Matrix Effects in the Liquid Chromatography-Tandem Mass Spectrometry Method of Analysis.

Q1 Social Sciences

Forensic Science Review Pub Date : 2013-03-01

H-C Liu, D-L Lin, H H McCurdy

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引用次数: 0

Abstract

Matrix effects are dependent on biological fluid, ionization type, and sample preparation method. Although matrix effects are observed for both ionization types, ESI is especially susceptible, while APCI has proved to be less vulnerable. Sample preparation method has a clear influence on matrix effects as does, in particular, the choice of internal standard. When matrix effects result in severe ion suppression or enhancement of the target analyte by co-eluting residual components, they are typically located in isolated regions of the chromatogram. Postcolumn infusion and postextraction addition methods have been developed for the assessments of matrix effects. Approaches used for eliminating, minimizing, or compensating for matrix effects include improved sample preparation and chromatographic separation, sample dilution, and the utilization of internal standards. Matrix effects may not always be fully circumventable because a perfectly consistent matrix does not exist, but they can be significantly minimized and largely compensated for by various approaches, such as standard addition, matrixmatched calibration, and the use of isotopic analogs of the analytes as internal standards.

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液相色谱-串联质谱分析方法中的基质效应。

基质效应取决于生物流体、电离类型和样品制备方法。虽然在两种电离类型中都观察到基质效应，但ESI特别容易受到影响，而APCI则不那么容易受到影响。样品制备方法对基质效应有明显的影响，尤其是内标的选择。当基质效应通过共洗脱残余成分导致严重的离子抑制或增强目标分析物时，它们通常位于色谱图的孤立区域。柱后灌注和提取后添加方法已被开发用于评估基质效应。用于消除、最小化或补偿基质效应的方法包括改进样品制备和色谱分离、样品稀释和使用内部标准品。由于不存在完全一致的矩阵，矩阵效应可能并不总是完全可以避免，但可以通过各种方法显着最小化并在很大程度上补偿它们，例如标准添加，矩阵匹配校准和使用分析物的同位素类似物作为内标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Forensic Science Review Social Sciences-Law

CiteScore

1.90

自引率

0.00%

发文量