利用被动采样器描述外暴露组 - 使用不同可穿戴形式因素评估化学暴露的比较。

Characterizing the external exposome using passive samplers-comparative assessment of chemical exposures using different wearable form factors.

机构信息

Department of Environmental Health Sciences, Yale School of Public Health, New Haven, CT, USA.

Department of Chemical and Environmental Engineering, School of Engineering and Applied Science, Yale University, New Haven, CT, USA.

出版信息

J Expo Sci Environ Epidemiol. 2023 Jul;33(4):558-565. doi: 10.1038/s41370-022-00456-3. Epub 2022 Jul 15.

DOI:10.1038/s41370-022-00456-3

PMID:35840784

Abstract

BACKGROUND

Organic contaminants are released into the air from building materials/furnishings, personal care, and household products. Wearable passive samplers have emerged as tools to characterize personal chemical exposures. The optimal placement of these samplers on an individual to best capture airborne exposures has yet to be evaluated.

OBJECTIVE

To compare personal exposure to airborne contaminants detected using wearable passive air samplers placed at different positions on the body.

METHODS

Participants (n = 32) simultaneously wore four passive Fresh Air samplers, on their head, chest, wrist, and foot for 24 hours. Exposure to 56 airborne organic contaminants was evaluated using thermal desorption gas chromatography high resolution mass spectrometry with a targeted data analysis approach.

RESULTS

Distinct exposure patterns were detected by samplers positioned on different parts of the body. Chest and wrist samplers were the most similar with correlations identified for 20% of chemical exposures (Spearman's Rho > 0.8, p < 0.05). In contrast, the greatest differences were found for head and foot samplers with the weakest correlations across evaluated exposures (8% compounds, Spearman's Rho > 0.8, p < 0.05).

SIGNIFICANCE

The placement of wearable passive air samplers influences the exposures captured and should be considered in future exposure and epidemiological studies.

IMPACT STATEMENT

Traditional approaches for assessing personal exposure to airborne contaminants with active samplers presents challenges due to their cost, size, and weight. Wearable passive samplers have recently emerged as a non-invasive, lower cost tool for measuring environmental exposures. While these samplers can be worn on different parts of the body, their position can influence the type of exposure that is captured. This study comprehensively evaluates the exposure to airborne chemical contaminants measured at different passive sampler positions worn on the head, chest, wrist, and foot. Findings provide guidance on sampler placement based on chemicals and emission sources of interest.

摘要

背景

有机污染物从建筑材料/家具、个人护理和家用产品中释放到空气中。可穿戴式被动采样器已成为一种用于描述个人化学暴露的工具。然而，这些采样器在个体上的最佳放置位置以最佳捕捉空气中的暴露量仍有待评估。

目的

比较使用放置在身体不同位置的可穿戴式被动空气采样器检测到的个人空气污染物暴露情况。

方法

32 名参与者同时佩戴四个 Fresh Air 被动采样器，分别放置在头部、胸部、手腕和脚部，持续 24 小时。使用热解吸气相色谱-高分辨率质谱法对 56 种空气中有机污染物进行评估，并采用靶向数据分析方法。

结果

放置在身体不同部位的采样器检测到不同的暴露模式。胸部和手腕采样器最相似，鉴定出 20%的化学暴露具有相关性（Spearman's Rho > 0.8，p < 0.05）。相比之下，头部和脚部采样器之间的差异最大，评估暴露中相关性最弱（8%的化合物，Spearman's Rho > 0.8，p < 0.05）。

意义

可穿戴式被动空气采样器的放置位置会影响所捕获的暴露量，因此在未来的暴露和流行病学研究中应加以考虑。

影响

使用主动采样器评估空气中污染物的个人暴露存在成本高、体积大和重量大等挑战。可穿戴式被动采样器作为一种非侵入性、成本较低的测量环境暴露的工具，最近已经出现。虽然这些采样器可以佩戴在身体的不同部位，但它们的位置会影响所捕获的暴露类型。本研究全面评估了佩戴在头部、胸部、手腕和脚部的不同被动采样器位置所测量的空气中化学污染物暴露情况。研究结果为根据感兴趣的化学物质和排放源进行采样器放置提供了指导。

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利用被动采样器描述外暴露组 - 使用不同可穿戴形式因素评估化学暴露的比较。

Characterizing the external exposome using passive samplers-comparative assessment of chemical exposures using different wearable form factors.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

SIGNIFICANCE

IMPACT STATEMENT

背景

目的

方法

结果

意义

影响

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