Project 1: Prenatal Exposures to PAHs and Metals in an Impacted Community: Assessing Neurodevelopment Impacts and Tracing Metal Sources

项目 1：受影响社区中多环芳烃和金属的产前暴露：评估神经发育影响并追踪金属来源

• 批准号: 10353151
• 负责人: HEATHER M STAPLETON
• 金额: $ 31.37万
• 依托单位: DUKE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2000
• 资助国家: 美国
• 起止时间: 2000-06-01 至 2027-06-30
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/10353151
• 关键词: Abate; Address; Age; Area; Aromatic Polycyclic Hydrocarbons; Assessment tool; Awareness; Behavior assessment; Behavioral; Blood; Blood specimen; Cadmium; Chemicals; Child; Childhood; Chronic; Clinical assessments; Clupeidae; Cognitive; Communities; Complex; Data; Development; Dose; Effectiveness; Environmental Health; Epidemiologist; Exposure to; First Pregnancy Trimester; Follow-Up Studies; Geographic Locations; Goals; Hazardous Chemicals; Hazardous Substances; Health; House Dust; Human; Industrialization; Isotopes; Lead; Life; Longitudinal Studies; Measures; Metal exposure; Metals; Methods; Monitor; Neurotoxins; Outcome; Parents; Participant; Pathway interactions; Pattern; Perinatal Exposure; Persons; Population; Pregnancy; Pregnancy Trimesters; Pregnant Women; Prenatal care; Research; Research Personnel; Resolution; Resources; Risk; Role; Sampling; Scientist; Silicones; Site; Smoking; Soil; Source; Subgroup; Superfund; Surface; Techniques; Third Pregnancy Trimester; Toxicology; Tracer; Universities; Visit; Woman; blood lead; burden of illness; cognitive testing; cohort; developmental neurotoxicity; drinking water; economic impact; experimental study; exposure pathway; geochemistry; health disparity; indoor dust; insight; lead exposure; multidisciplinary; neurodevelopment; novel; organic contaminant; prenatal; prenatal exposure; remediation; sleep pattern; success; superfund site

Abstract Perinatal exposure to lead remains a highly relevant pediatric environmental health problem, despite tremendous awareness and remediation efforts. Even at low levels, exposure to lead adversely impacts neurodevelopment; however, children are not exposed to lead in isolation. Most children are chronically exposed to hundreds of chemicals. Recent studies have found that pregnant women and children living in some areas of Durham, NC have elevated exposures to both lead and cadmium. Our preliminary data demonstrate that lead and cadmium are also elevated in surface soils in some areas of Durham, as are the levels of polycyclic aromatic hydrocarbons (PAHs). Metals and PAHs also commonly co-occur in contaminated sites (e.g., Superfund Sites and Brownfields). Therefore, people living near these sites are exposed to mixtures of metals and PAHs simultaneously. While lead is a well-studied neurotoxicant, little research has been conducted to understand co- exposure to these compounds and their potential developmental impacts. The Duke University Superfund Research Center (DUSRC) seeks to better address this data gap and contribute new information and resources to better address potential health risks. Here we propose a biomedical project (Project 1) within the DUSRC to address prenatal exposure to mixtures of PAHs and metals in a community with known co-exposure. We hypothesize that prenatal exposure to metals and PAHs is associated with neurodevelopmental changes that are greater than the impacts of lead alone. We will first characterize exposures in a cohort of 400 pregnant women, leveraging resources available from an ongoing longitudinal study. Metals will be measured in maternal blood samples collected during prenatal care visits, while PAHs (and other organic contaminants) will be measured in silicone wristbands worn for a week in each trimester of pregnancy. Cognitive and behavioral assessments will be carried out with children during the first three years of life using a novel personal monitor and standard clinical assessments. Furthermore, we will use a novel geochemical isotopic tracing approach to identify the primary sources of lead in a subgroup of the cohort that has the highest levels of exposures. This project directly addresses Superfund Mandates 1, 2 and 3. It will use advanced techniques to investigate the effects of hazardous substances on human health, while also developing new methods to evaluate lead exposure risks and identifying the primary exposure pathway to support targeted exposure mitigation strategies.

摘要 围产期铅暴露仍然是一个高度相关的儿科环境健康问题，尽管巨大的， 提高认识和补救措施。即使是低水平的铅暴露，也会对神经发育产生不利影响; 然而，儿童并非孤立地接触铅。大多数儿童长期接触数百种 化学品最近的研究发现，居住在北卡罗来纳州达勒姆某些地区的孕妇和儿童 都暴露在铅和镉的环境中我们的初步数据表明铅和镉 在达勒姆的一些地区，表层土壤中的多环芳烃含量也有所升高， （多环芳烃）。金属和多环芳烃通常也同时存在于受污染的场地（例如，超级基金网站和 布朗菲尔德）。因此，居住在这些地点附近的人们暴露于金属和多环芳烃的混合物中 同步虽然铅是一种经过充分研究的神经毒物，但很少有研究来了解铅的共同作用。 暴露于这些化合物及其潜在的发育影响。杜克大学超级基金 研究中心（DUSRC）寻求更好地解决这一数据差距，并提供新的信息和资源 以更好地应对潜在的健康风险。在这里，我们提出了一个生物医学项目（项目1）在DUSRC， 解决产前暴露于多环芳烃和金属的混合物在一个社区与已知的共同暴露。我们 假设产前暴露于金属和多环芳烃与神经发育变化有关， 比单独使用铅的影响更大。我们将首先描述400名孕妇的暴露情况。 妇女，利用正在进行的纵向研究提供的资源。将在母体中测量金属 在产前检查期间收集的血液样本，而多环芳烃（和其他有机污染物）将被 在怀孕的每个三个月戴一周的硅胶腕带中测量。认知和行为 评估将在儿童生命的前三年使用一种新型的个人监测器进行 和标准临床评估。此外，我们将使用一种新的地球化学同位素示踪方法， 确定接触水平最高的一个分组中铅的主要来源。这 项目直接涉及超级基金任务1、2和3。它将使用先进的技术来调查 有害物质对人类健康的影响，同时还开发新的方法来评估铅暴露 风险和识别主要暴露途径，以支持有针对性的暴露缓解策略。