在小区域一级实时预测与气温有关的超常死亡率:建立一个业务框架

Malcolm N Mistry, A. Gasparrini
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摘要

开发用于实时监测和预测环境健康影响的创新工具对于有效的公共卫生干预和资源分配战略至关重要。尽管负责发布预报警报的公共卫生规划人员和地区当局以前就提出过对此类通用工具的需求,但目前尚未开发出一个全面、强大且可扩展的实时系统,用于预测当地范围内与气温相关的超额死亡人数。为了填补这一空白,我们提出了一个灵活的操作框架,将公开的天气预报与基于人口普查的小区域特有的气温-死亡风险函数结合起来,后者是利用最先进的环境流行病学模型得出的。利用欧洲领先气象中心预测的高分辨率气温数据,我们展示了一个实时应用,用于预测 2022 年 7 月英格兰和威尔士热浪期间的超额死亡率。输出结果包括不同提前期小地理区域与气温相关的预计超额死亡人数,可自动生成不同时空尺度的地图,从而有助于提前采取预防措施和分配公共卫生资源。本文讨论的实际案例展示了预测与热有关的(预期)过量死亡的应用,但该框架也可适用于其他与天气有关的健康风险和不同的地理区域,前提是气象暴露和基本健康结果的数据可用来校准相关的风险函数。在全球范围内,尤其是在中低收入地区,预测短期环境对公共卫生系统造成的健康负担的需求十分迫切,因为在这些地区,为减轻极端气温的不利暴露和影响而采取的快速应对措施往往受到可用资源的限制。
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Real-time forecast of temperature-related excess mortality at small-area level: towards an operational framework
The development of innovative tools for real-time monitoring and forecasting of environmental health impacts is central to effective public health interventions and resource allocation strategies. Though a need for such generic tools has been previously echoed by public health planners and regional authorities responsible for issuing anticipatory alerts, a comprehensive, robust and scalable real-time system for predicting temperature-related excess deaths at a local scale has not been developed yet. Filling this gap, we propose a flexible operational framework for coupling publicly available weather forecasts with temperature-mortality risk functions specific to small census-based zones, the latter derived using state-of-the-art environmental epidemiological models. Utilising high-resolution temperature data forecast by a leading European meteorological centre, we demonstrate a real-time application to forecast the excess mortality during the July 2022 heatwave over England and Wales. The output, consisting of expected temperature-related excess deaths at small geographic areas on different lead times, can be automated to generate maps at various spatio-temporal scales, thus facilitating preventive action and allocation of public health resources in advance. While the real-case example discussed here demonstrates an application for predicting (expected) heat-related excess deaths, the framework can also be adapted to other weather-related health risks and to different geographical areas, provided data on both meteorological exposure and the underlying health outcomes are available to calibrate the associated risk functions. The proposed framework addresses an urgent need for predicting the short-term environmental health burden on public health systems globally, especially in low- and middle-income regions, where rapid response to mitigate adverse exposures and impacts to extreme temperatures are often constrained by available resources.
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