[Determination of phenoxyacetic herbicides, metabolites of organophosphorus and pyrethroid pesticides in human urine using solid phase extraction coupled with ultra-performance liquid chromatography-tandem mass spectrometry].

IF 1.2 4区 化学 Q4 CHEMISTRY, ANALYTICAL
Xu Zhang, Lin-Xue Han, Tian Qiu, Xiao-Jian Hu, Ying Zhu, Yan-Wei Yang
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引用次数: 0

Abstract

Pesticides are widely used in most agricultural areas to protect food crops but adversely affect ecosystems and human beings. Pesticides have attracted great public concern due to their toxic properties and ubiquitous occurrence in the environment. China is one of the largest users and producers of pesticides globally. However, limited data are available on pesticide exposure in humans, which warrants a method for quantification of pesticides in human samples. In the present study, we validated and developed a comprehensive and sensitive method for the quantification of two phenoxyacetic herbicides, two metabolites of organophosphorus pesticides and four metabolites of pyrethroid pesticides in human urine using 96-well plate solid phase extraction (SPE) coupled with ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS). For this purpose, a systematic optimization of the chromatographic separation conditions and MS/MS parameters was conducted. Six solvents were optimized for the extraction and clean-up of human urine samples. The targeted compounds in the human urine samples were well separated within 16 min in one analytical run. A 1 mL aliquot of human urine sample was mixed with 0.5 mL sodium acetate buffer (0.2 mol/L) and hydrolyzed by β-glucuronidase enzyme at 37 ℃ overnight. The eight targeted analytes were extracted and cleaned using an Oasis HLB 96-well solid phase plate and eluted with methanol. The separation of the eight target analytes was performed on a UPLC Acquity BEH C18 column (150 mm×2.1 mm, 1.7 μm) with gradient elution using 0.1% (v/v) acetic acid in acetonitrile and 0.1% (v/v) acetic acid in water. The analytes were identified using the multiple reaction monitoring (MRM) mode under negative electrospray ionization (ESI-) and quantified by isotope-labelled analogs. Para-nitrophenol (PNP), 3,5,6-tricholor-2-pyridinol (TCPY) and cis-dichlorovinyl-dimethylcyclopropane carboxylic acid (cis-DCCA) exhibited good linearities ranging from 0.2 to 100 μg/L, and 3-phenoxy benzoic acid (3-PBA), 4-fluoro-3-phenoxy benzoic acid (4F-3PBA), 2,4-dicholorphenoxyacetic acid (2,4-D), trans-dichlorovinyl-dimethylcyclopropane carboxylic acid (trans-DCCA) and 2,4,5-tricholorphenoxyacetic acid (2,4,5-T) showed linearity ranging from 0.1 to 100 μg/L with correlation coefficients all above 0.9993. Method detection limits (MDLs) and method quantification limits (MQLs) of targeted compounds were in the range of 0.02 to 0.07 μg/L and 0.08 to 0.2 μg/L, respectively. The spiked recoveries of target compounds at three levels of 0.5, 5 and 40 μg/L were 91.1% to 110.5%. The inter- and intra-day precisions of targeted analytes were 2.9% to 7.8% and 6.2% to 10%, respectively. This method was applied to the analysis of 214 human urine samples across China. The results showed that all the targeted analytes, except 2,4,5-T, were detected in human urine. The detection rates of TCPY, PNP, 3-PBA, 4F-3PBA, trans-DCCA, cis-DCCA, and 2,4-D were 98.1%, 99.1%, 94.4%, 2.80%, 99.1%, 63.1% and 94.4%, respectively. The median concentration of targeted analytes in a decreasing order were: 2.0 μg/L (TCPY), 1.8 μg/L (PNP), 0.99 μg/L (trans-DCCA), 0.81 μg/L (3-PBA), 0.44 μg/L (cis-DCCA), 0.35 μg/L (2,4-D) and below MDLs (4F-3PBA ). For the first time, we developed a method to extract and purify specific biomarkers of pesticides from human samples based on offline 96-well SPE. This method has the advantages of simple operation, high sensitivity, and high accuracy. Moreover, up to 96 human urine samples were analyzed in one batch. It is suitable for the determination of eight specific pesticides and their metabolites in large sample sizes.

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[固相萃取-超高效液相色谱-串联质谱法测定人体尿液中的苯氧乙酸除草剂、有机磷和拟除虫菊酯农药代谢物]。
大多数农业地区广泛使用杀虫剂来保护粮食作物,但却对生态系统和人类造成不利影响。由于农药的毒性和在环境中无处不在的存在,农药引起了公众的极大关注。中国是全球最大的农药使用国和生产国之一。然而,有关人类农药暴露的数据有限,因此需要一种方法来定量检测人体样本中的农药。本研究采用 96 孔板固相萃取-超高效液相色谱-串联质谱(UPLC-MS/MS)技术,对人体尿液中 2 种苯氧乙酸类除草剂、2 种有机磷农药代谢物和 4 种拟除虫菊酯农药代谢物进行了全面、灵敏的定量分析。为此,对色谱分离条件和 MS/MS 参数进行了系统优化。针对人体尿液样本的提取和净化,对六种溶剂进行了优化。在一次分析运行中,人体尿液样本中的目标化合物在 16 分钟内得到了很好的分离。将 1 mL 人尿样与 0.5 mL 醋酸钠缓冲液(0.2 mol/L)混合,在 37 ℃ 下用β-葡糖醛酸酶水解过夜。使用 Oasis HLB 96 孔固相板提取和净化八种目标分析物,并用甲醇洗脱。八种目标分析物在 UPLC Acquity BEH C18 色谱柱(150 mm×2.1 mm, 1.7 μm)上分离,使用 0.1% (v/v) 乙酸乙腈和 0.1% (v/v) 乙酸水溶液进行梯度洗脱。分析物在负电喷雾电离(ESI-)条件下采用多反应监测(MRM)模式进行鉴定,并通过同位素标记的类似物进行定量。对硝基苯酚(PNP)、3,5,6-三色-2-吡啶醇(TCPY)和顺式-二氯乙烯基-二甲基环丙烷羧酸(cis-DCCA)在 0.2至100微克/升,3-苯氧基苯甲酸(3-PBA)、4-氟-3-苯氧基苯甲酸(4F-3PBA)、2,4-二氯苯氧基乙酸(2,4-D)、反式-二氯乙烯基-二甲基环丙烷羧酸(反式-DCCA)和2,4,5-三氯苯氧基乙酸(2,4,5-T)的线性范围为0.1 至 100 μg/L,相关系数均高于 0.9993。目标化合物的方法检出限(MDL)和方法定量限(MQL)分别为 0.02 至 0.07 μg/L 和 0.08 至 0.2 μg/L。在 0.5、5 和 40 μg/L 三个添加水平下,目标化合物的加标回收率为 91.1% 至 110.5%。目标分析物的日间和日内精密度分别为 2.9% 至 7.8% 和 6.2% 至 10%。该方法应用于全国 214 份人体尿液样本的分析。结果表明,除 2,4,5-T外,所有目标分析物均能在人体尿液中检出。TCPY、PNP、3-PBA、4F-3PBA、反式-DCCA、顺式-DCCA 和 2,4-D 的检出率分别为 98.1%、99.1%、94.4%、2.80%、99.1%、63.1% 和 94.4%。目标分析物的浓度中值依次为2.0 μg/L(TCPY)、1.8 μg/L(PNP)、0.99 μg/L(反式-DCCA)、0.81 μg/L(3-PBA)、0.44 μg/L(顺式-DCCA)、0.35 μg/L(2,4-D)和低于 MDL(4F-3PBA)。我们首次开发了一种基于离线 96 孔 SPE 从人体样本中提取和纯化特定农药生物标记物的方法。该方法具有操作简单、灵敏度高、准确度高等优点。此外,该方法一次最多可分析 96 份人体尿样。该方法适用于大量样品中八种特定农药及其代谢物的测定。
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来源期刊
色谱
色谱 CHEMISTRY, ANALYTICAL-
CiteScore
1.30
自引率
42.90%
发文量
7198
期刊介绍: "Chinese Journal of Chromatography" mainly reports the basic research results of chromatography, important application results of chromatography and its interdisciplinary subjects and their progress, including the application of new methods, new technologies, and new instruments in various fields, the research and development of chromatography instruments and components, instrument analysis teaching research, etc. It is suitable for researchers engaged in chromatography basic and application technology research in scientific research institutes, master and doctoral students in chromatography and related disciplines, grassroots researchers in the field of analysis and testing, and relevant personnel in chromatography instrument development and operation units. The journal has columns such as special planning, focus, perspective, research express, research paper, monograph and review, micro review, technology and application, and teaching research.
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