南加州出生队列中的缺血性胎盘疾病与 PM2.5 化学物质和氧化潜能标志物的关系

Environmental Research: Health Pub Date : 2024-05-24 DOI:10.1088/2752-5309/ad503b

Jonathan Liu, Qi Meng, Jiaqi Shen, Irish del Rosario, P. Lakey, Manabu Shiraiwa, Suzanne E Paulson, S. Weichenthal, Yifang Zhu, F. Oroumiyeh, Carla Janzen, Sherin U Devaskar, Michael Jerrett, Beate Ritz

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引用次数: 0

摘要

道路交通是颗粒物污染的一个重要来源，而接触颗粒物污染是导致与妊娠有关的健康后果的一个重要风险因素。交通相关空气污染（TRAP）暴露与不良妊娠结局之间关系的确切机制仍不清楚。我们的目的是评估刹车和轮胎磨损相关金属暴露与氧化潜能和缺血性胎盘疾病（IPD）之间的关系。我们从加利福尼亚州洛杉矶市 2016 年至 2019 年期间在加州大学洛杉矶分校寻求专业产前护理的妇女人群中收集了数据。对PM2.5、黑碳和PM2.5质量浓度的化学成分和氧化应激潜能的第一孕期暴露进行建模。具体测量包括刹车磨损示踪剂（钡）、轮胎磨损示踪剂（锌）以及基于金属浓度（KM-SUB-ELF ROS）或实验室检测（DTT损失、OH自由基形成）的氧化潜能标记。通过整合过滤器样本数据、低成本 PM2.5 传感器网络和土地利用数据，建立了暴露模型。我们使用逻辑回归法估算了空气污染暴露与 IPD 之间的关系，并对通过医疗记录和访谈评估的协变量进行了调整。按四分位数之间的比例计算，几率比（95% CI）如下：钡OR：1.7（1.1，2.7），锌OR：1.4（.86，2.4），氧化潜能标志物，包括模型以及通过DTT损失和OH形成测定的氧化潜能标志物（ORs范围为1.1-2.0）。PM2.5 和黑碳的效应大小低于大多数测量值（ORs：1.3-1.4）。与 PM2.5 质量和黑碳等传统测量方法相比，我们观察到 Ba 和氧化潜能标记物的效应大小更高。我们的研究结果表明了两个关键点：(i) 与制动器和轮胎磨损有关的金属（目前尚未受到管制）可能在TRAP与不良妊娠结局之间的关系中发挥作用；(ii) 减少尾气排放可能不足以保护孕妇免受TRAP的影响。

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Association of ischemic placental disease in a Southern California birth cohort and PM2.5 chemical species and oxidative potential markers

Road traffic is a significant source of particulate matter pollution, whose exposure is a significant risk factor in pregnancy-related health outcomes. The exact mechanisms behind the relationship between traffic-related air pollution (TRAP) exposure and adverse pregnancy outcomes remain unclear. We aim to assess the relationship between exposure to brake and tire wear-associated metals and oxidative potential and ischemic placental disease (IPD). Data were assembled from a population of women who sought specialized prenatal care at UCLA between 2016 and 2019 in Los Angeles, CA. Modeled first trimester exposures to chemical constituents and oxidative stress potential of PM2.5, black carbon, and PM2.5 mass concentration. Speciated measurements included tracers of brake wear (barium), tire wear (zinc), and oxidative potential markers based on metal concentrations (KM-SUB-ELF ROS) or laboratory assays (DTT loss, OH radical formation). Exposures were modeled by integrating data from filter samples, a low-cost PM2.5 sensor network, and land-use data. We used logistic regression to estimate the associations between air pollution exposures and IPD, adjusting for covariates assessed through medical records and interviews. Scaled to the interquartile range, odds ratios (95\% CI) were as follows: barium OR: 1.7 (1.1, 2.7), zinc OR: 1.4 (.86, 2.4), and oxidative potential markers, both modeled as well as measured through DTT loss and OH formation assays (ORs ranging from 1.1-2.0). Effect sizes for PM2.5 and black carbon were lower than most measurements (ORs: 1.3-1.4). We observe higher effect sizes with Ba and oxidative potential markers compared to traditional measurements such as PM2.5 mass and black carbon. Our findings suggest two key points: (i) metals associated with brake and tire wear, currently unregulated, may play a role in the relationship between TRAP and adverse pregnancy outcomes, and (ii) reducing tailpipe emissions may not be sufficient to protect pregnant women from TRAP.

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Environmental Research: Health

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