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A decade of HPLC-MS/MS in the routine clinical laboratory--goals for further developments.临床常规实验室中十年的高效液相色谱-串联质谱技术——进一步发展的目标
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Strategies for the assessment of matrix effect in quantitative bioanalytical methods based on HPLC-MS/MS.基于高效液相色谱-串联质谱法的定量生物分析方法中基质效应评估策略。
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Effect of the sample matrix on the determination of indinavir in human urine by HPLC with turbo ion spray tandem mass spectrometric detection.
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碰撞能量分解曲线——一种表征串联质谱方法的额外工具。

Collision energy-breakdown curves - An additional tool to characterize MS/MS methods.

作者信息

Mörlein Sophie, Schuster Carina, Paal Michael, Vogeser Michael

机构信息

Institute of Laboratory Medicine, University Hospital, LMU Munich, Germany.

出版信息

Clin Mass Spectrom. 2020 Oct 20;18:48-53. doi: 10.1016/j.clinms.2020.10.001. eCollection 2020 Nov.

DOI:10.1016/j.clinms.2020.10.001
PMID:34820525
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8600984/
Abstract

BACKGROUND

In tandem mass spectrometry, analyte detection is based on collision-induced fragmentation, which is modulated by the collision energy (CE) setting. Variation in CE leads to differential ion yield, and optimization is usually performed empirically as "tuning" during method development. Our aim was to build a method to objectify the impact of collision energy settings on ion yield for individual compounds.

METHODS

Collision energy (CE)-breakdown curves were generated based on acquisition files in which a large number of quasi-identical mass transitions were recorded simultaneously, with variation of CE over a defined range within a single injection. Ion yield (normalized to an internal standard recorded with a locked collision energy) was plotted as a curve versus CE settings. Piperacillin and testosterone were studied as exemplary analytes in matrix-free and serum matrix-based liquid chromatography tandem mass spectrometry (LC-MS/MS) measurements. More detailed testosterone CE-breakdown curves were investigated with regard to sample preparation techniques and the isotope labeling pattern of corresponding internal standards.

RESULTS

CE-breakdown curves were found characteristically for the piperacillin quantifier transition with respect to CE-related maximum ion yield, as well as curve width and shape. A diverging curve profile was observed for the piperacillin qualifier transition. For testosterone analyses, no impact from different sample preparation techniques or the isotope labeling patterns on the selected CE was shown.

CONCLUSION

CE-breakdown curves are a convenient and valuable tool to verify LC-MS/MS methods regarding consistent fragmentation characteristics between sample sources or native analytes and isotope-labeled counterparts.

摘要

背景

在串联质谱分析中,分析物检测基于碰撞诱导裂解,其由碰撞能量(CE)设置调节。CE的变化会导致离子产率不同,在方法开发过程中,通常通过经验性的“调谐”来进行优化。我们的目标是建立一种方法,以客观化碰撞能量设置对单个化合物离子产率的影响。

方法

基于采集文件生成碰撞能量(CE)-分解曲线,在这些文件中,大量几乎相同的质量跃迁在单次进样过程中同时记录,且CE在定义范围内变化。将离子产率(相对于用锁定碰撞能量记录的内标进行归一化)绘制成与CE设置的曲线。在无基质和基于血清基质的液相色谱串联质谱(LC-MS/MS)测量中,将哌拉西林和睾酮作为示例性分析物进行研究。针对样品制备技术和相应内标的同位素标记模式,研究了更详细的睾酮CE-分解曲线。

结果

发现哌拉西林定量离子跃迁的CE-分解曲线在与CE相关的最大离子产率、曲线宽度和形状方面具有特征性。哌拉西林定性离子跃迁观察到不同的曲线轮廓。对于睾酮分析,未显示不同样品制备技术或同位素标记模式对所选CE有影响。

结论

CE-分解曲线是一种方便且有价值的工具,可用于验证LC-MS/MS方法在样品来源或天然分析物与同位素标记对应物之间的一致裂解特性。