Effects of weather-related social distancing on city-scale transmission of respiratory viruses: a retrospective cohort study

Author:

Jackson Michael L.ORCID, ,Hart Gregory R.,McCulloch Denise J.,Adler Amanda,Brandstetter Elisabeth,Fay Kairsten,Han Peter,Lacombe Kirsten,Lee Jover,Sibley Thomas R.,Nickerson Deborah A.,Rieder Mark J.,Starita Lea,Englund Janet A.,Bedford Trevor,Chu Helen,Famulare Michael

Abstract

Abstract Background Unusually high snowfall in western Washington State in February 2019 led to widespread school and workplace closures. We assessed the impact of social distancing caused by this extreme weather event on the transmission of respiratory viruses. Methods Residual specimens from patients evaluated for acute respiratory illness at hospitals in the Seattle metropolitan area were screened for a panel of respiratory viruses. Transmission models were fit to each virus to estimate the magnitude reduction in transmission due to weather-related disruptions. Changes in contact rates and care-seeking were informed by data on local traffic volumes and hospital visits. Results Disruption in contact patterns reduced effective contact rates during the intervention period by 16 to 95%, and cumulative disease incidence through the remainder of the season by 3 to 9%. Incidence reductions were greatest for viruses that were peaking when the disruption occurred and least for viruses in an early epidemic phase. Conclusion High-intensity, short-duration social distancing measures may substantially reduce total incidence in a respiratory virus epidemic if implemented near the epidemic peak. For SARS-CoV-2, this suggests that, even when SARS-CoV-2 spread is out of control, implementing short-term disruptions can prevent COVID-19 deaths.

Funder

Gates Ventures

Publisher

Springer Science and Business Media LLC

Subject

Infectious Diseases

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