用于常规紫杉醇治疗药物监测（TDM）的商业检测方法和决策支持工具的验证

Validation of a Commercial Assay and Decision Support Tool for Routine Paclitaxel Therapeutic Drug Monitoring (TDM).

作者信息

Joerger Markus, Kraff Stefanie, Jaehde Ulrich, Hilger Ralf A, Courtney Jodi B, Cline Daniel J, Jog Sonali, Baburina Irina, Miller M Craig, Salamone Salvatore J

机构信息

*Department of Medical Oncology, Cantonal Hospital, St. Gallen, Switzerland; †Institute of Pharmacy, Clinical Pharmacy, University of Bonn, Bonn, Germany; ‡Cancer Research, University Hospital Essen, Essen, Germany; and §Saladax Biomedical, Inc, Bethlehem, Pennsylvania.

出版信息

Ther Drug Monit. 2017 Dec;39(6):617-624. doi: 10.1097/FTD.0000000000000446.

DOI:10.1097/FTD.0000000000000446

PMID:28937535

Abstract

BACKGROUND

The value of therapeutic drug monitoring (TDM) for paclitaxel (PTX) was recently demonstrated in the largest TDM trial ever conducted in oncology. The trial demonstrated significant reduction in neuropathy when using TDM. Dose adjustment for PTX was based on time above a threshold concentration (Tc>0.05). Tc>0.05 must be calculated with a pharmacokinetic model and complex nonlinear mixed-effects software. The use of the software and chromatographic methods to measure PTX requires specialized expertise. User-friendly methods to quantitate PTX and calculate Tc>0.05 could simplify the introduction of TDM into routine clinical practice.

METHODS

The immunoassay (MyPaclitaxel) was used to quantitate PTX in samples from the clinical trial; the results were used to calculate Tc>0.05 using a stand-alone computer program with a simple, friendly graphical user interface for nonlinear mixed-effects pharmacokinetic calculations (MyCare Drug Exposure Calculator). The resulting dose recommendations from the calculated Tc>0.05 were compared with those using liquid chromatography-ultraviolet detection and NONMEM to examine the efficacy of the simpler tools for TDM.

RESULTS

There was a good agreement between the immunoassay and liquid chromatography-ultraviolet detection: Passing-Bablok regression slope was 1.045 and intercept was -6.00, R was 0.9757, and mean bias was -1.77 ng/mL (-2.07 nmol/L). Dosing recommendations were identical for 70% of the cycles and within 10% for 89% of the samples. All Tc>0.05 values were at the same or adjacent medical decision points.

CONCLUSIONS

MyPaclitaxel assay and MyCare Drug Exposure Calculator are convenient, user-friendly tools that may be suitable for routine TDM of PTX in clinical care.

摘要

背景

近期在肿瘤学领域开展的规模最大的治疗药物监测（TDM）试验证实了紫杉醇（PTX）治疗药物监测的价值。该试验表明，采用TDM时神经病变显著减少。PTX的剂量调整基于高于阈值浓度（Tc>0.05）的时间。Tc>0.05必须使用药代动力学模型和复杂的非线性混合效应软件进行计算。使用该软件和色谱方法测量PTX需要专业知识。能够定量PTX并计算Tc>0.05的用户友好型方法可简化TDM在常规临床实践中的应用。

方法

采用免疫测定法（MyPaclitaxel）对临床试验样本中的PTX进行定量；使用具有简单、友好图形用户界面的独立计算机程序（MyCare药物暴露计算器），依据所得结果计算Tc>0.05，用于非线性混合效应药代动力学计算。将根据计算所得的Tc>0.05得出的剂量建议与使用液相色谱 - 紫外检测法和NONMEM得出的剂量建议进行比较，以检验这些更简便工具用于TDM的有效性。

结果

免疫测定法与液相色谱 - 紫外检测法之间具有良好的一致性：Passing - Bablok回归斜率为1.045，截距为 - 6.00，R为0.9757，平均偏差为 - 1.77 ng/mL（-2.07 nmol/L）。70%的周期剂量建议相同，89%的样本剂量建议相差在10%以内。所有Tc>0.05值均处于相同或相邻的医学决策点。

结论

MyPaclitaxel测定法和MyCare药物暴露计算器是方便、用户友好的工具，可能适用于临床护理中PTX的常规TDM。

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用于常规紫杉醇治疗药物监测（TDM）的商业检测方法和决策支持工具的验证

Validation of a Commercial Assay and Decision Support Tool for Routine Paclitaxel Therapeutic Drug Monitoring (TDM).

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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