Moorthy Ganesh S, Jogiraju Harini, Vedar Christina, Zuppa Athena F
Center for Clinical Pharmacology, The Children's Hospital of Philadelphia, Philadelphia, PA 19104, United States; Department of Anesthesiology and Critical Care Medicine, University of Pennsylvania, Philadelphia, PA 19104, United States.
Center for Clinical Pharmacology, The Children's Hospital of Philadelphia, Philadelphia, PA 19104, United States.
J Chromatogr B Analyt Technol Biomed Life Sci. 2017 Nov 1;1067:1-9. doi: 10.1016/j.jchromb.2017.09.030. Epub 2017 Sep 28.
Pharmacokinetic, pharmacodynamic and pharmacogenomic studies of midazolam are currently being performed in critically ill children to find suitable dose regimens. Sensitive assays using small volumes of plasma are necessary to determine the concentrations of midazolam and its respective metabolites in pediatric studies. Midazolam is metabolized to hydroxylated midazolam isomers, which are present as free as well as the corresponding glucuronide conjugates. A high-performance liquid chromatographic method with tandem mass spectrometry has been developed and validated for the quantification of midazolam, and free and total 1-hydroxymidazolam and 4-hydroxymidazolam metabolites in small volumes of plasma. Cleanup consisted of 96-well μ-elution solid phase extraction (SPE). The analytes were separated by gradient elution using a C analytical column with a total run time of 5min. Multiple reaction monitoring was employed using precursor to product ion transitions of m/z 326.2→291.3 for midazolam, m/z 342.1→203.0 for 1-hydroxymidazolam, m/z 342.1→325.1 for 4-hydroxymidazolam and m/z 330.2→295.3 for H-midazolam (internal standard). Since authentic hydroxymidazolamglucuronide standards are not available, samples were hydrolyzed with β-glucuronidase under optimized conditions. Assay conditions were modified and optimized to provide appropriate recovery and stability because 4-hydroxymidazolam was very acid sensitive. Standard curves were linear from 0.5 to 1000ng/mL for all three analytes. Intra- and inter day accuracy and precision for quality control samples (2, 20, 200 and 800ng/mL) were within 85-115% and 15% (coefficient of variation), respectively. Stability in plasma and extracts were sufficient under assay conditions. Plasma samples were processed and analyzed for midazolam, and free 1-hydroxymidazolam and 4-hydroxymidazolam metabolites. Plasma samples that were hydrolyzed with β-glucuronidase were processed and analyzed for midazolam, and total 1-hydroxymidazolam and 4-hydroxymidazolam metabolites under the same assay conditions. The difference in concentration between the total and free hydroxymidazolam metabolites provided an estimate of conjugated hydroxymidazolam metabolites. The combination of 96-well μ-elution SPE and LC-MS/MS allows reliable quantification of midazolam and its metabolites in small volumes of plasma for pediatric patients. This assay is currently being successfully utilized for analysis of samples from ongoing clinical trials.
目前正在对危重症儿童进行咪达唑仑的药代动力学、药效动力学和药物基因组学研究,以寻找合适的给药方案。在儿科研究中,需要使用少量血浆的灵敏检测方法来测定咪达唑仑及其各自代谢物的浓度。咪达唑仑代谢为羟基化咪达唑仑异构体,它们以游离形式以及相应的葡萄糖醛酸共轭物形式存在。已开发并验证了一种高效液相色谱-串联质谱法,用于定量测定少量血浆中的咪达唑仑、游离和总1-羟基咪达唑仑及4-羟基咪达唑仑代谢物。净化采用96孔μ洗脱固相萃取(SPE)。使用C分析柱通过梯度洗脱分离分析物,总运行时间为5分钟。采用多反应监测,使用咪达唑仑的m/z 326.2→291.3、1-羟基咪达唑仑的m/z 342.1→203.0、4-羟基咪达唑仑的m/z 342.1→325.1和H-咪达唑仑(内标)的m/z 330.2→295.3的前体到产物离子转换。由于没有 authentic 羟基咪达唑仑葡萄糖醛酸标准品,样品在优化条件下用β-葡萄糖醛酸酶水解。由于4-羟基咪达唑仑对酸非常敏感,对检测条件进行了修改和优化以提供适当的回收率和稳定性。所有三种分析物的标准曲线在0.5至1000ng/mL范围内呈线性。质量控制样品(2、20、200和800ng/mL)的日内和日间准确度和精密度分别在85-115%和15%(变异系数)以内。在检测条件下,血浆和提取物中的稳定性足够。对血浆样品进行处理并分析咪达唑仑、游离1-羟基咪达唑仑和4-羟基咪达唑仑代谢物。用β-葡萄糖醛酸酶水解后的血浆样品在相同检测条件下进行处理并分析咪达唑仑、总1-羟基咪达唑仑和4-羟基咪达唑仑代谢物。总羟基咪达唑仑代谢物和游离羟基咪达唑仑代谢物之间的浓度差异提供了共轭羟基咪达唑仑代谢物的估计值。96孔μ洗脱SPE和LC-MS/MS的组合允许可靠地定量测定儿科患者少量血浆中的咪达唑仑及其代谢物。该检测方法目前已成功用于正在进行的临床试验样品的分析。
