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Critical timing and extent of public health interventions to control outbreaks dominated by SARS-CoV-2 variants in Australia: a mathematical modelling study.

Zou Z, Fairley CK, Shen M, Scott N, Xu X, Li Z, Li R, Zhuang G, Zhang L

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  • Journal International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases

  • Published 18 Nov 2021

  • Volume 115

  • Pagination 154-165

  • DOI 10.1016/j.ijid.2021.11.024

Abstract

The exact characteristics of a coronavirus disease 2019 (COVID-19) outbreak that trigger public health interventions are poorly defined. The aim of this study was to assess the critical timing and extent of public health interventions to contain COVID-19 outbreaks in Australia.

A practical model was developed using existing epidemic data in Australia. The effective combinations of public health interventions and the critical number of daily cases for intervention commencement under various scenarios of changes in transmissibility of new variants and vaccination coverage were quantified.

In the past COVID-19 outbreaks in four Australian states, the number of reported cases on the day that interventions commenced strongly predicted the size and duration of the outbreaks. In the early phase of an outbreak, containing a wildtype-dominant epidemic to a low level (≤10 cases/day) would require effective combinations of social distancing and face mask use interventions to be commenced before the number of daily reported cases reaches six. Containing an Alpha-dominant epidemic would require more stringent interventions that commence earlier. For the Delta variant, public health interventions alone would not contain the epidemic unless the vaccination coverage was ≥70%.

This study highlights the importance of early and decisive action in the initial phase of an outbreak. Vaccination is essential for containing variants.