Wallinga Jacco, Teunis Peter
National Institute for Public Health and the Environment, Bilthoven, the Netherlands.
Am J Epidemiol. 2004 Sep 15;160(6):509-16. doi: 10.1093/aje/kwh255.
Severe acute respiratory syndrome (SARS) has been the first severe contagious disease to emerge in the 21st century. The available epidemic curves for SARS show marked differences between the affected regions with respect to the total number of cases and epidemic duration, even for those regions in which outbreaks started almost simultaneously and similar control measures were implemented at the same time. The authors developed a likelihood-based estimation procedure that infers the temporal pattern of effective reproduction numbers from an observed epidemic curve. Precise estimates for the effective reproduction numbers were obtained by applying this estimation procedure to available data for SARS outbreaks that occurred in Hong Kong, Vietnam, Singapore, and Canada in 2003. The effective reproduction numbers revealed that epidemics in the various affected regions were characterized by markedly similar disease transmission potentials and similar levels of effectiveness of control measures. In controlling SARS outbreaks, timely alerts have been essential: Delaying the institution of control measures by 1 week would have nearly tripled the epidemic size and would have increased the expected epidemic duration by 4 weeks.
严重急性呼吸综合征(SARS)是21世纪出现的首例严重传染病。SARS的现有流行曲线显示,即使对于那些几乎同时暴发疫情且同时实施了类似控制措施的地区,受影响地区在病例总数和流行持续时间方面也存在显著差异。作者开发了一种基于似然性的估计程序,该程序可从观察到的流行曲线推断有效繁殖数的时间模式。通过将此估计程序应用于2003年在香港、越南、新加坡和加拿大发生的SARS疫情的可用数据,获得了有效繁殖数的精确估计值。有效繁殖数表明,各个受影响地区的疫情具有明显相似的疾病传播潜力和相似水平的控制措施有效性。在控制SARS疫情方面,及时发出警报至关重要:将控制措施的实施推迟1周几乎会使疫情规模增加两倍,并使预期的流行持续时间增加4周。