International Journal of Infectious Diseases (Feb 2021)

SARS-CoV-2 in migrant worker dormitories: Geospatial epidemiology supporting outbreak management

  • Alexander W. Gorny,
  • Natasha Bagdasarian,
  • Azriel Hong Kiat Koh,
  • Yong Chin Lim,
  • Jacqueline Soo May Ong,
  • Bryan Su Wei Ng,
  • Benjamin Hooi,
  • Wai Jia Tam,
  • Fareed Husain Kagda,
  • Gerald Seng Wee Chua,
  • Michael Yong,
  • Hock Luen Teoh,
  • Alex Richard Cook,
  • Sunil Sethi,
  • Dan Yock Young,
  • Thomas Loh,
  • Aymeric Yu Tang Lim,
  • Andrew Kian-Li Aw,
  • Kenneth Seck Wai Mak,
  • Dale Fisher

Journal volume & issue
Vol. 103
pp. 389 – 394

Abstract

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Background: Migrant worker dormitories—residential complexes where 10–24 workers share living spaces—account for the majority of cases of SARS-CoV-2 infection in Singapore. To prevent overspill of transmission to the wider population, starting in early April 2020, residents were confined to their dormitories while measures were put in place to arrest the spread of infection. This descriptive study presents epidemiological data for a population of more than 60 000 migrant workers living in two barracks-style and four apartment-style dormitories located in western Singapore from April 3 to June 10, 2020. Methods: Our report draws from data obtained over the first 50 days of outbreak management in order to describe SARS-CoV-2 transmission in high-density housing environments. Cumulative counts of SARS-CoV-2 cases and numbers of housing units affected were analyzed to report the harmonic means of harmonic means of doubling times and their 95% confidence intervals (CI). Results: Multiple transmission peaks were identified involving at least 5467 cases of SARS-CoV-2 infection across six dormitories. Our geospatial heat maps gave an early indication of outbreak severity in affected buildings. We found that the number of cases of SARS-CoV-2 infection doubled every 1.56 days (95% CI 1.29–1.96) in barracks-style buildings. The corresponding doubling time for apartment-style buildings was 2.65 days (95% CI 2.01–3.87). Conclusions: Geospatial epidemiology was useful in shaping outbreak management strategies in dormitories. Our results indicate that building design plays an integral role in transmission and should be considered in the prevention of future outbreaks.

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