微波辅助皂化（MAS）后进行环氧化用于高灵敏度测定特级初榨橄榄油中矿物油芳烃（MOAH）的方法优化与验证

Optimization and validation of microwave assisted saponification (MAS) followed by epoxidation for high-sensitivity determination of mineral oil aromatic hydrocarbons (MOAH) in extra virgin olive oil.

作者信息

Menegoz Ursol Luca, Conchione Chiara, Srbinovska Ana, Moret Sabrina

机构信息

Department of Agri-Food, Environmental and Animal Sciences, University of Udine, Udine, Italy.

出版信息

Food Chem. 2022 Feb 15;370:130966. doi: 10.1016/j.foodchem.2021.130966. Epub 2021 Aug 26.

DOI:10.1016/j.foodchem.2021.130966

PMID:34624693

Abstract

A rapid and solvent-saving method, based on microwave-assisted saponification (MAS) followed by epoxidation and on-line liquid chromatography (LC) - gas chromatography (GC) - flame ionization detection (FID), was optimized and validated for high-sensitivity MOAH determination in extra virgin olive oils. Quantitative recoveries and good repeatability were obtained even at concentrations of added mineral oils close to the LOQ (0.5 mg/kg for the total hump, 0.2 mg/kg for each single C-fraction). The validated method, also applied for MOSH determination (C-fraction LOQ: 0.5 mg/kg), was used to analyse 18 extra virgin olive oils from the Italian market or oil mills, and 10 additional samples extracted in the laboratory (with an Abencor apparatus) from hand-picked olives. The former resulted contaminated with variable amounts of MOSH and MOAH (on average 19.0 mg/kg and 2.5 mg/kg, respectively), while the latter showed no detectable MOAH, and low and rather constant MOSH (generally below 2.0 mg/kg).

摘要

一种快速且节省溶剂的方法，基于微波辅助皂化（MAS），随后进行环氧化以及在线液相色谱（LC）-气相色谱（GC）-火焰离子化检测（FID），针对特级初榨橄榄油中高灵敏度的矿物油芳烃（MOAH）测定进行了优化和验证。即使在添加矿物油的浓度接近定量限（总峰面积为0.5 mg/kg，每个单一碳馏分为0.2 mg/kg）时，也能获得定量回收率和良好的重复性。经验证的该方法，也用于矿物油饱和烃（MOSH）的测定（碳馏分定量限：0.5 mg/kg），用于分析来自意大利市场或油厂的18种特级初榨橄榄油，以及另外10个在实验室（使用Abencor仪器）从手工采摘的橄榄中提取的样品。前者被不同量的MOSH和MOAH污染（平均分别为19.0 mg/kg和2.5 mg/kg），而后者未检测到MOAH，且MOSH含量低且相当恒定（通常低于2.0 mg/kg）。

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微波辅助皂化（MAS）后进行环氧化用于高灵敏度测定特级初榨橄榄油中矿物油芳烃（MOAH）的方法优化与验证

Optimization and validation of microwave assisted saponification (MAS) followed by epoxidation for high-sensitivity determination of mineral oil aromatic hydrocarbons (MOAH) in extra virgin olive oil.

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