Lockwood Peter A, Cook Jack A, Ewy Wayne E, Mandema Jaap W
Clinical Pharmacokinetics and Pharmacodynamics, Pfizer Global Research and Development, Ann Arbor, MI, USA.
Pharm Res. 2003 Nov;20(11):1752-9. doi: 10.1023/b:pham.0000003371.32474.ee.
Pregabalin is being evaluated for the treatment of neuropathic pain. Two phase 2 studies were simulated to determine how precisely the dose that caused a one-point reduction in the pain score could be estimated. The likelihood of demonstrating at least a one-point change for each available dose strength was also calculated.
A pharmacokinetic-pharmacodynamic (PK/PD) model relating pain relief to gabapentin plasma concentrations was derived from a phase 3 study. The PK component of the model was modified to reflect pregabalin PK. The PD component was modified by scaling the gabapentin concentration-effect relationship to reflect pregabalin potency, which was based on preclincal data. Uncertainty about the potency difference and the steepness of the concentration-response slope necessitated simulating a distribution of outcomes for a series of PK/PD models.
Analysis of the simulated data suggested that after accounting for the uncertainty, there was an 80% chance that the dose defining the clinical feature was within 45% of the true value. The likelihood of estimating a dose that was within an acceptable predefined precision range relative to a known value approximated 60%. The minimum dose that should be studied to have a reasonable chance of estimating the dose that caused a one-point change was 300 mg.
Doses that identify predefined response may be imprecisely estimated, suggesting that replication of a similar outcome may be elusive in a confirmatory study. Quantification of this precision provides a rationale for phase 2 trial design and dose selection for confirmatory studies.
正在对普瑞巴林治疗神经性疼痛进行评估。模拟了两项2期研究,以确定能精确估计使疼痛评分降低1分的剂量的程度。还计算了每种可用剂量强度显示至少1分变化的可能性。
从一项3期研究中得出了一个将疼痛缓解与加巴喷丁血浆浓度相关联的药代动力学 - 药效学(PK/PD)模型。对该模型的PK部分进行了修改以反映普瑞巴林的PK。通过对加巴喷丁浓度 - 效应关系进行缩放来修改PD部分,以反映基于临床前数据的普瑞巴林效力。效力差异和浓度 - 反应斜率的陡度的不确定性使得有必要对一系列PK/PD模型的结果分布进行模拟。
对模拟数据的分析表明,在考虑不确定性之后,定义临床特征的剂量有80%的可能性在真实值的45%范围内。相对于已知值,估计在可接受的预定义精度范围内的剂量的可能性约为60%。为了有合理的机会估计导致1分变化的剂量,应研究的最小剂量为300毫克。
确定预定义反应的剂量可能估计不准确,这表明在验证性研究中可能难以复制类似结果。这种精度的量化为2期试验设计和验证性研究的剂量选择提供了理论依据。