MedImmune, Gaithersburg, Maryland, USA.
Antimicrob Agents Chemother. 2012 Sep;56(9):4927-36. doi: 10.1128/AAC.06446-11. Epub 2012 Jul 16.
Although it has been on the market for over a decade, confusion remains regarding the pharmacokinetics (PK) and optimal dosing of palivizumab, a humanized IgG1κ monoclonal antibody indicated for the prevention of serious lower respiratory tract disease caused by respiratory syncytial virus (RSV) in pediatric patients at high risk of RSV disease. The objectives of this analysis were to characterize the population PK of palivizumab in adults and children using nonlinear mixed-effect modeling, quantify the effects of individual covariates on variability in palivizumab disposition, and compare palivizumab exposures for various dosing scenarios. Palivizumab PK data from 22 clinical studies were used for model development. The model was developed using a two-stage approach: (i) a 2-compartment model with first-order absorption after intramuscular administration was fitted to adult data, and (ii) the same structural model was fitted to the sparse pediatric data using the NONMEM $PRIOR subroutine, with informative priors obtained from the adult analysis. Body weight and an age descriptor that combines gestational age and postnatal age (PAGE) using an asymptotic-exponential model best described palivizumab clearance in pediatric patients. Palivizumab clearance increased slightly from 10.2 ml/day to 11.9 ml/day as a function of PAGE ranging from 7 to 18 months. Covariate analysis indicated a 20% higher clearance in children with chronic lung disease and in children with antidrug antibody titer values of ≥80. These covariates did not substantially explain interindividual variability. In the label-indicated pediatric population, body weight was the primary demographic factor affecting palivizumab PK. Body weight-based dosing of 15 mg/kg yields similar palivizumab concentrations in children of different gestational and postnatal ages. Simulations demonstrated that there was little difference in palivizumab PK between healthy term and premature infants. Simulations also demonstrated that the 5 monthly palivizumab doses of 15 mg/kg, consistent with the label and studied in two randomized, clinical trials, provided greater and more prolonged palivizumab exposure than did an abbreviated dosing regimen of 3 monthly doses.
尽管帕利珠单抗(一种人源化 IgG1κ 单克隆抗体)作为一种预防呼吸道合胞病毒(RSV)引起的儿科高危患者严重下呼吸道疾病的药物,已经上市十余年,但对于其药代动力学(PK)和最佳剂量仍存在一些混淆。本分析的目的是使用非线性混合效应模型对成人和儿童帕利珠单抗的群体 PK 进行特征描述,量化个体协变量对帕利珠单抗处置变异性的影响,并比较不同剂量方案下帕利珠单抗的暴露情况。使用 22 项临床研究的帕利珠单抗 PK 数据进行模型开发。该模型采用两阶段方法进行开发:(i)在肌内注射后采用一级吸收的两室模型拟合成人数据,(ii)使用 NONMEM $PRIOR 子例程,根据成人分析获得信息性先验,将相同的结构模型拟合到稀疏的儿科数据中。体重和一个结合了胎龄和出生后年龄(PAGE)的年龄描述符的渐近指数模型,最好地描述了儿科患者的帕利珠单抗清除率。随着 PAGE 从 7 至 18 个月的变化,帕利珠单抗的清除率从 10.2 ml/天略微增加到 11.9 ml/天。协变量分析表明,慢性肺部疾病患儿和抗药抗体滴度值≥80 的患儿的清除率提高了 20%。这些协变量并没有显著解释个体间的变异性。在标签指示的儿科人群中,体重是影响帕利珠单抗 PK 的主要人口统计学因素。基于体重的 15 mg/kg 剂量方案可在不同胎龄和出生后年龄的儿童中产生相似的帕利珠单抗浓度。模拟结果表明,健康足月和早产儿之间帕利珠单抗 PK 差异较小。模拟结果还表明,与标签一致并在两项随机临床试验中研究的 5 个月 15 mg/kg 帕利珠单抗剂量方案比 3 个月剂量方案提供了更大和更持久的帕利珠单抗暴露。