超高效液相色谱-串联质谱法测定饲料中的二氢吡啶

doi:10.3864/j.issn.0578-1752.2018.09.017

摘要/Abstract

摘要： 【目的】二氢吡啶是一种新型的饲料添加剂，具有促进动物生长、提高饲料利用率、改善肉质等功效，目前已在畜牧生产中得到广泛应用。然而，二氢吡啶并不是允许使用的药物饲料添加剂，其在饲料中高水平添加所带来的畜产品中二氢吡啶残留可引起敏感人群严重的低血压反应。央视3.15晚会曝光了部分饲料企业违规使用二氢吡啶、硫酸黏杆菌素、喹乙醇等兽药，引起社会的广泛关注和政府的高度重视，因而亟需建立饲料中二氢吡啶的检测方法，为饲料企业合理用药和政府监管提供必要的技术支撑。【方法】采用UPLC上常用的BEH C₁₈色谱柱，分别使用甲醇-水、乙腈-水、甲醇-0.1%甲酸、乙腈-0.1%甲酸作为流动相，优化了不同组成和比例流动相对色谱分离和质谱电离的影响。在正离子模式下进行母离子扫描，确定准分子离子，优化仪器毛细管电压、锥孔电压、雾化气流速等参数；然后进行子离子扫描，优化碰撞能量、驻留时间等参数，以确定丰度较高的两个子离子作为定性离子，并选择其中丰度最高的作为定量离子。比较甲醇、乙腈等不同溶剂对提取效率的影响，以及C₁₈、HLB、MCX和碱性氧化铝等固相萃取柱（SPE）对净化效果的影响，确定较优的样品前处理方法。【结果】优化确定了较佳的前处理方法：采用乙腈超声提取，提取液在60℃下氮气吹干，残余物用乙腈﹕水（1﹕9，v/v）复溶，过HLB固相萃取柱净化，用乙腈﹕水（9﹕1，v/v）洗脱，洗脱液过0.22 μm有机滤膜后上超高效液相色谱-串联质谱仪（UPLC-MS/MS）测定。采用电喷雾离子源，在多反应监测（MRM）模式下，二氢吡啶的[M+H]⁺为m/z 254，失去乙氧基（CH₃-CH₂-O⁺，46 Da）后产生主要的碎片离子m/z 208，m/z 208脱掉羰基（C=O，28 Da）产生碎片离子m/z 180，m/z 180进一步脱去乙酯基（CO-O-CH₂-CH₃，73 Da）后得到碎片离子m/z 108，因此本研究以离子对m/z 254＞208为定量离子，m/z 254＞180为定性离子。以0.1%的甲酸水-乙腈为流动相进行梯度洗脱，在10 min内完成了二氢吡啶的分离，且峰形尖锐，灵敏度高。二氢吡啶在0—500 μg·L^-1浓度范围内呈现良好的线性关系（R² ≥ 0.9992），根据20个空白样品的基线噪音，取其平均值，以信噪比（S/N）=3为检出限（LOD），S/N=10为定量限（LOQ），二氢吡啶的LOD、LOQ分别为10和50μg·kg^-1。在10、50和100 μg·kg^-1三个添加水平下，二氢吡啶的平均回收率为82.6%—101.0%，日内变异系数为0.8%—6.7%，日间变异系数为4.7%—9.2%。【结论】该方法操作简便、快速、稳定，适用于饲料中二氢吡啶的日常监测。

关键词: 超高效液相色谱, 串联质谱, 饲料, 二氢吡啶

Abstract: 【Objective】As a new kind of feed additive, diludine has been widely used in livestock production because it can promote the growth of animals, increase efficiency of the feed, and improve the meat quality. However, diludine is not allowed to use as a medical feed additive. The residues of diludine in animal origin foods may cause severe hypotensive reaction in the sensitive population. In the past World Consumer Rights Day, also known as 3.15, the national broadcaster China Central Television (CCTV) exposed parts of illegal use of veterinary drugs (e.g. diludine) in some of the feed companies, which draw extensive concerns of the society and the government. It is, therefore, of great importance to develop sensitive and reliable analytical methods to monitor diludine in feedstuffs in order to protect consumer rights and to provide technical support for government regulation.【Method】Chromatographic separation was achieved using a BEH C₁₈ column, and different mobile phases consisting of methanol-water, acetonitrile-water, methanol-0.1% formic acid, and acetonitrile-0.1% formic acid at different concentrations were optimized. In order to achieve the maximum sensitivity of ESI-MS/MS, direct infusion of standard solution was carried out in positive ionization mode to optimize the ESI source parameters (e.g. capillary voltage, cone voltage, and desolvation gas flow rate). Then dissociation with argon was induced and different collision energies and dwell times were compared in order to find the daughter ions, and the most abundant product ion was used as the quantification ion. In order to find the best sample preparation method, different extraction solvent (methanol and acetonitrile) and solid phase extraction (SPE) cartridges (C₁₈, HLB, MCX and alumina B) were optimized. 【Result】The optimized sample preparation procedures were conditioned as follows: Feed samples were extracted using acetonitrile and the supernatants were evaporated to dryness under a gentle stream of nitrogen at 60℃. The residues were re-dissolved with acetonitrile/water (1:9), and then cleaned up on HLB SPE cartridges. The target compounds were identified and quantitatively determined by ultra-performance liquid chromatography coupled with electrospray ionization (ESI) tandem mass spectrometry (UPLC-MS/MS) operated in multiple reaction monitoring mode (MRM). The molecular ion [M+H]+ of diludine is m/z 254, and the loss of –OCH₂CH₃ (46 Da) is found to be common and leads to the major daughter ion m/z 208. The elimination of –CO (28 Da) from the ion m/z 208 gives the fragment at m/z 180, and then a subsequent loss of –COOCH₂CH₃ (73 Da) leads to the fragment at m/z 108. Therefore, in this study, the quantitative ion was m/z 254＞208, while m/z 254＞180 was used for qualitative ion. Under the current optimized chromatographic conditions, each LC run was completed in 10 min. Good linearity was obtained in the ranges of 0-500 μg·L^-1, with linear coefficients (R²) higher than 0.9992. The limits of detection (LODs) and quantification (LOQs) which defined as the concentration with a signal-to-noise ratio (S/N) of 3 and 10, were 10 μg·kg^-1 and 50 μg·kg^-1, respectively. Average recoveries from three fortification levels (10, 50 and 100 μg·kg^-1) ranged between 82.6% and 101.0%, with relative standard deviations (RSD) lower than 9.2%. 【Conclusion】 The proposed method is fast, sensitive, and easy to perform, making it applicable for high-throughput daily monitoring.

Key words: ultra-performance liquid chromatography, tandem mass spectrometry, animal feeds, diludine

肖志明，王峻，索德成，魏书林，贾铮，刘成新，樊霞. 超高效液相色谱-串联质谱法测定饲料中的二氢吡啶[J]. 中国农业科学, 2018, 51(9): 1806-1814.

XIAO ZhiMing, WANG Jun, SUO DeCheng, WEI ShuLin, JIA Zheng, LIU ChengXin, FAN Xia. Quantitative Determination of Diludine in Animal Feeds by Ultra-Performance Liquid Chromatography-Tandem Mass Spectrometry[J]. Scientia Agricultura Sinica, 2018, 51(9): 1806-1814.

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