An outbreak of the Delta (B.1.617.2) variant of SARS-CoV-2 that began around mid-June 2021 in Sydney, Australia, quickly developed into a nation-wide epidemic. The ongoing epidemic is of major concern as the Delta variant is more infectious than previous variants that circulated in Australia in 2020. Using a re-calibrated agent-based model, we explored a feasible range of non-pharmaceutical interventions, including case isolation, home quarantine, school closures, and stay-at-home restrictions (i.e., "social distancing"). Our modelling indicated that the levels of reduced interactions in workplaces and across communities attained in Sydney and other parts of the nation were inadequate for controlling the outbreak. A counter-factual analysis suggested that if 70% of the population followed tight stay-at-home restrictions, then at least 45 days would have been needed for new daily cases to fall from their peak to below ten per day. Our model successfully predicted that, under a progressive vaccination rollout, if 40-50% of the Australian population follow stay-at-home restrictions, the incidence will peak by mid-October 2021. We also quantified an expected burden on the healthcare system and potential fatalities across Australia.
翻译:2021年6月中旬,澳大利亚悉尼开始爆发了SARS-COV-2的Delta(B.1.617.2)变体,该变体于2021年6月中旬开始在澳大利亚悉尼迅速发展成为全国性的流行病,目前这种流行病是一个主要关切,因为Delta变体比2020年在澳大利亚传播的变体更具传染性。我们利用重新校正的代理模式,探讨了一系列可行的非药物性干预措施,包括个案隔离、家庭检疫、学校关闭和住家限制(即“社会不安定”)。我们的模型表明,在悉尼和全国其他地区工作场所和社区之间减少互动的程度不足以控制疫情的爆发。一项反事实分析表明,如果70%的人口遵守严格的住家限制,那么每天新病例从高峰到每天不足10天至少需要45天的时间。我们的模式成功地预测,在逐步推广疫苗接种的情况下,如果澳大利亚人口的40-50 %在户口限制之后,发病率将到2021年中期达到高峰。我们还量化了澳大利亚医疗保健和潜在死亡率的预期负担。