基于模型的滤泡性非霍奇金淋巴瘤利妥昔单抗剂量优化设计。
Model-based design of rituximab dosage optimization in follicular non-Hodgkin's lymphoma.
机构信息
Université François Rabelais de Tours, Laboratoire de Pharmacologie-Toxicologie, CHRU Tours, 2 boulevard Tonnellé, Tours Cedex, France.
出版信息
Br J Clin Pharmacol. 2012 Apr;73(4):597-605. doi: 10.1111/j.1365-2125.2011.04125.x.
WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT
The concentration-effect relationship of rituximab in follicular lymphoma (FL) was previously described using pharmacokinetic-pharmacodynamic (PK-PD) modelling. The influence of genetic polymorphism of FCGR3A on rituximab efficacy in FL patients was included in this PK-PD model. Previous studies suggest that increasing the dose of rituximab and/or the number of infusions may lead to a better clinical response in FL.
WHAT THIS STUDY ADDS
The previously validated PK-PD model can be used to design an optimized rituximab dose regimen in FL patients. Clinical trial simulation shows the potential clinical benefits of changes in rituximab dose. Optimization of the rituximab dose regimen cannot compensate for the lower response of FCGR3A-158F carriers compared with that of FCGR3A-158VV patients. AIMS Rituximab has dramatically improved the survival of patients with non-Hodgkin's lymphoma (NHL). However, studies have suggested that the dose regimen currently used (i.e. 375 mg m(-2) ) could be optimized. The aims of this study were to quantify the benefits of the new dose regimen for rituximab in follicular NHL (FL) patients using a previously validated PK-PD model and to design clinical trials investigating optimization of rituximab dosage.
METHODS
A PK-PD model was used to predict progression-free survival (PFS) of FL patients treated by rituximab alone in asymptomatic FL, and those treated by rituximab combined with chemotherapy (R-CHOP) in relapsed/resistant FL. This model accounts for the influence of a polymorphism in FCGR3A, the gene encoding the FcγRIIIa receptor, on clinical efficacy. Several induction and maintenance dose regimens using rituximab alone or in combination with conventional chemotherapy (CHOP) were tested. The benefits of rituximab dose adjustment for F carriers were investigated. The numbers of subjects required for the design of two-armed clinical trials were calculated using model-predicted PFS at a power of 80%.
RESULTS
The model predicted a potential benefit of 1500 mg m(-2) maintenance doses of rituximab for both rituximab monotherapy and R-CHOP. The model shows that the PFS of FCGR3A-F carriers remains lower than that of homozygous FCGR3A-VV patients, even with markedly increased rituximab doses.
CONCLUSION
Our results suggest a benefit of increasing doses of rituximab in FL, both during induction and maintenance. These results need to be confirmed in controlled clinical trials.
已知关于该主题的信息
先前使用药代动力学-药效学(PK-PD)建模描述了利妥昔单抗在滤泡性淋巴瘤(FL)中的浓度-效应关系。该 PK-PD 模型中包含了 FCGR3A 遗传多态性对 FL 患者利妥昔单抗疗效的影响。先前的研究表明,增加利妥昔单抗的剂量和/或输注次数可能会导致 FL 患者的临床反应更好。
本研究的新增内容
先前经过验证的 PK-PD 模型可用于设计 FL 患者的利妥昔单抗优化剂量方案。临床试验模拟显示,改变利妥昔单抗剂量具有潜在的临床获益。优化利妥昔单抗剂量方案不能弥补 FCGR3A-158F 携带者的反应低于 FCGR3A-158VV 患者的情况。
目的
利妥昔单抗显著改善了非霍奇金淋巴瘤(NHL)患者的生存率。然而,研究表明,目前使用的剂量方案(即 375mg/m²)可以进行优化。本研究的目的是使用先前验证的 PK-PD 模型来量化新的利妥昔单抗剂量方案在滤泡性 NHL(FL)患者中的获益,并设计研究优化利妥昔单抗剂量的临床试验。
方法
使用 PK-PD 模型预测单独使用利妥昔单抗治疗无症状 FL 患者和使用利妥昔单抗联合化疗(R-CHOP)治疗复发性/难治性 FL 患者的 FL 患者无进展生存期(PFS)。该模型考虑了基因编码 FcγRIIIa 受体的 FCGR3A 多态性对临床疗效的影响。单独使用利妥昔单抗或联合常规化疗(CHOP)的几种诱导和维持剂量方案进行了测试。研究了调整 F 携带者利妥昔单抗剂量的获益。使用模型预测的 PFS 在 80%的功效下计算了两臂临床试验设计所需的受试者数量。
结果
该模型预测,单独使用利妥昔单抗或 R-CHOP 时,利妥昔单抗维持剂量为 1500mg/m² 可能具有潜在获益。该模型表明,即使利妥昔单抗剂量明显增加,FCGR3A-F 携带者的 PFS 仍低于纯合 FCGR3A-VV 患者。
结论
我们的结果表明,在诱导和维持期间增加 FL 患者利妥昔单抗的剂量可能有益。这些结果需要在对照临床试验中得到证实。
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