Greenberg Rachel G, Wu Huali, Laughon Matthew, Capparelli Edmund, Rowe Stevie, Zimmerman Kanecia O, Smith P Brian, Cohen-Wolkowiez Michael
Department of Pediatrics, Duke University School of Medicine, Durham, NC, USA.
Duke Clinical Research Institute, Duke University School of Medicine, Durham, NC, USA.
J Clin Pharmacol. 2017 Sep;57(9):1174-1182. doi: 10.1002/jcph.904. Epub 2017 Apr 25.
Despite limited pharmacokinetic (PK) data, dexmedetomidine is increasingly being used off-label for sedation in infants. We aimed to characterize the developmental PK changes of dexmedetomidine during infancy. In this open-label, single-center PK study of dexmedetomidine in infants receiving dexmedetomidine per clinical care, ≤10 blood samples per infant were collected. A set of structural PK models and residual error models were explored using nonlinear mixed-effects modeling in NONMEM. Covariates including postmenstrual age (PMA), serum creatinine, and recent history of cardiac surgery requiring cardiopulmonary bypass were investigated for their influence on PK parameters. Univariable generalized estimating equation models were used to evaluate the association of hypotension with dexmedetomidine concentrations. A total of 89 PK samples were collected from 20 infants with a median PMA of 44 weeks (range, 33-61). The median maximum dexmedetomidine infusion dose during the study period was 1.8 μg/(kg·h) (0.5-2.5), and 16/20 infants had a maximum dose >1 μg/(kg·h). A 1-compartment model best described the data. Younger PMA was a significant predictor of lower clearance. Infants with a history of cardiac surgery had ∼40% lower clearance compared to those without a history of cardiac surgery. For infants with PMA of 33 to 61 weeks and body weight of 2 to 6 kg, the estimated clearance and volume of distribution were 0.87 to 2.65 L/(kg·h) and 1.5 L/kg, respectively. No significant associations were found between dexmedetomidine concentrations and hypotension. Infants with younger PMA and recent cardiac surgery may require relatively lower doses of dexmedetomidine to achieve exposure similar to older patients and those without cardiac surgery.
尽管药代动力学(PK)数据有限,但右美托咪定越来越多地被用于婴儿镇静的超说明书用药。我们旨在描述婴儿期右美托咪定的发育性PK变化。在这项针对接受右美托咪定临床护理的婴儿的开放标签、单中心PK研究中,每个婴儿收集≤10份血样。使用NONMEM中的非线性混合效应模型探索了一组结构PK模型和残差模型。研究了包括孕龄(PMA)、血清肌酐以及近期需要体外循环心脏手术史等协变量对PK参数的影响。使用单变量广义估计方程模型评估低血压与右美托咪定浓度之间的关联。共从20名婴儿中收集了89份PK样本,PMA中位数为44周(范围33 - 61周)。研究期间右美托咪定的最大输注剂量中位数为1.8μg/(kg·h)(0.5 - 2.5),20名婴儿中有16名最大剂量>1μg/(kg·h)。一室模型最能描述数据。较小的PMA是清除率较低的显著预测因素。有心脏手术史的婴儿与无心脏手术史的婴儿相比,清除率低约40%。对于PMA为33至61周、体重为2至6kg的婴儿,估计清除率和分布容积分别为0.87至2.65L/(kg·h)和1.5L/kg。未发现右美托咪定浓度与低血压之间存在显著关联。PMA较小且近期接受心脏手术的婴儿可能需要相对较低剂量的右美托咪定才能达到与年龄较大的患者以及无心脏手术史的患者相似的暴露水平。
