Metcalf C J E, Lessler J, Klepac P, Morice A, Grenfell B T, Bjørnstad O N
Department of Zoology, Oxford University, Oxford, UK.
Theor Popul Biol. 2012 Dec;82(4):275-82. doi: 10.1016/j.tpb.2011.12.001. Epub 2011 Dec 9.
The usage of structured population models can make substantial contributions to public health, particularly for infections where clinical outcomes vary over age. There are three theoretical challenges in implementing such analyses: (i) developing an appropriate framework that models both demographic and epidemiological transitions; (ii) parameterizing the framework, where parameters may be based on data ranging from the biological course of infection, basic patterns of human demography, specific characteristics of population growth, and details of vaccination regimes implemented; (iii) evaluating public health strategies in the face of changing human demography. We illustrate the general approach by developing a model of rubella in Costa Rica. The demographic profile of this infection is a crucial aspect of its public health impact, and we use a transient perturbation analysis to explore the impact of changing human demography on immunization strategies implemented.
结构化人口模型的应用可为公共卫生做出重大贡献,尤其是对于临床结局随年龄变化的感染性疾病。在开展此类分析时存在三个理论挑战:(i)建立一个能对人口统计学和流行病学转变进行建模的合适框架;(ii)对该框架进行参数化,其中参数可能基于从感染生物学过程、人类人口统计学基本模式、人口增长的具体特征以及所实施疫苗接种方案细节等获取的数据;(iii)在人类人口统计学不断变化的情况下评估公共卫生策略。我们通过构建哥斯达黎加风疹模型来说明一般方法。这种感染的人口统计学特征是其对公共卫生影响的一个关键方面,并且我们使用瞬态扰动分析来探究人类人口统计学变化对所实施免疫策略的影响。