Naumova Elena N, O'Neil E, MacNeill I
Department of Public Health and Family Medicine, Tufts University School of Medicine, Boston, Massachusetts 02111, USA.
MMWR Suppl. 2005 Aug 26;54:77-83.
Public health surveillance systems that monitor daily disease incidence provide valuable information about threats to public health and enable public health authorities to detect enteric outbreaks rapidly. This report describes the INtegrated Forecasts and EaRly eNteric Outbreak (INFERNO) detection system of algorithms for outbreak detection and forecasting.
INFERNO incorporates existing knowledge of infectious disease epidemiology into adaptive forecasts and uses the concept of an outbreak signature as a composite of disease epidemic curves.
Four main components comprise the system: 1) training, 2) warning and flagging, 3) signature forecasting, and 4) evaluation. The unifying goal of the system is to gain insight into the nature of temporal variations in the incidence of infection. Daily collected records are smoothed initially by using a loess-type smoother. Upon receipt of new data, the smoothing is updated; estimates are made of the first two derivatives of the smoothed curve, which are used for near-term forecasting. Recent data and near-term forecasts are used to compute a five level, color-coded warning index to quantify the level of concern. Warning algorithms are designed to balance false detection of an epidemic (Type I errors) with failure to correctly detect an epidemic (Type II errors). If the warning index signals a sufficiently high probability of an epidemic, the fitting of a gamma-based signature curve to the actual data produces a forecast of the possible size of the outbreak.
Although the system is under development, its potential has been demonstrated through successful use of emergency department records associated with a substantial waterborne outbreak of cryptosporidiosis that occurred in Milwaukee, Wisconsin, in 1993. Prospects for further development, including adjustment for seasonality and reporting delays, are also outlined.
监测每日疾病发病率的公共卫生监测系统能提供有关公共卫生威胁的宝贵信息,并使公共卫生当局能够迅速发现肠道疾病暴发。本报告描述了用于疾病暴发检测和预测的集成预测与早期肠道疾病暴发(INFERNO)检测系统算法。
INFERNO将传染病流行病学的现有知识纳入适应性预测,并将暴发特征的概念用作疾病流行曲线的综合指标。
该系统由四个主要部分组成:1)训练,2)预警与标记,3)特征预测,4)评估。该系统的统一目标是深入了解感染发病率随时间变化的本质。每日收集的记录最初使用局部加权回归散点平滑法(loess-type smoother)进行平滑处理。收到新数据后,平滑处理会更新;对平滑曲线的一阶和二阶导数进行估计,用于短期预测。利用近期数据和短期预测来计算一个五级、颜色编码的预警指数,以量化关注程度。预警算法旨在平衡对疫情的误报(I类错误)和未能正确检测到疫情(II类错误)。如果预警指数显示疫情发生的可能性足够高,则将基于伽马分布的特征曲线拟合到实际数据中,从而预测可能的暴发规模。
尽管该系统仍在开发中,但通过成功应用与1993年在威斯康星州密尔沃基发生的大规模隐孢子虫病水源性暴发相关的急诊科记录,已证明了其潜力。还概述了进一步发展的前景,包括对季节性和报告延迟的调整。
