液相色谱-同位素比质谱法检测枫糖浆中经济掺杂的研究。

Madhavi Mantha, Kevin M Kubachka, John R Urban, Jana L Brueggemeyer, Lisa A Kaine, Reagan A Patton
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引用次数: 0

摘要

背景:枫糖浆是一种备受追捧的商品,也是经济掺假(EMA)的积极目标,类似于柠檬汁和蜂蜜等其他食品。它被用作调味品和甜味剂。目的:采用苹果酸固相萃取(SPE)和液相色谱-同位素比质谱检测(LC-IRMS)内标法检测枫糖浆中的掺假成分。利用LC-IRMS,将苹果酸与其他有机酸分离,并测定了苹果酸的δ13C值。使用燃烧模块腔衰荡光谱法(CM-CRDS)评估了11个国产或从加拿大进口的枫糖浆样品的13C/12C比值(δ13C值),并将其与从公认的元素分析仪同位素比值质谱法(EA-IRMS)获得的δ13C数值进行了比较。使用SPE-LC-IRMS分析的分离的苹果酸的δ13C值作为内标,并与散装枫糖浆的δ13C值进行比较;差异(δ13C-糖-δ13C-苹果酸)值大于3.6‰表明低成本的糖掺假。结果:总体而言,SPE-LC-IRMS的结果为确定枫糖浆中的低成本糖掺假提供了一种更快、新颖的分析方法,以达到监管目的。与使用批量分析的现有文献报告相比,它还提供了较低的掺假检测限,并与使用内标方法的Tremblay及其同事提供了可比较的检测限。结论:SPE-LC-IRMS是一种稳健的方法,可用于检测枫糖浆样品中的掺假,以达到监管目的。亮点:快速、新颖的分析方法,用于确定枫糖浆中的C4掺假,检测限较低。
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Using Liquid Chromatography-Isotope Ratio Mass Spectrometry for Detection of Economically Motivated Adulteration of Maple Syrup.

Background: Maple syrup is a sought-after commodity, and used as a condiment and a sweetener. Also, it is an active target of economically motivated adulteration (EMA), similar to other foods such as lemon juice and honey.

Objective: This study is aimed to detect low cost sugar adulteration in maple syrup via an internal standard method using malic acid through solid-phase extraction (SPE) and LC with isotope ratio mass spectrometric detection (LC-IRMS).

Methods: In this work, an optimized SPE sample preparation procedure was used for the isolation of organic acids from maple syrup. Using LC-IRMS, malic acid was separated from other organic acids and the δ13C value of malic acid was determined. Eleven maple syrup samples, domestic or imported from Canada, were evaluated for 13C/12C ratios (δ13C values) using combustion module-cavity ring down spectrometry (CM-CRDS) and compared to the δ13C values obtained from well-established elemental analyzer-isotope ratio mass spectrometry (EA-IRMS) methods. The δ13C values of isolated malic acid analyzed by SPE-LC-IRMS were used as internal standards and compared to the δ13C values of bulk maple syrup; difference (δ13Csugars - δ13Cmalic acid) values greater than 3.6‰ are indicative of low-cost sugar adulteration.

Results: Overall, the results obtained from SPE-LC-IRMS provided a faster, novel analysis approach for determining low-cost sugar adulteration in maple syrup for regulatory purposes. This method also provided lower detectable limits of adulteration versus current literature reports using bulk analysis and comparable detection limits to Tremblay and co-workers who utilized an internal standard method.

Conclusion: SPE-LC-IRMS is a robust method that can be used for detecting adulteration in maple syrup samples for regulatory purposes.

Highlights: SPE-LC-IRMS is a faster, novel analysis approach for determining C4 adulteration in maple syrup with lower detection limits.

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