The impact of changing exposure to PM2.5 on mortality for US diplomats with multiple international relocations: a modelling study.

IF 5.3 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Environmental Health Pub Date : 2024-10-22 DOI:10.1186/s12940-024-01127-6
Leslie Edwards, James Milner, Paul Wilkinson, Ai Milojevic
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Abstract

Background: Current evidence linking long-term exposure to fine particulate matter (PM2.5) exposure and mortality is primarily based on persons that live in the same residence, city and/or country throughout the study, with few residential moves or relocations. We propose a novel method to quantify the health impacts of PM2.5 for United States (US) diplomats who regularly relocate to international cities with different PM2.5 levels.

Methods: Life table methods were applied at an individual-level to US mortality statistics using the World Health Organization's database of city-specific PM2.5 annual mean concentrations. Global Burden of Disease concentration-response (C-R) functions were used to estimate cause-specific mortality and days of life lost (DLL) for a range of illustrative 20-year diplomatic assignments for three age groups. Time lags between exposure and exposure-related mortality risks were applied. Sensitivity analysis of baseline mortality, exposure level, C-R functions and lags was conducted. The effect of mitigation measures, including the addition of air purifiers, was examined.

Results: DLL due to PM2.5 exposure for a standard 20-year assignment ranged from 0.3 days for diplomats' children to 84.1 days for older diplomats. DLL decreased when assignments in high PM2.5 cities were followed by assignments in low PM2.5 cities: 162.5 DLL when spending 20 years in high PM2.5 cities compared to 62.6 DLL when spending one of every four years (5 years total) in a high PM2.5 city for older male diplomats. Use of air purifiers and improved home tightness in polluted cities may halve DLL due to PM2.5 exposure. The results were highly sensitive to lag assumptions: DLL increased by 68% without inception lags and decreased by 59% without cessation lags for older male diplomats.

Conclusion: We developed a model to quantify health impacts of changing PM2.5 exposure for a population with frequent relocations. Our model suggests that alternating assignments in high and low PM2.5 cities may help reduce PM2.5-related mortality burdens. Adding exposure mitigation at home may help reduce PM2.5 related mortality. Further research on outcome-specific lag structures is needed to improve the model.

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PM2.5暴露变化对多次国际搬迁的美国外交官死亡率的影响:一项模型研究。
背景:目前将长期暴露于细颗粒物(PM2.5)与死亡率联系起来的证据主要基于在整个研究过程中居住在同一住所、城市和/或国家,很少搬家或重新安置的人。我们提出了一种新方法来量化 PM2.5 对美国外交官健康的影响,这些外交官经常搬迁到 PM2.5 水平不同的国际城市:方法:利用世界卫生组织的特定城市 PM2.5 年均浓度数据库,在个人层面上对美国死亡率统计数据采用生命表方法。全球疾病负担浓度-反应(C-R)函数被用来估算三个年龄组的一系列说明性 20 年外交分配的特定病因死亡率和生命损失天数(DLL)。暴露与暴露相关的死亡风险之间存在时间差。对基线死亡率、暴露水平、C-R 函数和滞后期进行了敏感性分析。对包括增加空气净化器在内的缓解措施的效果进行了研究:在为期 20 年的标准任务中,PM2.5 暴露造成的 DLL 从外交官子女的 0.3 天到年长外交官的 84.1 天不等。在 PM2.5 高的城市工作后,再到 PM2.5 低的城市工作,DLL 会减少:在PM2.5高的城市工作20年,寿命为162.5天,而在PM2.5高的城市工作4年(共5年),寿命为62.6天。在污染严重的城市使用空气净化器和提高家居密封性,可将PM2.5暴露造成的寿命减半。结果对滞后假设非常敏感:对于年长的男性外交官来说,如果没有开始滞后,DLL会增加68%,如果没有停止滞后,DLL会减少59%:我们建立了一个模型来量化PM2.5暴露变化对频繁搬迁人群的健康影响。我们的模型表明,在PM2.5较高和较低的城市交替工作可能有助于降低与PM2.5相关的死亡负担。在家中增加暴露缓解措施可能有助于降低与 PM2.5 相关的死亡率。需要进一步研究特定结果的滞后结构,以改进模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Environmental Health
Environmental Health 环境科学-公共卫生、环境卫生与职业卫生
CiteScore
10.10
自引率
1.70%
发文量
115
审稿时长
3.0 months
期刊介绍: Environmental Health publishes manuscripts on all aspects of environmental and occupational medicine and related studies in toxicology and epidemiology. Environmental Health is aimed at scientists and practitioners in all areas of environmental science where human health and well-being are involved, either directly or indirectly. Environmental Health is a public health journal serving the public health community and scientists working on matters of public health interest and importance pertaining to the environment.
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