[针对植物中 27 种典型药物和个人护理产品的多残留检测方法的开发及其在芽菜中的迁移模式分析]。

IF 1.2 4区 化学 Q4 CHEMISTRY, ANALYTICAL 色谱 Pub Date : 2023-05-08 DOI:10.3724/SP.J.1123.2022.09017
Yong-Fu Zeng, Mei-Fang Chen, Yu Shao, Yong-Huan Yan, Hai-Chao Zhang, Jing Wang, Lian-Feng Ai, Wei-Jun Kang
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引用次数: 0

摘要

建立了一种基于超高效液相色谱-串联质谱的分析方法,用于同时测定植物中27种药物和个人护理品(PPCP)的残留量。采用 HLB 萃取柱对植物中的 PPCPs 进行富集和净化,采用 BEH C18 色谱柱(100 mm×2.1 mm, 1.7 μm)分离,以 0.1% 甲酸水-乙腈为流动相进行梯度洗脱。在正离子多重反应监测(MRM)模式下,采用电喷雾离子化质谱检测 PPCPs。植物中 27 种 PPCPs 的检出限和定量限分别为 0.01-0.30 μg/kg 和 0.03-0.98 μg/kg。线性关系良好,测定系数 (r2) >0.99。加标回收率为 80.8% 至 122.3%,相对标准偏差(RSD)为 1.0% 至 9.9%。随后,该方法被用于研究在不同浓度的 PPCPs 中生长的芽苗菜。在 PPCPs 浓度较低的培养基中生长的芽苗菜共检测到 10 种 PPCPs,在 PPCPs 浓度中等的培养基中生长的芽苗菜共检测到 13 种 PPCPs,在 PPCPs 浓度较高的培养基中生长的芽苗菜共检测到 19 种 PPCPs。这些结果表明,在受 PPCPs 污染的水体中生长的植物或用受 PPCPs 污染的水灌溉的植物吸收并积累了这些物质,植物吸收的 PPCPs 数量和类型与外部环境中的 PPCPs 水平密切相关。对不同植物组织中 PPCPs 含量的分析表明,PPCPs 在植物组织中的总体分布为根>茎>叶。血西布曲明的组织分布为叶片>茎>根,而格列本脲的组织分布为根>叶片>茎;这些结果表明了 PPCPs 在植物体内的分布差异。计算 PPCPs 在植物中的转移因子(TF)表明,不同 PPCPs 的转移性存在显著差异,血西布曲明的转移因子=2.34,氯西布曲明的转移因子=1.25。结果表明,在植物体内迁移的药物中,血莫司布曲明和氯司布曲明在芽中的迁移能力最强,其次是尼卡地平和马来酸氯苯那敏,而金刚烷胺、N-单去甲西布曲明、卡马西平和氟甲喹的迁移能力最弱。这些化合物一旦被吸收,就会转移到茎和/或叶中,并在那里积累,污染其他植物器官,造成潜在危害。因此,在今后的研究中应格外关注高西布曲明和氯西布曲明等容易在植物体内迁移的 PPCPs。该方法前处理简单、灵敏准确,可广泛应用于植物样品中PPCP残留的检测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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[Development of a multi-residue detection method for 27 typical pharmaceuticals and personal-care products in plants and analysis of their migration patterns in sprouts].

An analytical method based on ultra-performance liquid chromatography-tandem mass spectrometry was developed for the simultaneous determination of 27 pharmaceutical and personal-care product (PPCP) residues in plants. The enrichment and cleanup of PPCPs in plants were achieved using an HLB extraction column, and the separation was performed on a BEH C18 column (100 mm×2.1 mm, 1.7 μm) with 0.1% formic acid water-acetonitrile as the mobile phase via gradient elution. PPCPs were detected with electrospray ionization mass spectrometry in positive-ion multiple-reaction monitoring (MRM) mode. The limits of detection and quantification of the 27 PPCPs in plants were 0.01-0.30 μg/kg and 0.03-0.98 μg/kg, respectively. Good linearities were observed with coefficients of determination (r2) >0.99. The spiked recoveries were between 80.8% and 122.3% with relative standard deviations (RSDs) between 1.0% and 9.9%. The method was subsequently used to study sprouts grown in different concentrations of PPCPs. A total of 10 PPCPs were detected in sprouts grown in medium with a low concentration PPCPs, 13 PPCPs were detected in sprouts grown in medium with a moderate concentration of PPCPs, and 19 PPCPs were detected in sprouts grown in medium with a high concentration of PPCPs. These results showed that plants grown in water bodies contaminated with PPCPs or irrigated with water contaminated with PPCPs absorbed and accumulated these substances and that the amount and type of PPCPs absorbed by plants were closely related to the levels of PPCPs in the external environment. Analysis of the contents of PPCPs in different plant tissues revealed a general distribution of root>stem>leaf. Haemosibutramine showed a tissue distribution of leaf>stem>root, while glibenclamide showed a distribution of root>leaf>stem; these results revealed differences in the distribution of PPCPs in plants. Calculation of the transfer factor (TF) of the PPCPs in plants demonstrated significant differences in the transferability of different PPCPs, with TF=2.34 for haemosibutramine and TF=1.25 for chlorosibutramine. The results showed that among the drugs that migrated in plants, haemonosibutramine and chlorosibutramine had the strongest migration ability in sprouts, followed by nicardipine and chlorpheniramine maleate, and amantadine, N-monodesmethyl sibutramine, carbamazepine and flumequine had the weakest migration ability. Once absorbed, these compounds were transferred to the stems and/or leaves, where they accumulate and cause potential harm by contaminating other plant organs. Therefore, PPCPs such as homosibutramine and chlorosibutramine, which easily migrate in plants, should be given extra attention in future studies. The method is simple in pre-treatment, sensitive and accurate, and can be widely applied to the detection of PPCP residues in plant samples.

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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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