食品中的矿物油碳氢化合物:数据可靠吗?

S. Koster, Jesús Varela, R. Stadler, J. Moulin, C. Cruz-Hernandez, Johannes Hielscher, C. Lesueur, J. Roïz, Hervé Simian
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引用次数: 20

摘要

食品中含有矿物油碳氢化合物(MOH)的污染是一个严重的问题,在大多数情况下,需要在整个食品供应链中采取繁琐的缓解措施。今天的一个主要问题是实验室产生的结果的显著可变性。因此,本研究旨在更深入地了解商业实验室使用的分析程序,确定可能的差距并提出改进建议,以提高卫生部数据的可靠性,这是风险评估的一个重要先决条件。共有六种不同的食物基质,即婴儿配方奶粉、可可脂、可可粉、饼干、含饼干的水果婴儿食品、烤咖啡和磨碎咖啡,在实验室间进行了比较研究,并在专业人员进行的熟练程度测试框架内分析了一种植物油。结果表明,在一些可能含有少量MOH污染的基质上,目前的方法不能可靠地断定食品样品是否确实受到矿物油污染(<10 mg/kg食品)。迫切需要的是:(i)在一系列不同食物基质上测试的一致且充分验证的样品制备策略;(ii)根据CEN标准和联合研究中心(JRC)指导文件,通过质谱等验证方法确认火焰电离检测(FID)的阳性结果,(iii)通过使用矿物油标记在实验室报告中进行更详细的根本原因分析,以及(iv)对相关食品使用限制<10 mg/kg食品的完全验证的官方方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mineral oil hydrocarbons in foods: is the data reliable?
ABSTRACT The contamination of foods with mineral oil hydrocarbons (MOH) is a serious concern, requiring in most cases tedious mitigation measures that span across the whole food supply chain. A major issue today is the significant variability of the results generated by laboratories. This study was therefore designed to achieve a deeper insight into the analytical procedures used by commercial laboratories, identifying possible gaps and suggesting improvements that will enhance the reliability of the MOH data, an important prerequisite for risk assessment. In total six different food matrices, i.e. infant formula (IF), cocoa butter, cocoa powder, biscuits, fruit-based baby food containing biscuit and roast and ground coffee were subjected to comparative inter-laboratory studies, as well as one vegetable oil analysed within the frame of a professionally conducted proficiency test. The results indicate that on some matrices with possibly low amounts of MOH contamination, the current methodologies cannot reliably conclude whether or not a food sample is indeed contaminated with mineral oils (<10 mg/kg food). Urgently needed are: (i) an aligned and fully validated sample preparation strategy tested on a range of different food matrices; (ii) a confirmation of positive flame ionisation detection (FID) results by confirmatory methods such as mass spectrometry – in line with the CEN Standard and the Joint Research Centre (JRC) Guidance Document, (iii) a more detailed root-cause analysis in the reports of laboratories through the use of mineral oil markers, and (iv) a fully validated official method for the concerned foods with a limit of application <10 mg/kg food.
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