Ambient Air Pollution and All-Cause and Cause-Specific Mortality in an Analysis of Asian Cohorts.

Research report (Health Effects Institute) Pub Date : 2023-05-01

G S Downward, R Vermeulen

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Abstract

Introduction: Much of what is currently known about the adverse effects of ambient air pollution comes from studies conducted in high-income regions, with relatively low air pollution levels. The aim of the current project is to examine the relationship between exposure to ambient air pollution (as predicted from satellite-based models) and all-cause and cause-specific mortality in several Asian cohorts.

Methods: Cohorts were recruited from the Asia Cohort Consortium (ACC). The geocoded residences of participants were assigned levels of ambient particulate material with aerodynamic diameter of 2.5 μm or less (PM_2.5) and nitrogen dioxide (NO₂) utilizing global satellite-derived models and assigned for the year of enrollment (or closest available year). The association between ambient exposure and mortality was established with Cox proportional hazard models, after adjustment for common confounders. Both single- and two-pollutant models were generated. Model robustness was evaluated, and hazard ratios were calculated for each cohort separately and combined via random effect meta-analysis for pooled risk estimates.

Results: Six cohort studies from the ACC participated: the Community-based Cancer Screening Program (CBCSCP, Taiwan), the Golestan Cohort Study (Iran), the Health Effects for Arsenic Longitudinal Study (HEALS, Bangladesh), the Japan Public Health Center-based Prospective Study (JPHC), the Korean Multi-center Cancer Cohort Study (KMCC), and the Mumbai Cohort Study (MCS, India). The cohorts represented over 340,000 participants.

Mean exposures to PM_2.5 ranged from 8 to 58 μg/m³. Mean exposures to NO₂ ranged from 7 to 23 ppb. For PM_2.5, a positive, borderline nonsignificant relationship was observed between PM_2.5 and cardiovascular mortality. Other relationships with PM_2.5 tended toward the null in meta-analysis. For NO₂, an overall positive relationship was observed between exposure to NO₂ and all cancers and lung cancer. A borderline association between NO₂ and nonmalignant lung disease was also observed. The findings within individual cohorts remained consistent across a variety of subgroups and alternative analyses, including two-pollutant models.

Conclusions: In a pooled examination of cohort studies across Asia, ambient PM_2.5 exposure appears to be associated with an increased risk of cardiovascular mortality and ambient NO₂ exposure is associated with an increased cancer (and lung cancer) mortality. This project has shown that satellite-derived models of pollution can be used in examinations of mortality risk in areas with either incomplete or missing air pollution monitoring.

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亚洲队列分析中的环境空气污染与全因和特定原因死亡率。

导言：目前人们对环境空气污染不良影响的了解大多来自空气污染水平相对较低的高收入地区的研究。本项目旨在研究几个亚洲队列中暴露于环境空气污染（根据卫星模型预测）与全因和特定原因死亡率之间的关系：方法：从亚洲队列联合会（ACC）招募队列。利用全球卫星衍生模型，对参与者的地理编码住所进行了空气动力直径为 2.5 μm 或更小的环境颗粒物（PM2.5）和二氧化氮（NO2）水平分配，并将其分配到注册年份（或最接近的可用年份）。在对常见混杂因素进行调整后，利用 Cox 比例危险模型确定了环境暴露与死亡率之间的关系。生成了单污染物和双污染物模型。对模型的稳健性进行了评估，并分别计算了每个队列的危险比，然后通过随机效应荟萃分析将危险比合并，得出集合风险估计值：来自 ACC 的六项队列研究参与了研究：社区癌症筛查计划（CBCSCP，台湾）、戈勒斯坦队列研究（Golestan Cohort Study，伊朗）、砷的健康影响纵向研究（HEALS，孟加拉国）、日本公共卫生中心前瞻性研究（JPHC）、韩国多中心癌症队列研究（KMCC）和孟买队列研究（MCS，印度）。PM2.5的平均暴露量为8至58微克/立方米。二氧化氮的平均暴露量为 7 至 23 ppb。就 PM2.5 而言，PM2.5 与心血管死亡率之间存在一种正向的、边缘不显著的关系。在荟萃分析中，与 PM2.5 的其他关系趋向于无效。就二氧化氮而言，二氧化氮暴露与所有癌症和肺癌之间总体上呈正相关。此外，还观察到二氧化氮与非恶性肺部疾病之间存在边缘关系。在各种分组和替代分析（包括双污染物模型）中，各个队列的研究结果保持一致：结论：在对亚洲各地队列研究的汇总检查中，环境 PM2.5 暴露似乎与心血管死亡风险增加有关，而环境 NO2 暴露则与癌症（和肺癌）死亡率增加有关。该项目表明，在空气污染监测不完整或缺失的地区，可以利用卫星污染模型来研究死亡风险。

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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Research report (Health Effects Institute)

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