Global associations between long-term exposure to PM2.5 constituents and health: A systematic review and meta-analysis of cohort studies
Sujuan Chen, Di Liu, Lin Huang, Cui Guo, Xiaoke Gao, Zhiwei Xu, Yang Zhou, Yu Chen, Mengmeng Li, Jun Yang, Jun Yang
Abstract
Existing studies on the most impactful component remain controversial, hindering the optimization of future air quality standards that concerns particle composition. We aimed to summarize the health risk associated with PM 2.5 components and identify those components with the greatest health risk. We performed a meta-analysis to quantify the combined health effects of PM 2.5 components, and used the meta-smoothing to produce the pooled concentration-response (C-R) curves. Out of 8954 initial articles, 80 cohort studies met the inclusion criteria, including a total of 198.08 million population. The pooled C-R curves demonstrated approximately J-shaped association between total mortality and exposure to BC, and NO 3 − , but U-shaped and inverted U-shaped relationship with SO 4 2 − and OC , respectively. In addition, this study found that exposure to various elements, including BC, SO 4 2 − NO 3 − , NH 4 + , Zn, Ni, and Si, were significantly associated with an increased risk of total mortality, with Ni presenting the largest estimate. And exposure to NO 3 − , Zn, and Si was positively associated with an increased risk of respiratory mortality, while exposure to BC, SO 4 2 − , and NO 3 − showed a positive association with risk of cardiovascular mortality . For health outcome of morbidity, BC was notably associated with a higher incidence of asthma, type 2 diabetes and stroke. Subgroup analysis revealed a higher susceptibility to PM 2.5 components in Asia compared to Europe and North America, and females showed a higher vulnerability. Given the significant health effects of PM 2.5 components, governments are advised to introduce them in regional monitoring and air quality control guidelines. Environmental Implication PM 2.5 is a complex mixture of chemical components from various sources, and each component has unique physicochemical properties and uncertain toxicity, posing significant threat to public health. This study systematically reviewed cohort studies on the association between long-term exposure to 13 PM 2.5 components and the risk of morbidity and mortality. And we applied the meta-smoothing approach to establish the pooled concentration-response associations between PM 2.5 components and mortality globally. Our findings will provide strong support for PM 2.5 components monitoring and the improvement of air quality-related regulations. This will aid in helping to enhance health intervention strategies and mitigating public exposure to detrimental particulate matter .