Michael Z Liao, Marloes Berkhout, Hans Prenen, Sandeep Dutta, Vijay V Upreti
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引用次数: 3
Abstract
Introduction: Body weight can affect exposure, safety and efficacy of antibody-based therapies; sometimes these effects may not be clinically relevant. Panitumumab is approved for wild-type RAS metastatic colorectal cancer, using a body weight-based dosing regimen. Recently, a report cited fixed-dose usage of panitumumab, rather than approved body weight-based dosing. The current work evaluates optimal dosing regimen scientifically based on clinical data, modeling and simulation. Herein, we assessed the effect of fixed and body weight-based dosing on panitumumab pharmacokinetics to determine which approach resulted in the least interpatient pharmacokinetic variability.
Patients and methods: From the Vectibix program, 352 patients enrolled in three studies were evaluated; they had received panitumumab (body weight-based dose: 6 mg/kg every 2 weeks) and had pharmacokinetic (maximum serum [Cmax] and trough [Cmin] concentrations) and body weight data available. Additionally, concentration-time profiles at fixed (480 mg) and body weight-based doses (6 mg/kg) were simulated using a population pharmacokinetics model developed from 1200 patients.
Results: After administration of panitumumab 6 mg/kg, Cmax and Cmin increased with increasing body weight; the mean Cmax and Cmin for patients weighing <65 kg (lower quartile) were 23% and 30% lower, respectively, than for those weighing >88 kg (upper quartile). The simulated area under the concentration-time curve (AUC) data also indicated that overall panitumumab exposure increased with increasing body weight for the body weight-based regimen. When AUC was simulated for a fixed dose (480 mg), the opposite effect was observed. Over the range of body weights, interpatient variability in simulated AUC was lower for the weight-based dose (29%) than for the fixed dose (34%).
Conclusion: Results demonstrate that the weight-based dose (6 mg/kg) reduced variability in panitumumab exposure across the range of body weights compared with the fixed-dose approach, indicating that a body weight-based approach is the recommended patient dosing strategy.
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