中国农村室内和室外来源 PM2.5 暴露的氧化潜力。
The oxidative potential of PM2.5 exposures from indoor and outdoor sources in rural China.
机构信息
Department of Epidemiology, Biostatistics and Occupational Health, McGill University, Montréal, Québec, Canada; Institute for Health and Social Policy, McGill University, Montréal, Québec, Canada.
Environmental Chemistry and Technology Program, University of Wisconsin, Madison, WI, USA; Wisconsin State Laboratory of Hygiene, University of Wisconsin, Madison, WI, USA.
出版信息
Sci Total Environ. 2016 Nov 15;571:1477-89. doi: 10.1016/j.scitotenv.2016.06.231. Epub 2016 Jul 19.
BACKGROUND
Airborne particulate matter (PM) is a widespread environmental exposure and leading health risk factor. The health effects of PM may be mediated by its oxidative potential; however, the combustion and non-combustion sources and components of PM responsible for its oxidative potential are poorly understood, particularly in low- and middle-income rural settings where coal and biomass burning for cooking and heating contribute to PM exposure.
METHODS
We measured 24-h personal exposures to fine particulate matter (PM2.5) of 20 rural women in northern (Inner Mongolia) and southern (Sichuan) Chinese provinces who used solid fuels (i.e., coal, biomass). PM2.5 exposures were characterized for mass, black carbon, water-soluble organic carbon, major water-soluble ions, and 47 elements. The oxidative potential of PM2.5 exposures was measured using acellular (dithiothreitol-based) and cellular (macrophage-based) assays. We performed factor and correlation analyses using the chemical components of PM2.5 to identify sources of exposure to PM2.5 and their chemical markers. Associations between oxidative potential and chemical markers for major sources of PM2.5 exposure were assessed using linear regression models.
RESULTS
Women's geometric mean PM2.5 exposures were 249μgm(-3) (range: 53.9-767) and 83.9μgm(-3) (range: 73.1-95.5) in Inner Mongolia and Sichuan, respectively. Dust, biomass combustion, and coal combustion were identified as the major sources of exposure to PM2.5. Markers for dust (iron, aluminum) were significantly associated with intrinsic oxidative potential [e.g., one interquartile range increase in iron (ppm) was associated with an 85.5% (95% CI: 21.5, 149) increase in cellular oxidative potential (μgZymosanmg(-1))], whereas markers for coal (arsenic, non-sulfate sulfur) and biomass (black carbon, cadmium) combustion were not associated with oxidative potential.
CONCLUSIONS
Dust was largely responsible for the intrinsic oxidative potential of PM2.5 exposures of rural Chinese women, whereas biomass and coal combustion were not significantly associated with intrinsic oxidative potential.
背景
空气中的颗粒物(PM)是一种广泛存在的环境暴露因素,也是主要的健康风险因素。PM 的健康影响可能与其氧化潜能有关;然而,导致其氧化潜能的 PM 的燃烧和非燃烧来源和成分仍知之甚少,特别是在使用煤炭和生物质燃烧进行烹饪和取暖的低收入和中等收入农村地区。
方法
我们测量了 20 名居住在中国北方(内蒙古)和南方(四川)农村地区、使用固体燃料(即煤炭、生物质)的女性 24 小时个人细颗粒物(PM2.5)暴露量。PM2.5 暴露量的特征包括质量、黑碳、水溶性有机碳、主要水溶性离子和 47 种元素。使用非细胞(基于二硫苏糖醇)和细胞(基于巨噬细胞)测定法测量 PM2.5 暴露的氧化潜能。我们使用 PM2.5 的化学成分进行因子和相关性分析,以确定 PM2.5 暴露的来源及其化学标记物。使用线性回归模型评估主要 PM2.5 暴露源的氧化潜能与化学标记物之间的相关性。
结果
女性 PM2.5 暴露的几何平均值分别为 249μg/m3(范围:53.9-767)和 83.9μg/m3(范围:73.1-95.5),分别来自内蒙古和四川。尘埃、生物质燃烧和煤炭燃烧被确定为 PM2.5 暴露的主要来源。尘埃(铁、铝)的标志物与内在氧化潜能显著相关[例如,铁(ppm)的一个四分位间距增加与细胞氧化潜能(μgZymosan/mg-1)增加 85.5%(95%CI:21.5,149)有关],而煤炭(砷、非硫酸盐硫)和生物质(黑碳、镉)燃烧的标志物与氧化潜能无关。
结论
尘埃是造成中国农村女性 PM2.5 暴露内在氧化潜能的主要因素,而生物质和煤炭燃烧与内在氧化潜能没有显著相关性。
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