Quantification and analyses of seven tyrosine kinase inhibitors targeting hepatocellular carcinoma in human plasma by QuEChERS and UPLC-MS/MS

IF 2.8 3区医学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of Chromatography B Pub Date : 2024-06-24 DOI:10.1016/j.jchromb.2024.124217

Yan Liang , Yilin Li , Li Song , Xiaolan Zhen , Jiangning Peng , Hui Li

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Abstract

Tyrosine kinase inhibitors (TKIs) are commonly used to treat various cancers. Literature suggests that the blood concentration of TKIs strongly correlates with their efficacy and adverse effects. Therefore, establishing a Therapeutic Drug Monitoring (TDM) methodology for TKI drugs is crucial to improving their clinical efficacy and minimizing the treatment-related adverse effects. However, quantifying their concentrations in the plasma using existing methods to avoid potential toxicity is challenging. Herein, seven TKIs, namely sorafenib tosylate, axitinib, erlotinib, cediranib, brivanib, linifanib, and golvatinib, were successfully analyzed in human plasma by following a quick, easy, cheap, effective, rugged, and safe (QuEChERS) pretreatment method combined with ultra-high performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS). Briefly, biological samples were extracted using 1 mL of methanol, followed by the sequential addition of 250 mg of anhydrous magnesium sulfate and 25 mg of N-propylethylenediamine (PSA) for salinization and purification by adsorption, respectively. In this study, dovitinib was used as the internal standard. The seven TKIs were detected by the gradient elution method for 4 min in the positive ion electrospray mode. The mobile phase comprised methanol (phase A) and 0.1 % aqueous formic acid solution (phase B) on the Agilent Zorbax RRHD Stablebond Aq, (2.1 × 50 mm; 1.8 μm). Brivanib, linifanib, axitinib, sorafenib tosylate, and golvatinib exhibited good linearity in the range of 5–500 ng/mL, and erlotinib and cediranib exhibited good linearity in the range of 10–1000 ng/mL, with linear correlation coefficients (R²) ≥ 0.99. The limits of detection and quantification were 0.60–0.18 ng/mL and 5–10 ng/mL, respectively. The intraday and interday accuracy values ranged from −6.12 % to 7.31 %, with a precision (RSD) of ≤ 10.57 %. The method was rapid, accurate, specific, simple, reproducible, and suitable for the quantitative determination of the seven TKIs in human plasma.

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利用QuEChERS和UPLC-MS/MS对人体血浆中七种针对肝细胞癌的酪氨酸激酶抑制剂进行定量和分析。

酪氨酸激酶抑制剂（TKIs）常用于治疗各种癌症。文献表明，TKIs 的血药浓度与其疗效和不良反应密切相关。因此，为 TKI 药物建立治疗药物监测（TDM）方法对提高其临床疗效和减少治疗相关不良反应至关重要。然而，使用现有方法量化血浆中的药物浓度以避免潜在毒性是一项挑战。本文采用快速、简便、廉价、有效、耐用和安全（QuEChERS）的前处理方法，结合超高效液相色谱-串联质谱（UPLC-MS/MS），成功分析了人体血浆中的七种TKIs，即索拉非尼（sorafenib tosylate）、阿西替尼（axitinib）、厄洛替尼（erlotinib）、塞地拉尼（ediranib）、布利瓦尼（brivanib）、利尼法尼（linifanib）和戈伐替尼（golvatinib）。首先用 1 mL 甲醇提取生物样品，然后依次加入 250 mg 无水硫酸镁和 25 mg N-丙基乙二胺（PSA），分别进行盐析和吸附纯化。本研究使用多维替尼作为内标。在正离子电喷雾模式下，采用梯度洗脱法检测7种TKIs，时间为4分钟。在 Agilent Zorbax RRHD Stablebond Aq（2.1 × 50 mm; 1.8 μm）上以甲醇（A 相）和 0.1 % 甲酸水溶液（B 相）为流动相。布利瓦尼、利尼法尼、阿西替尼、索拉非尼对甲苯磺酸盐和戈伐替尼在 5-500 纳克/毫升范围内线性关系良好，厄洛替尼和塞地拉尼在 10-1000 纳克/毫升范围内线性关系良好，线性相关系数 (R2) ≥ 0.99。检测限和定量限分别为 0.60-0.18 纳克/毫升和 5-10 纳克/毫升。日内和日间准确度为-6.12%～7.31%，精密度（RSD）≤10.57%。该方法快速、准确、特异、简便、重现性好,适用于人体血浆中7种TKIs的定量检测。

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来源期刊

Journal of Chromatography B 医学-分析化学

CiteScore

5.60

自引率

3.30%

发文量

306

审稿时长

44 days

期刊介绍： The Journal of Chromatography B publishes papers on developments in separation science relevant to biology and biomedical research including both fundamental advances and applications. Analytical techniques which may be considered include the various facets of chromatography, electrophoresis and related methods, affinity and immunoaffinity-based methodologies, hyphenated and other multi-dimensional techniques, and microanalytical approaches. The journal also considers articles reporting developments in sample preparation, detection techniques including mass spectrometry, and data handling and analysis. Developments related to preparative separations for the isolation and purification of components of biological systems may be published, including chromatographic and electrophoretic methods, affinity separations, field flow fractionation and other preparative approaches. Applications to the analysis of biological systems and samples will be considered when the analytical science contains a significant element of novelty, e.g. a new approach to the separation of a compound, novel combination of analytical techniques, or significantly improved analytical performance.