利用 LC-MS/MS 对维洛嗪中的降解剂进行选择性分离和质谱表征

Sushma Pallekona, A.K Pawar, Divya Molleti
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引用次数: 0

摘要

本研究介绍了一种从原料药中选择性分离降解剂的新技术,该技术采用高效液相色谱法,并将三重四极杆质量分析仪和 PDA 检测器与 SCIEX QTRAP 5500 质谱仪在线联用。色谱柱为 Agilent eclipse XDB(150 mm x 4.6 mm,3.5 μ),流动相为 ACN:0.1% TEA(40:60)%v/v。最高吸收波长为 220 纳米,可同时检测而不受安慰剂基质的影响。根据 ICH 的一般建议,建议的 RP-HPLC 方法被采纳。所有验证指标--特异性、线性、LoD、LoQ、准确度、精密度和稳健性--都被认为是充分的。所建议的方法在 12.5-75 μg/mL 范围内具有很强的相关性和线性。准确度实验的回收率稳定(95-105%),而精密度实验的 RSD 百分比小于 2%。通过进行强制降解研究,评估在各种应力条件下产生的降解产物,可以确定当前制剂中药物分子的内在稳定性。所产生的降解产物通过 MS/MS 研究得到了很好的分离和进一步表征。在验证试验中,新设计的方法被证明对所有降解剂都是稳定和敏感的。验证试验表明,新开发的方法在必要的操作范围内也是准确、精确、灵活、有选择性和线性的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Selective Separation and Mass Spectral Characterization of Degradants in Viloxazine by LC-MS/MS
This research describes a novel technique for the selective separation of degradants from API employing HPLC and online coupling of a triple quadrupole mass analyzer and PDA detector with a SCIEX QTRAP 5500 mass spectrometer. Chromatography was used to separate all degradants on the column Agilent eclipse XDB (150 mm x 4.6 mm, 3.5 μ) with mobile phase ACN: 0.1% TEA (40:60) %v/v. The highest absorption was found to occur at 220 nm, which allows for simultaneous detection without being impacted by the placebo matrix. According to the general ICH recommendations, the suggested RP-HPLC method was accepted. All of the metrics- specificity, linearity, LoD, LoQ, accuracy, precision and robustness of validation were deemed sufficient. The proposed method exhibits strong correlation and great linearity over the range of (12.5–75 μg/mL). The accuracy trials produced consistent recoveries (95–105%), while the precision experiments' percent RSD was less than 2%. The intrinsic stability of the drug molecules in the current formulation could be ascertained by conducting forced degradation studies to assess the degradation products produced under various stress settings. The degradants produced were well separated and further characterized by MS/MS studies. The newly devised approach was demonstrated to be stable and sensitive to all degradants during validation tests. Validation trials demonstrate that the newly developed method was also accurate, precise, resilient, selective, and linear within the necessary operating range.
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