Virginia Commonwealth University, School of Pharmacy, Department of Pharmaceutics, Richmond, VA 23298-0533, USA.
J Chromatogr B Analyt Technol Biomed Life Sci. 2010 Dec 1;878(31):3303-16. doi: 10.1016/j.jchromb.2010.10.012. Epub 2010 Oct 21.
Matrix effects caused by compounds endogenous to the biological sample are a primary challenge in quantitative LC/MS/MS bioanalysis. Many approaches have been developed to minimize matrix effects such as optimization of sample extraction procedures and use of isotopically labeled internal standards. Unexpected matrix components may still remain undetected, however, because of the selective mass transitions monitored during MS/MS analysis. Glycerophosphocholines are the major phospholipids in plasma that have been widely shown to cause significant matrix effects on electrospray ionization efficiencies for target analytes. The purpose of this work was to investigate potential matrix effects resulting from different endogenous lipid classes, including phospholipids, acylglycerols and cholesterols, in order to establish a library for the relative presence of these components in biological sample extracts obtained by commonly used sample preparation techniques. Thirteen compounds were selected which were representatives of eight phospholipids classes, mono, di, triacylglycerols, cholesterol and cholesterol esters. Post-column infusion experiments were carried out to compare relative ion suppression effects of these compounds. Chlorpheniramine and loratadine were selected as model test analytes. A Concentration Normalized Suppression Factor (%CNSF) was defined to allow comparison of ion suppression effects resulting from different endogenous lipids according to their typical concentrations in human plasma and erythrocytes. A simple LC/MS/MS method was developed to monitor these endogenous components in sample extracts and their extraction recoveries from a plasma pool were compared using protein precipitation, liquid-liquid extraction, supported-liquid extraction, solid phase extraction and Hybrid SPE-precipitation methods. Endogenous lipid components other than GPChos, such as cholesterols and triacylglycerols, may result in significant matrix effects and should be monitored during method development. No single extraction procedure was efficient in removing all of the various lipid components. Use of the results presented here, along with a consideration of analyte chemical structure, the type of matrix and the type of sample preparation procedure, may help a bioanalytical scientist to better anticipate and minimize matrix effects in developing LC/MS/MS-based methods.
生物样品内源性化合物引起的基质效应是定量 LC/MS/MS 生物分析的主要挑战。已经开发了许多方法来最小化基质效应,例如优化样品提取程序和使用同位素标记的内标。然而,由于在 MS/MS 分析中监测到选择性质量转移,仍然可能会检测到未检测到的意外基质成分。甘油磷酸胆碱是血浆中主要的磷脂,已广泛证明它们会对目标分析物的电喷雾电离效率产生显著的基质效应。这项工作的目的是研究不同内源性脂质类别的潜在基质效应,包括磷脂、酰基甘油和胆固醇,以建立一个库,用于确定通过常用样品制备技术获得的生物样品提取物中这些成分的相对存在。选择了 13 种化合物,它们代表八种磷脂类、单、二、三酰基甘油、胆固醇和胆固醇酯。进行了柱后输注实验,以比较这些化合物的相对离子抑制效应。氯苯那敏和氯雷他定为模型测试分析物。定义了浓度归一化抑制因子(%CNSF),以允许根据其在人血浆和红细胞中的典型浓度比较不同内源性脂质引起的离子抑制效应。开发了一种简单的 LC/MS/MS 方法来监测样品提取物中的这些内源性成分,并使用蛋白沉淀、液液萃取、支持液萃取、固相萃取和 Hybrid SPE-沉淀方法比较从血浆池中的提取回收率。除了 GPChos 之外的内源性脂质成分,如胆固醇和三酰基甘油,可能会导致显著的基质效应,因此在方法开发过程中应进行监测。没有单一的提取程序能够有效地去除各种脂质成分。使用此处呈现的结果,并考虑分析物的化学结构、基质类型和样品制备程序类型,可能有助于生物分析科学家更好地预测和最小化开发 LC/MS/MS 方法中的基质效应。
