODS: We developed a compartment model to simulate the dynamic transmission of COVID-19 and calibrated it to key epidemic measures in the USA from March to September 2020. We simulated facility-based isolation strategies with various capacities and starting times under different diagnosis rates. Our primary model outcomes are new infections and deaths over 2 months from October 2020 onwards. In addition to national-level estimations, we explored the effects of facility-based isolation under different epidemic burdens in major US Census Regions. We performed sensitivity analyses by varying key model assumptions and parameters. RESULTS: We find that facility-based isolation with moderate capacity of 5 beds per 10 000 total population could avert 4.17 (95% credible interval 1.65-7.11) million new infections and 16 000 (8000-23 000) deaths in 2 months compared with home-based isolation. These results are equivalent to relative reductions of 57% (44-61%) in new infections and 37% (27-40%) in deaths. Facility-based isolation with high capacity of 10 beds per 10 000 population could achieve reductions of 76% (62-84%) in new infections and 52% (37-64%) in deaths when supported by expanded testing with an additional 20% daily diagnosis rate. Delays in implementation would substantially reduce the impact of facility-based isolation. The effective capacity and the impact of facility-based isolation varied by epidemic stage across regions. CONCLUSION: Timely facility-based isolation for mild COVID-19 cases could substantially reduce the number of new infections and effectively curb the continuing epidemic in the USA. Local epidemic burdens should determine the scale of facility-based isolation strategies.

Topics & Concepts

Isolation (microbiology)MedicinePandemicCoronavirus disease 2019 (COVID-19)PopulationOutbreakCensusPatient isolationSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)Transmission (telecommunications)DemographyEnvironmental healthDiseaseInfectious disease (medical specialty)VirologyInternal medicineMicrobiologySociologyEngineeringBiologyElectrical engineeringCOVID-19 epidemiological studiesInfection Control and VentilationSARS-CoV-2 detection and testing