Implementation of Rapid and Frequent SARS-CoV2 Antigen Testing and Response in Congregate Homeless Shelters

Autor: Andrés Aranda-Díaz, McFarland W, Moore J, Jennifer L. Evans, Margot Kushel, Imbert E, Jonathan D. Fuchs, Graham-Squire D, Strieff S, Handley Ma
Rok vydání: 2021
Předmět:
DOI: 10.1101/2021.04.20.21255787
Popis: BackgroundPeople experiencing homelessness who live in congregate shelters are at high risk of SARS-CoV2 transmission and severe COVID-19. Current screening and response protocols using rRT-PCR in homeless shelters are expensive, require specialized staff and have delays in returning results and implementing responses.MethodsWe piloted a program to offer frequent, rapid antigen-based tests (BinaxNOW) to residents and staff of congregate-living shelters in San Francisco, California, from January 15th to February 19th, 2021. We used the Reach-Effectiveness-Adoption-Implementation-Maintenance (RE-AIM) framework to evaluate the implementation.ResultsReachWe offered testing at ten of twelve eligible shelters. Shelter residents and staff had variable participation across shelters; approximately half of eligible individuals tested at least once; few tested consistently during the study.Effectiveness2.2% of participants tested positive. We identified three outbreaks, but none exceeded 5 cases. All BinaxNOW-positive participants were isolated or left the shelters.AdoptionWe offered testing to all eligible participants within weeks of the project’s initiation.ImplementationAdaptations made to increase reach and improve consistency were promptly implemented.MaintenanceSan Francisco Department of Public Health expanded and maintained testing with minimal support after the end of the pilot.ConclusionRapid and frequent antigen testing for SARS-CoV2 in homeless shelters is a viable alternative to rRT-PCR testing that can lead to immediate isolation of infectious individuals. Using the RE-AIM framework, we evaluated and adapted interventions to enable the expansion and maintenance of protocols.
Databáze: OpenAIRE