LABERCA, Oniris, INRAE, F-44307 Nantes, France.
Institute of Pharmaceutical Sciences of Western Switzerland, University of Geneva, CMU-Rue Michel Servet 1, 1211 Geneva 4, Switzerland.
Anal Chem. 2020 Apr 7;92(7):5013-5022. doi: 10.1021/acs.analchem.9b05247. Epub 2020 Mar 24.
Collision cross section (CCS) databases based on single-laboratory measurements must be cross-validated to extend their use in peak annotation. This work addresses the validation of the first comprehensive CCS database for steroids. First, its long-term robustness was evaluated (i.e., a year and a half after database generation; Synapt G2-S instrument; bias within ±1.0% for 157 ions, 95.7% of the total ions). It was further cross-validated by three external laboratories, including two different TWIMS platforms (i.e., Synapt G2-Si and two Vion IMS QToF; bias within the threshold of ±2.0% for 98.8, 79.9, and 94.0% of the total ions detected by each instrument, respectively). Finally, a cross-laboratory CCS database was built for 87 steroids (142 ions). The cross-laboratory database consists of average CCS values obtained by the four TWIMS instruments in triplicate measurements. In general, lower deviations were observed between CCS measurements and reference values when the cross-laboratory database was applied as a reference instead of the single-laboratory database. Relative standard deviations below 1.5% were observed for interlaboratory measurements (<1.0% for 85.2% of ions) and bias between average values and CCS measurements was within the range of ±1.5% for 96.8% of all cases. In the context of this interlaboratory study, this threshold was also suitable for CCS measurements of steroid metabolites in calf urine. Greater deviations were observed for steroid sulfates in complex urine samples of adult bovines, showing a slight matrix effect. The implementation of a scoring system for the application of the CCS descriptor in peak annotation is also discussed.
碰撞截面 (CCS) 数据库基于单实验室测量,必须进行交叉验证,以扩展其在峰注释中的应用。本工作针对第一个全面的类固醇 CCS 数据库进行了验证。首先,评估了其长期稳健性(即在数据库生成一年半后;Synapt G2-S 仪器;对于 157 个离子,95.7%的总离子,偏差在±1.0%以内)。然后,由三个外部实验室进行了交叉验证,包括两个不同的 TWIMS 平台(即 Synapt G2-Si 和两个 Vion IMS QToF;对于每个仪器检测到的总离子的 98.8%、79.9%和 94.0%,偏差在±2.0%的阈值内)。最后,建立了一个用于 87 种类固醇(142 个离子)的跨实验室 CCS 数据库。该跨实验室数据库由四个 TWIMS 仪器在三重复测量中获得的平均 CCS 值组成。一般来说,当使用跨实验室数据库作为参考而不是单实验室数据库时,CCS 测量值与参考值之间的偏差较小。在实验室间测量中,相对标准偏差低于 1.5%(对于 85.2%的离子,<1.0%),平均值和 CCS 测量值之间的偏差在±1.5%范围内,占所有情况的 96.8%。在这项实验室间研究的背景下,该阈值也适用于小牛尿液中类固醇代谢物的 CCS 测量。在复杂的成年牛尿液样本中,类固醇硫酸盐的偏差较大,表现出轻微的基质效应。还讨论了在峰注释中应用 CCS 描述符的评分系统的实施。
