通过对爱达荷州邦克山超级基金场地血铅生物监测数据的回顾性分析来估算儿童的土壤/灰尘摄入量。

Estimating Children's Soil/Dust Ingestion Rates through Retrospective Analyses of Blood Lead Biomonitoring from the Bunker Hill Superfund Site in Idaho.

作者信息

von Lindern Ian, Spalinger Susan, Stifelman Marc L, Stanek Lindsay Wichers, Bartrem Casey

机构信息

TerraGraphics Environmental Engineering, Inc., Moscow, Idaho, USA.

出版信息

Environ Health Perspect. 2016 Sep;124(9):1462-70. doi: 10.1289/ehp.1510144. Epub 2016 Jan 8.

DOI:10.1289/ehp.1510144

PMID:26745545

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5010415/

Abstract

BACKGROUND

Soil/dust ingestion rates are important variables in assessing children's health risks in contaminated environments. Current estimates are based largely on soil tracer methodology, which is limited by analytical uncertainty, small sample size, and short study duration.

OBJECTIVES

The objective was to estimate site-specific soil/dust ingestion rates through reevaluation of the lead absorption dose-response relationship using new bioavailability data from the Bunker Hill Mining and Metallurgical Complex Superfund Site (BHSS) in Idaho, USA.

METHODS

The U.S. Environmental Protection Agency (EPA) in vitro bioavailability methodology was applied to archived BHSS soil and dust samples. Using age-specific biokinetic slope factors, we related bioavailable lead from these sources to children's blood lead levels (BLLs) monitored during cleanup from 1988 through 2002. Quantitative regression analyses and exposure assessment guidance were used to develop candidate soil/dust source partition scenarios estimating lead intake, allowing estimation of age-specific soil/dust ingestion rates. These ingestion rate and bioavailability estimates were simultaneously applied to the U.S. EPA Integrated Exposure Uptake Biokinetic Model for Lead in Children to determine those combinations best approximating observed BLLs.

RESULTS

Absolute soil and house dust bioavailability averaged 33% (SD ± 4%) and 28% (SD ± 6%), respectively. Estimated BHSS age-specific soil/dust ingestion rates are 86-94 mg/day for 6-month- to 2-year-old children and 51-67 mg/day for 2- to 9-year-old children.

CONCLUSIONS

Soil/dust ingestion rate estimates for 1- to 9-year-old children at the BHSS are lower than those commonly used in human health risk assessment. A substantial component of children's exposure comes from sources beyond the immediate home environment.

CITATION

von Lindern I, Spalinger S, Stifelman ML, Stanek LW, Bartrem C. 2016. Estimating children's soil/dust ingestion rates through retrospective analyses of blood lead biomonitoring from the Bunker Hill Superfund Site in Idaho. Environ Health Perspect 124:1462-1470; http://dx.doi.org/10.1289/ehp.1510144.

摘要

背景

土壤/灰尘摄入量是评估受污染环境中儿童健康风险的重要变量。目前的估计主要基于土壤示踪剂方法，该方法受到分析不确定性、样本量小和研究持续时间短的限制。

目的

通过使用来自美国爱达荷州邦克山采矿与冶金综合超级基金场地（BHSS）的新生物可利用性数据重新评估铅吸收剂量反应关系，来估计特定场地的土壤/灰尘摄入量。

方法

美国环境保护局（EPA）的体外生物可利用性方法应用于BHSS存档的土壤和灰尘样本。利用特定年龄的生物动力学斜率因子，我们将这些来源的生物可利用铅与1988年至2002年清理期间监测的儿童血铅水平（BLLs）相关联。使用定量回归分析和暴露评估指南来制定估计铅摄入量的候选土壤/灰尘来源分配方案，从而估计特定年龄的土壤/灰尘摄入量。这些摄入量估计值和生物可利用性估计值同时应用于美国EPA儿童铅综合暴露吸收生物动力学模型，以确定那些最接近观察到的BLLs的组合。

结果

土壤和室内灰尘的绝对生物可利用性平均分别为33%（标准差±4%）和28%（标准差±6%）。估计BHSS特定年龄的土壤/灰尘摄入量，6个月至2岁儿童为86 - 94毫克/天，2至9岁儿童为51 - 67毫克/天。

结论

BHSS 1至9岁儿童的土壤/灰尘摄入量估计值低于人类健康风险评估中常用的值。儿童接触的很大一部分来自直接家庭环境之外的来源。

引用

von Lindern I, Spalinger S, Stifelman ML, Stanek LW, Bartrem C. 2016.通过对爱达荷州邦克山超级基金场地血铅生物监测的回顾性分析估计儿童土壤/灰尘摄入量。环境健康展望124:1462 - 1470；http://dx.doi.org/10.1289/ehp.1510144。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0527/5010415/65c5a74c97dc/ehp.1510144.g001.jpg

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通过对爱达荷州邦克山超级基金场地血铅生物监测数据的回顾性分析来估算儿童的土壤/灰尘摄入量。

Estimating Children's Soil/Dust Ingestion Rates through Retrospective Analyses of Blood Lead Biomonitoring from the Bunker Hill Superfund Site in Idaho.

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