Civil and Environmental Engineering , Georgia Institute of Technology , Atlanta , Georgia 30332 , United States.
Department of Chemistry , University of California Irvine , Irvine , California 92697 , United States.
Environ Sci Technol. 2019 Apr 16;53(8):4003-4019. doi: 10.1021/acs.est.8b03430. Epub 2019 Apr 3.
Oxidative stress is a potential mechanism of action for particulate matter (PM) toxicity and can occur when the body's antioxidant capacity cannot counteract or detoxify harmful effects of reactive oxygen species (ROS) due to an excess presence of ROS. ROS are introduced to the body via inhalation of PM with these species present on and/or within the particles (particle-bound ROS) and/or through catalytic generation of ROS in vivo after inhaling redox-active PM species (oxidative potential, OP). The recent development of acellular OP measurement techniques has led to a surge in research across the globe. In this review, particle-bound ROS techniques are discussed briefly while OP measurements are the focus due to an increasing number of epidemiologic studies using OP measurements showing associations with adverse health effects in some studies. The most common OP measurement techniques, including the dithiothreitol assay, glutathione assay, and ascorbic acid assay, are discussed along with evidence for utility of OP measurements in epidemiologic studies and PM characteristics that drive different responses between assay types (such as species composition, emission source, and photochemistry). Overall, most OP assays respond to metals like copper than can be found in emission sources like vehicles. Some OP assays respond to organics, especially photochemically aged organics, from sources like biomass burning. Select OP measurements have significant associations with certain cardiorespiratory end points, such as asthma, congestive heart disease, and lung cancer. In fact, multiple studies have found that exposure to OP measured using the dithiothreitol and glutathione assays drives higher risk ratios for certain cardiorespiratory outcomes than PM mass, suggesting OP measurements may be integrating the health-relevant fraction of PM and will be useful tools for future health analyses. The compositional impacts, including species and emission sources, on OP could have serious implications for health-relevant PM exposure. Though more work is needed, OP assays show promise for health studies as they integrate the impacts of PM species and properties on catalytic redox reactions into one measurement, and current work highlights the importance of metals, organic carbon, vehicles, and biomass burning emissions to PM exposures that could impact health.
氧化应激是颗粒物(PM)毒性的一种潜在作用机制,当身体的抗氧化能力无法抵消或解毒活性氧(ROS)的有害影响时,就会发生这种情况,因为ROS 过多。ROS 通过吸入 PM 进入体内,这些物质存在于颗粒上和/或颗粒内(颗粒结合的 ROS),或者通过吸入氧化还原活性 PM 物质后体内催化生成 ROS(氧化潜力,OP)。最近细胞外 OP 测量技术的发展导致了全球范围内的研究热潮。在这篇综述中,简要讨论了颗粒结合的 ROS 技术,而 OP 测量则是重点,因为越来越多的流行病学研究使用 OP 测量结果显示,在某些研究中与不良健康影响有关。讨论了最常见的 OP 测量技术,包括二硫苏糖醇测定法、谷胱甘肽测定法和抗坏血酸测定法,以及 OP 测量在流行病学研究中的应用和驱动不同测定类型之间反应的 PM 特性的证据(如物种组成、排放源和光化学)。总体而言,大多数 OP 测定法对金属如车辆排放源中的铜有反应。一些 OP 测定法对有机物有反应,特别是来自生物质燃烧等来源的光化学老化有机物。一些 OP 测量值与某些心肺终点有显著关联,如哮喘、充血性心力衰竭和肺癌。事实上,多项研究发现,使用二硫苏糖醇和谷胱甘肽测定法测量的 OP 暴露与某些心肺结果的风险比高于 PM 质量,这表明 OP 测量可能整合了 PM 中与健康相关的部分,并且将成为未来健康分析的有用工具。OP 的组成影响,包括物种和排放源,可能对与健康相关的 PM 暴露产生严重影响。尽管还需要做更多的工作,但 OP 测定法在健康研究中显示出了希望,因为它们将 PM 物种和特性对催化氧化还原反应的影响整合到一个测量中,并且当前的工作强调了金属、有机碳、车辆和生物质燃烧排放对可能影响健康的 PM 暴露的重要性。
