环磷酰胺及其代谢物在婴幼儿原发性脑肿瘤中的暴露-毒性关联:对剂量的影响。
Exposure-Toxicity Association of Cyclophosphamide and Its Metabolites in Infants and Young Children with Primary Brain Tumors: Implications for Dosing.
机构信息
Department of Pharmaceutical Sciences, St. Jude Children's Research Hospital, Memphis, Tennessee.
Department of Biostatistics, St. Jude Children's Research Hospital, Memphis, Tennessee.
出版信息
Clin Cancer Res. 2020 Apr 1;26(7):1563-1573. doi: 10.1158/1078-0432.CCR-19-2685. Epub 2019 Dec 3.
PURPOSE
To characterize the population pharmacokinetics of cyclophosphamide, active 4-hydroxy-cyclophosphamide (4OH-CTX), and inactive carboxyethylphosphoramide mustard (CEPM), and their associations with hematologic toxicities in infants and young children with brain tumors. To use this information to provide cyclophosphamide dosing recommendations in this population.
PATIENTS AND METHODS
Patients received four cycles of a 1-hour infusion of 1.5 g/m cyclophosphamide. Serial samples were collected to measure cyclophosphamide, 4OH-CTX, and CEPM plasma concentrations. Population pharmacokinetic modeling was performed to identify the patient characteristics influencing drug disposition. Associations between drug exposures and metrics reflecting drug-induced neutropenia, erythropenia, and thrombocytopenia were investigated. A Bayesian approach was developed to predict 4OH-CTX exposure using only cyclophosphamide and CEPM plasma concentrations.
RESULTS
Data from 171 patients (0.07-4.9 years) were adequately fitted by a two-compartment (cyclophosphamide) and one-compartment model (metabolites). Young infants (<6 months) exhibited higher mean 4OH-CTX exposure than did young children (138.4 vs. 107.2 μmol/L·h, < 0.0001). No genotypes exhibited clinically significant influence on drug exposures. Worse toxicity metrics were significantly associated with higher 4OH-CTX exposures. Dosing simulations suggested decreased cyclophosphamide dosage to 1.2 g/m for young infants versus 1.5 g/m for children to attain similar 4OH-CTX exposure. Bayesian-modeled 4OH-CTX exposure predictions were precise (mean absolute prediction error 14.8% ± 4.2%) and had low bias (mean prediction error 4.9% ± 5.1%).
CONCLUSIONS
A 4OH-CTX exposure-toxicity association was established, and a decreased cyclophosphamide dosage for young infants was suggested to reduce toxicity in this population. Bayesian modeling to predict 4OH-CTX exposure may reduce clinical processing-related costs and provide insights into further exposure-response associations.
目的
描述脑肿瘤婴幼儿患者中环磷酰胺、活性 4-羟基环磷酰胺(4OH-CTX)和无活性羧乙基磷酰胺氮芥(CEPM)的群体药代动力学特征,及其与血液学毒性的关系。利用这些信息为该人群提供环磷酰胺的剂量建议。
方法
患者接受 4 个周期的 1 小时 1.5 g/m2 环磷酰胺输注。采集连续样本以测量环磷酰胺、4OH-CTX 和 CEPM 血浆浓度。进行群体药代动力学建模以确定影响药物处置的患者特征。研究药物暴露与反映药物诱导中性粒细胞减少症、红细胞减少症和血小板减少症的指标之间的关系。采用贝叶斯方法,仅使用环磷酰胺和 CEPM 血浆浓度预测 4OH-CTX 暴露。
结果
171 名患者(0.07-4.9 岁)的数据由双室(环磷酰胺)和一室模型(代谢物)充分拟合。小婴儿(<6 个月)的平均 4OH-CTX 暴露量高于幼儿(138.4 与 107.2 μmol/L·h,<0.0001)。没有基因型对药物暴露表现出明显的临床影响。更严重的毒性指标与更高的 4OH-CTX 暴露量显著相关。剂量模拟表明,与儿童相比,小婴儿的环磷酰胺剂量应降低至 1.2 g/m2,以达到相似的 4OH-CTX 暴露量。贝叶斯模型预测的 4OH-CTX 暴露量具有较高的准确性(平均绝对预测误差 14.8%±4.2%)和较低的偏差(平均预测误差 4.9%±5.1%)。
结论
建立了 4OH-CTX 暴露-毒性的关系,并建议小婴儿减少环磷酰胺剂量以降低该人群的毒性。贝叶斯模型预测 4OH-CTX 暴露量可降低与临床处理相关的成本,并为进一步的暴露-反应关系提供见解。
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