Mitigating analyte to stable isotope labelled internal standard cross-signal contribution in quantitative liquid chromatography-tandem mass spectrometry.

IF 3.1 4区医学 Q2 MEDICAL LABORATORY TECHNOLOGY

Journal of Mass Spectrometry and Advances in the Clinical Lab Pub Date : 2022-04-26 eCollection Date: 2022-04-01 DOI:10.1016/j.jmsacl.2022.04.002

Mirjana Radovanovic, Graham Jones, Richard O Day, Peter Galettis, Ross L G Norris

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引用次数: 0

Abstract

Background: Utilising stable isotope labelled internal standards (SIL-IS) in quantitative LC-MS/MS drug analysis is the most widely used approach to normalise for variability during sample quantification processes. However, compounds containing atoms such as Sulphur, Chlorine or Bromine, could potentially cause cross-signal contribution to the SIL-IS from the naturally occurring isotopes, resulting in non-linear calibration curves. A simple, novel method of mitigating the effect is presented here. It entails monitoring of a less abundant SIL-IS isotope, as the precursor ion, of a mass that has no/minimal isotopic contribution from the analyte isotopes.

Methods: Experiments were conducted on two LC-MS/MS analysers: Waters Xevo TQ-S and Shimadzu 8050. Flucloxacillin (FLX) was used as an example. Two transitions were selected for FLX (m/z 454 → 160 → 295) and one for each of the SIL-IS isotopes (m/z 458 → 160 for the isotope 457 g/mol and m/z 460 → 160 for the isotope 459 g/mol). Assay biases were assessed at three SIL-IS concentrations: 0.7, 7 and 14 mg/L for each isotope.

Results: When using the SIL-IS isotope m/z 458 → 160 at a concentration of 0.7 mg/L, biases were up to 36.9 % on both instruments. Increasing the SIL-IS concentration to 14 mg/L, reduced the bias to 5.8 %. Using the less abundant isotope, m/z 460 → 160, resulted in biases of 13.9 % at an SIL-IS concentration of 0.7 mg/L.

Conclusions: Applying this method will mitigate cross-signal contribution from the analyte isotopes to the corresponding SIL-IS, minimise the use of SIL-IS, and, thereby, reduce overall cost.

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减轻定量液相色谱-串联质谱法中分析物与稳定同位素标记内标交叉信号的影响。

背景：在 LC-MS/MS 药物定量分析中使用稳定同位素标记的内标（SIL-IS）是最广泛使用的方法，用于对样品定量过程中的变异性进行归一化处理。然而，含有硫、氯或溴等原子的化合物可能会导致天然同位素对 SIL-IS 产生交叉信号，从而导致非线性校准曲线。本文介绍了一种减轻这种影响的简单而新颖的方法。该方法需要监测一种含量较低的 SIL-IS 同位素，作为前体离子，其质量不含/极少量来自被分析同位素的同位素贡献：实验在两台 LC-MS/MS 分析仪上进行：实验在两台 LC-MS/MS 分析仪上进行：Waters Xevo TQ-S 和 Shimadzu 8050。以氟氯西林（FLX）为例。为 FLX 选择了两个跃迁（m/z 454 → 160 → 295），为 SIL-IS 同位素各选择了一个跃迁（同位素 457 g/mol 的跃迁为 m/z 458 → 160，同位素 459 g/mol 的跃迁为 m/z 460 → 160）。在三种 SIL-IS 浓度下对化验偏差进行了评估：结果：当使用浓度为 0.7 mg/L 的 SIL-IS 同位素 m/z 458 → 160 时，两台仪器的偏差均高达 36.9%。将 SIL-IS 浓度提高到 14 毫克/升后，偏差降低到 5.8%。在 SIL-IS 浓度为 0.7 毫克/升时，使用含量较低的同位素 m/z 460 → 160 会导致 13.9% 的偏差：结论：采用这种方法可以减少分析同位素对相应 SIL-IS 的交叉信号贡献，最大限度地减少 SIL-IS 的使用，从而降低总体成本。

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

Journal of Mass Spectrometry and Advances in the Clinical Lab Health Professions-Medical Laboratory Technology

CiteScore

4.30

自引率

18.20%

发文量

审稿时长

81 days