Quantitative determination of liposomal irinotecan and SN-38 concentrations in plasma samples from children with solid tumors: Use of a cryoprotectant solution to enhance liposome stability

IF 2.8 3区医学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of Chromatography B Pub Date : 2024-08-14 DOI:10.1016/j.jchromb.2024.124273

Sreenath Nair , Nicholas S. Selvo , Abigail Stolarski , Brandon Klee , Sara M. Federico , Clinton F. Stewart

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Abstract

Preclinical studies have demonstrated that liposomal irinotecan (CPT-11), a topoisomerase I inhibitor, has broad activity against adult cancers, including pancreatic, gastric, colon, lung, glioma, ovarian, and breast cancer. Encapsulation of irinotecan into liposomes can modify its pharmacokinetic properties dramatically. Also, the pharmacokinetic profiles of liposomal drug formulations are not fully understood; thus, bioanalytical methods are needed to separate and quantify nonencapsulated vs. encapsulated concentrations. In this study, two robust, specific, and sensitive LC-MS/MS methods were developed and validated to separate and quantify the nonencapsulated CPT-11 (NE-CPT-11) from the sum-total CPT-11 (T-CPT-11) and its major metabolite, SN-38, in human plasma after intravenous administration of liposomal irinotecan. NE-CPT-11 and SN-38 were separated from plasma samples by using solid-phase extraction, and T-CPT-11 was measured by protein precipitation. The liposomal CPT-11 formulation was unstable during sample storage and handling, resulting in elevated NE-CPT-11 concentration. To improve the stability of liposomal CPT-11, a cryoprotectant solution was added to human plasma samples prior to storage and processing. CPT-11, SN-38, and their respective internal standards, CPT-11-d10 and SN-38-d3, were chromatographically separated on a reversed-phase C₁₈ analytical column. The drugs were detected on a triple quadrupole mass spectrometer in the positive MRM ion mode by monitoring the transitions 587.3 > 124.1 (CPT-11) and 393.0 > 349.1 (SN-38). The calibration curves demonstrated a good fit across the concentration ranges of 10–5000 ng/mL for T-CPT-11, 2.5–250 ng/mL for NE-CPT-11, and 1–500 ng/mL for SN-38. The accuracy and precision were within the acceptable limits, matrix effects were nonsignificant, recoveries were consistent and reproducible, and the analytes were stable under all tested storage conditions. Finally, the LC-MS/MS methods were successfully applied in a phase I clinical pharmacokinetic study of nanoliposomal irinotecan (Onivyde®) in pediatric patients with recurrent solid malignancies or Ewing sarcoma.

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定量测定实体瘤患儿血浆样本中脂质体伊立替康和SN-38的浓度：使用低温保护剂溶液增强脂质体的稳定性。

临床前研究表明，脂质体伊立替康（CPT-11）是一种拓扑异构酶 I 抑制剂，对成人癌症（包括胰腺癌、胃癌、结肠癌、肺癌、胶质瘤、卵巢癌和乳腺癌）具有广泛的活性。将伊立替康封装到脂质体中可显著改变其药代动力学特性。此外，人们对脂质体药物制剂的药代动力学特征还不完全了解，因此需要生物分析方法来分离和量化非包封浓度与包封浓度。本研究开发并验证了两种稳健、特异、灵敏的 LC-MS/MS 方法，用于分离和定量静脉注射脂质体伊立替康后人体血浆中的非胶囊化 CPT-11（NE-CPT-11）、CPT-11 总和（T-CPT-11）及其主要代谢物 SN-38。采用固相萃取法从血浆样本中分离出 NE-CPT-11 和 SN-38，并通过蛋白沉淀法测定 T-CPT-11。脂质体CPT-11制剂在样品储存和处理过程中不稳定，导致NE-CPT-11浓度升高。为了提高脂质体 CPT-11 的稳定性，在储存和处理人体血浆样本之前，在样本中加入了低温保护剂溶液。CPT-11、SN-38 及其各自的内标物 CPT-11-d10 和 SN-38-d3 在反相 C18 分析柱上进行色谱分离。通过监测 587.3 > 124.1（CPT-11）和 393.0 > 349.1（SN-38）跃迁，在三重四极杆质谱仪的正向 MRM 离子模式下检测药物。在 T-CPT-11 为 10-5000 纳克/毫升、NE-CPT-11 为 2.5-250 纳克/毫升和 SN-38 为 1-500 纳克/毫升的浓度范围内，校准曲线显示出良好的拟合效果。准确度和精密度均在可接受范围内，基质效应不明显，回收率一致且可重复，分析物在所有测试的储存条件下均稳定。最后，LC-MS/MS 方法成功应用于纳米脂质体伊立替康（Onivyde®）在复发性实体恶性肿瘤或尤文肉瘤儿科患者中的 I 期临床药代动力学研究。

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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.