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采用 QuEChERS 提取法对人血清和血浆中的痕量有机化学品进行靶向和非靶向检测与特征分析。

Targeted and Nontargeted Detection and Characterization of Trace Organic Chemicals in Human Serum and Plasma Using QuEChERS Extraction.

机构信息

School of Engineering, Brown University, Providence, Rhode Island 02912, USA.

Department of Environmental Toxicology, University of California, Davis, Davis, California 95616, USA.

出版信息

Toxicol Sci. 2021 Dec 28;185(1):77-88. doi: 10.1093/toxsci/kfab121.

DOI:10.1093/toxsci/kfab121
PMID:34668567
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8714361/
Abstract

Humans are exposed to a broad range of organic chemicals. Although targeted gas chromatography mass spectrometry techniques are used to quantify a limited number of persistent organic pollutants and trace organic contaminants in biological samples, nontargeted, high-resolution mass spectrometry (HRMS) methods assess the human exposome more extensively. We present a QuEChERS extraction for targeted and nontargeted analysis of trace organic contaminants using HRMS and compare this method to a traditional, cartridge-based solid-phase extraction (SPE). Following validation using reference and spiked serum samples, the method was applied to plasma samples (n = 75) from the Prospective investigation of Obesity, Energy, and Metabolism (POEM) study. We quantified 44 analytes using targeted analysis and 6247 peaks were detected using the nontargeted approach. Over 90% of targeted analytes were at least 90% recovered using the QuEChERS method in spiked serum samples. In nontargeted analysis, 84% of the peaks were above the method detection limit with area counts up to 3.0 × 105 times greater using the QuEChERS method. Of the targeted compounds, 88% were also identified in the nontargeted analysis. We categorized the 4212 chemicals assigned an identity in using EPA's CompTox Dashboard and 1076 chemicals were found in at least one list. The category with the highest number of chemicals was "androgen or estrogen receptor activity." The findings demonstrate that a QuEChERS technique is suitable for both targeted and nontargeted analysis of trace organic contaminants in biological samples.

摘要

人类会接触到广泛的有机化学物质。虽然靶向气相色谱-质谱联用技术被用于定量分析生物样本中有限数量的持久性有机污染物和痕量有机污染物,但非靶向、高分辨率质谱 (HRMS) 方法可以更广泛地评估人类暴露组。我们提出了一种基于 QuEChERS 的提取方法,用于使用 HRMS 进行痕量有机污染物的靶向和非靶向分析,并将该方法与传统的基于柱的固相萃取 (SPE) 进行了比较。在使用参考和加标血清样本进行验证后,该方法被应用于前瞻性肥胖、能量和代谢研究 (POEM) 中的血浆样本 (n = 75)。我们使用靶向分析定量了 44 种分析物,使用非靶向方法检测到了 6247 个峰。在加标血清样本中,超过 90%的靶向分析物使用 QuEChERS 方法的回收率至少为 90%。在非靶向分析中,84%的峰超过方法检测限,使用 QuEChERS 方法的峰面积计数高达 3.0×105 倍。在靶向化合物中,88%也在非靶向分析中被鉴定出来。我们使用 EPA 的 CompTox 仪表板对 4212 种被分配身份的化学品进行了分类,在至少一个列表中发现了 1076 种化学品。化学品数量最多的类别是“雄激素或雌激素受体活性”。研究结果表明,QuEChERS 技术适合于生物样本中痕量有机污染物的靶向和非靶向分析。

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