BACKGROUND: Paclitaxel (PTX; Taxol, Abraxane) is used in many regimens for breast cancer, non-small cell lung cancer (NSCLC), and ovarian cancer. Multiple studies have demonstrated that PTX exhibits a greater than 10-fold interpatient variability of clearance rates when patients are dosed according to body surface area (BSA). Pharmacokinetic and pharmacodynamic relationships have been elucidated from BSA-based dosing. PTX is a candidate for dose management, and studies have shown that therapeutic dose management (TDM) is feasible and may provide improved outcomes for patients undergoing treatment. METHODS: A PTX immunoassay (MyPaclitaxel) has been developed, which employs a novel PTX monoclonal antibody in a nanoparticle-based turbidimetric assay in a competitive format. Precision, accuracy, and linearity were evaluated by Clinical Laboratory Standards Institute protocols at 3 laboratories on the Olympus AU400 analyzer. Method comparison was done versus a validated high-performance liquid chromatography-tandem mass spectroscopy method using samples (n = 119) collected from patients on PTX therapy. RESULTS: The assay requires 8 μL of plasma sample and can produce 400 determinations per hour. The response curve is based on a 6-point nonlinear curve fit and has a range of 0-320 ng/mL, extended to 3200 ng/mL with 10-fold autodilution. Three controls and 4 patient pools were used in precision studies. For all samples across 3 sites, repeatability coefficient of variation percentages ranged 0.9%-4.9%, and within-laboratory coefficient of variation percentages were 1.0%-4.2% with standard curve stability up to 24 days. Linearity was demonstrated over the linear range. Lower limits of detection and quantitation were 11 and 19 ng/mL, respectively. Method comparison results were analyzed by Deming regression, demonstrating a slope = 1.002 and intercept = -3.029 and an R = 0.996. The PTX samples ranged from 24 to 3164 ng/mL with a mean of 745 ng/mL. CONCLUSIONS: The analytical performance of an automated immunoassay for PTX has been validated and may serve as a useful tool for TDM of this drug.
BACKGROUND:Paclitaxel (PTX; Taxol, Abraxane) is used in many regimens for breast cancer, non-small cell lung cancer (NSCLC), and ovarian cancer. Multiple studies have demonstrated that PTX exhibits a greater than 10-fold interpatient variability of clearance rates when patients are dosed according to body surface area (BSA). Pharmacokinetic and pharmacodynamic relationships have been elucidated from BSA-based dosing. PTX is a candidate for dose management, and studies have shown that therapeutic dose management (TDM) is feasible and may provide improved outcomes for patients undergoing treatment. METHODS: A PTX immunoassay (MyPaclitaxel) has been developed, which employs a novel PTX monoclonal antibody in a nanoparticle-based turbidimetric assay in a competitive format. Precision, accuracy, and linearity were evaluated by Clinical Laboratory Standards Institute protocols at 3 laboratories on the Olympus AU400 analyzer. Method comparison was done versus a validated high-performance liquid chromatography-tandem mass spectroscopy method using samples (n = 119) collected from patients on PTX therapy. RESULTS: The assay requires 8 μL of plasma sample and can produce 400 determinations per hour. The response curve is based on a 6-point nonlinear curve fit and has a range of 0-320 ng/mL, extended to 3200 ng/mL with 10-fold autodilution. Three controls and 4 patient pools were used in precision studies. For all samples across 3 sites, repeatability coefficient of variation percentages ranged 0.9%-4.9%, and within-laboratory coefficient of variation percentages were 1.0%-4.2% with standard curve stability up to 24 days. Linearity was demonstrated over the linear range. Lower limits of detection and quantitation were 11 and 19 ng/mL, respectively. Method comparison results were analyzed by Deming regression, demonstrating a slope = 1.002 and intercept = -3.029 and an R = 0.996. The PTX samples ranged from 24 to 3164 ng/mL with a mean of 745 ng/mL. CONCLUSIONS: The analytical performance of an automated immunoassay for PTX has been validated and may serve as a useful tool for TDM of this drug.