水洗脱液移样制备-水流动相HPLC-DAD法监测牛奶中磺胺残留量

N. Furusawa
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引用次数: 0

摘要

虽然可以肯定的是,近年来用于预防和治疗牲畜动物疾病的各种兽药有助于动物产品的稳定生产,但另一方面,这些药物的过度使用或滥用令人深感关切,因为它可能导致它们出现在供人类食用的动物源性食品中。为确保消费者获得动物源性食品的安全,食品法典委员会规定了兽药的最大残留限量(MRLs)。由于动物源性食品中兽药的检测是保证食品安全的一项重要的特定活动,因此目前需要一种经过验证的检测目标药物的分析方法。为了应对目前国际动物产品贸易的扩大和多样化,制定国际统一的分析方法(=通用标准方法)来确定动物产品中的兽药残留,对于保证这些食品的公平国际贸易和确保消费者的食品安全至关重要。不考虑工业化国家和发展中国家,食品中残留监测的最佳统一分析方法必须快速、简单、可靠、廉价,并且能够量化动物产品中低于目标药物MRL浓度的残留,并且必须对环境和分析人员不造成危害。虽然文献中描述了几种定量食品中兽药的方法,但这些方法有三个主要缺点:1)制样操作复杂,劳动强度大,耗时耗力,不允许大量样品的测定,重现性低;2)有机溶剂被用作萃取溶剂、净化洗脱液和/或LC流动相,无一例外——与这些溶剂相关的风险超出了对人类和野生动物健康的直接影响,还会影响我们所居住的环境和生态系统。就环境保护、人类健康和经济而言,消除有机溶剂的使用是一个重要目标;3)检测/鉴定基于LC-MS或-MS/MS - LC-MS/MS系统可用的设施仅限于部分工业国家,因为这些非常昂贵,而且方法使用复杂和特定。在许多实验室,特别是在发展中国家,无法进行常规分析。目前还没有找到满足上述要求的最佳方法。本文介绍了一种在无使用有机溶剂条件下快速、简便、小样本制备及等容水流动相高效液相色谱法测定牛奶中磺胺二胺(SDD)的方法,并将其作为一种国际统一的动物源性食品常规残留监测的最佳技术。这里选择的SDD是世界上最常用的兽药之一,对几种磺胺类药物只有食品法典规定的MRL(牛奶中SDD的MRL为0.0025 μg/mL)。牛奶含有平衡的蛋白质、脂肪和碳水化合物,是一种不可缺少的食物,因为它便宜且容易获得。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Pipetting Sample Preparation with Water Eluent followed by Water Mobile Phase HPLC-DAD Analysis for Residual Monitoring of Sulfadimidine in Milk
While it is certain that various veterinary drugs used for the prevention and treatment of livestock animal diseases contribute to the stable production of animal products in recent years, on the other hand, the overuse or misuse of these drugs is of great concern because it can result in their presence in animal-derived foods for human consumption.To assure the safety of animal-derived foods for the consumer, Codex Aliamentarius sets maximum residue limits (MRLs) for veterinary drugs.  Because determinations for veterinary drugs in the animal-derived foods are therefore an important specific activity to guarantee food safety, the validated analytical method for the determining target drugs are presently required. In answer to the present expansion and diversification in the international animal product trade, the development of international harmonized analytical methods (= universal standard methods) to determine veterinary drug residues in animal products is essential to guarantee equitable international trade in these foods and ensure food safety for consumers.  Without regard for industrial nations and developing countries, the optimal harmonized analytical method for residue monitoring in foods must be quick, easy, reliable, inexpensive, and capable of quantifying residues at concentrations less than the target drug’s MRL in animal products and must cause no harm to the environment and analyst. Although several methods have been described in the literature for quantifying veterinary drugs in foods, these methods have three crucial drawbacks as follows: 1) the sample preparation operations are complicated and labor intensive, which are time-and cost-consuming, do not permit the determination of large number of samples, and can give low reproducibility; 2) organic solvents are used as extraction solvents, purification eluent, and/or as LC mobile phases without fail -Risk associated with these solvents extend beyond direct implications for the health of humans and wildlife to affect our environment and the ecosystem in which we all reside.  Eliminating the use of organic solvents is an important goal in terms of environmental conservation, human health and the economy; 3)the detections/identifications are based on LC-MS or -MS/MS - The facilities that LC-MS/MS system is available are limited to part of industrial nations because these are hugely expensive, and the methodologies use complex and specific.  These are unavailable in a lot of laboratories for routine analysis, particularly in developing countries. No optimal method that satisfies the aforementioned requirements has yet been identified. As an optimal technique that can be recommended as an international harmonized analytical method for the routine residue monitoring in animal-derived foods, this paper describes a quick, easy, and small-scale sample preparation followed by an isocratic water mobile phase HPLC method for determining sulfadimidine (SDD) in cow’s milk under no-use organic solvent conditions. The SDD selected here is one of the most frequently used veterinary drugs worldwide, and has only the Codex’s MRL (0.0025 μg/mL for SDD in milk) set for several kinds of sulfonamides.Cow’s milk contains a good balance of protein, fat, and carbohydrate, is an indispensable food because it is inexpensive and readily available.
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