北京市2003年SARS疫情的多维分布及其影响因素分析  被引量：39

作　　者：王劲峰[1] 孟斌[1] 郑晓瑛[2] 刘纪远[1] 韩卫国[1] 武继磊[1] 刘旭华[1] 李小文[3] 宋新明[2] 

机构地区：[1]中国科学院地理科学与资源研究所资源与环境信息系统国家重点实验室,北京100101 [2]北京大学人口研究所 [3]中国科学院遥感应用研究所

出　　处：《中华流行病学杂志》2005年第3期164-168,共5页Chinese Journal of Epidemiology

基　　金：国家自然科学基金(JJ03000101;49871064);国家"863"(2002AA135230 1);"973"(2001CB5103)高技术研究发展计划专项基金;中国医学科学院知识创新工程资助项目

摘　　要：目的　采用多维可视化分析研究北京市2003年严重急性呼吸综合征(SARS)疫情的扩散过程。方法　以北京市SARS疫情数据,结合北京市地理信息系统,基于数据驱动和模型驱动的理论和技术,利用热点分析、空间过程分析和因子识别等数据探索分析方法,根据传染病的多维传播特性,同时利用遗传规划和模拟退火相结合的算法对易感 感染 移出(SIR)模型求解,从模型直接求取SARS流行病学参数。结果　SARS密切接触者在城市内部呈现出大尺度上沿交通线聚集和在小尺度上随机分布态势;在不同发展阶段,北京市SARS发病趋势存在显著的空间聚集和扩散变化特征;地理位置、人口以及医院和医生数量是SARS空间传播的重要影响因子;通过对 SIR模型直接求解,反演传染病参数,对SARS确诊病例数可进行早期预报性分析。结论　对 SARS密切接触者的集聚探测揭示了北京市人群存在两个空间尺度上的流动接触过程,为人 人接触性传染病的预防和控制策略制定提供重要依据;多个环境和人文因子对 SARS传播起作用,其统计显著性随时间变化;有效的算法可以对SIR直接求解,使其可以用于传染病参数反演和早期预测。Objective To analyse the multi-dimension nature of severe acute respiratory syndrome (SARS) transmission. Methods Based on the data of SARS in 2003 and the geographic information system of Beijing, as well as under the broad range of the theorems and techniques of data-driven and model-driven knowledge mining, hierarchical techniques were used to test the hot spots. Wavelet technique was also used to decompose Moran's I frequency to survey the spatial clustering process of SARS. For factors analysis, BW test was used to distinguish factors which influencing SARS process. In temporal aspects, susceptive-infective-removal model(SIR) without Taylor expansion was solved by a genetic-simulated annealing algorithm, that directly provided a new approach to obtain epidemic parameters from the SIR model. Results Different order of spatial hot spots were noticed and the clustering were relevant with the means of transportation. Diffusion dynamics were changed along with the temporal process of SARS. Regarding factor analysis, geographic relationship, population density, the amount of doctors and hospitals appeared to be the key elements influencing the transmission of SARS. The predictable number of SARS cases evolving with time were also calculated. Conclusions Cluster detection of close contacts of SARS infective in Beijing revealed the spatial characters of urban population flow and having important implications in the prevention and control of this communicable diseases. Some human and physical environment factors played statistical significant roles in different periods during SARS epidemics. An efficient algorithm was developed to solve SIR model directly, enabling the estimation of epidemic parameters from SIR and early forecast.

关 键 词：SARS传播 北京 传染病 密切接触者 预防和控制 确诊病例 严重急性呼吸综合征(SARS) 热点分析 多维 结论 

分 类 号：R511.9[医药卫生—内科学]