Regeneron Pharmaceuticals, Inc., Tarrytown, New York, USA.
Nuventra, Durham, North Carolina, USA.
CPT Pharmacometrics Syst Pharmacol. 2021 Nov;10(11):1412-1421. doi: 10.1002/psp4.12711. Epub 2021 Oct 13.
Evinacumab, an angiopoietin-like protein 3 (ANGPTL3) inhibitor, has been shown to significantly reduce low-density lipoprotein cholesterol (LDL-C) in patients with homozygous familial hypercholesterolemia (HoFH). This work characterized the population pharmacokinetics (PK)/pharmacodynamics (PD) of evinacumab using pooled phase III clinical data. Total evinacumab PK were described by a two-compartment model with combined linear and saturable (Michaelis-Menten) elimination, and first-order absorption. At clinically relevant concentrations, plasma drug concentrations were mainly influenced by the linear clearance pathway. Although the maximum target-mediated rate of elimination (V ) parameter for the saturable pathway was found to be positively related to baseline ANGPLTL3, variability in body weight contributed more to the variability in evinacumab exposure than variability in ANGPTL3. An effect of HoFH versus healthy volunteers on V was also identified. Weight-based dosing regimens resulted in consistent evinacumab exposure across weight ranges. An indirect exposure-response model adequately described the relationship between evinacumab and LDL-C, where drug concentration is assumed to inhibit LDL-C production. The final population PK/PD model included two nonclinically significant covariates (race and baseline body weight) on the maximum drug-induced inhibitory effect (I ) and one (baseline LDL-C) on the evinacumab concentration inducing 50% of I (IC ). A smaller IC was observed in patients with higher baseline LDL-C, suggesting greater sensitivity to treatment. Population exposure-response analysis permitted estimation of derived PD parameters and individual LDL-C levels over time for patients with HoFH. The model accurately predicted the proportion of patients with HoFH achieving prespecified LDL-C goals with evinacumab during the ELIPSE HoFH study, further supporting a dosing strategy.
依维莫司,一种血管生成素样蛋白 3(ANGPTL3)抑制剂,已被证明可显著降低纯合子家族性高胆固醇血症(HoFH)患者的低密度脂蛋白胆固醇(LDL-C)。本项工作使用 III 期临床汇总数据对依维莫司的群体药代动力学(PK)/药效动力学(PD)特征进行了描述。采用双室模型对依维莫司的总体 PK 进行描述,该模型结合了线性和饱和(米氏)消除以及一级吸收。在临床相关浓度下,血浆药物浓度主要受线性清除途径的影响。虽然发现饱和途径的最大靶向介导消除率(V )参数与基线 ANGPLTL3 呈正相关,但体重的变异性对依维莫司暴露的变异性贡献大于 ANGPLTL3 的变异性。还发现 HoFH 与健康志愿者之间对 V 的影响存在差异。基于体重的给药方案可确保在体重范围内依维莫司暴露量的一致性。间接的暴露-反应模型充分描述了依维莫司与 LDL-C 之间的关系,其中药物浓度被假定可抑制 LDL-C 的产生。最终的群体 PK/PD 模型纳入了两个对最大药物诱导抑制效应(I )有非临床意义的协变量(种族和基线体重),以及一个对 I 达到 50%时的依维莫司浓度(IC )有意义的协变量(基线 LDL-C)。在基线 LDL-C 较高的患者中观察到较小的 IC,提示对治疗的敏感性更高。群体暴露-反应分析可估算 HoFH 患者的个体 PD 参数和随时间变化的 LDL-C 水平。该模型准确预测了在 ELIPSE HoFH 研究中依维莫司治疗 HoFH 患者时达到 LDL-C 目标的患者比例,进一步支持了给药策略。
