尼可地尔治疗急性心力衰竭效果的群体药代动力学和药效学建模
Population pharmacokinetic and pharmacodynamic modelling of the effects of nicorandil in the treatment of acute heart failure.
作者信息
Iida Satofumi, Kinoshita Haruki, Holford Nicholas H G
机构信息
Department of Clinical Pharmacology, Chugai Clinical Research Center Co., Ltd., Tokyo, Japan.
出版信息
Br J Clin Pharmacol. 2008 Sep;66(3):352-65. doi: 10.1111/j.1365-2125.2008.03257.x.
AIMS
The aims of the study were 1) to evaluate the pharmacokinetics of nicorandil in healthy subjects and acute heart failure (AHF) patients and 2) to evaluate the exposure-response relationship with pulmonary arterial wedge pressure (PAWP) in AHF patients and to predict an appropriate dosing regimen for nicorandil.
METHODS
Based on the data from two healthy volunteer and three AHF patient studies, models were developed to characterize the pharmacokinetics and pharmacodynamics of nicorandil. PAWP was used as the pharmacodynamic variable. An asymptotic exponential disease progression model was used to account for time dependent changes in PAWP that were not explained by nicorandil exposure. The modelling was performed using NONMEM version V.
RESULTS
The pharmacokinetics of nicorandil were characterized by a two-compartment model with linear elimination. CL, V1 and V2 in AHF patients were 1.96, 1.39 and 4.06 times greater than in healthy subjects. Predicted plasma concentrations were assumed to have an immediate concentration effect relationship on PAWP. An inhibitory E(max) model with E(max) of -11.7 mmHg and EC(50) of 423 microg l(-1) was considered the best relationship between nicorandil concentrations and PAWP. PAWP decreased independently of nicorandil exposure. This drug independent decline was described by an asymptotic decrease of 6.1 mmHg with a half-life of 5.3 h.
CONCLUSIONS
AHF patients have higher clearance and initial distribution volume of nicorandil compared with healthy subjects. The median target nicorandil concentration to decrease PAWP by 30% is predicted to be 748 microg l(-1), indicating that a loading dose of 200 microg kg(-1) and a maintenance dose of 400 microg kg(-1) h(-1) would be appropriate for the initial treatment of AHF.
目的
本研究的目的为:1)评估尼可地尔在健康受试者和急性心力衰竭(AHF)患者中的药代动力学;2)评估AHF患者中尼可地尔暴露量与肺毛细血管楔压(PAWP)之间的暴露-反应关系,并预测尼可地尔的合适给药方案。
方法
基于两项健康志愿者研究和三项AHF患者研究的数据,建立模型以表征尼可地尔的药代动力学和药效学。将PAWP用作药效学变量。使用渐近指数疾病进展模型来解释未被尼可地尔暴露所解释的PAWP随时间的变化。使用NONMEM V版进行建模。
结果
尼可地尔的药代动力学特征为具有线性消除的二室模型。AHF患者的清除率(CL)、中央室分布容积(V1)和周边室分布容积(V2)分别比健康受试者高1.96、1.39和4.06倍。假定预测的血浆浓度与PAWP具有即时浓度效应关系。认为E(max)为-11.7 mmHg且EC(50)为423 μg l(-1)的抑制性E(max)模型是尼可地尔浓度与PAWP之间的最佳关系。PAWP的下降与尼可地尔暴露无关。这种与药物无关的下降表现为以6.1 mmHg的渐近下降,半衰期为5.3小时。
结论
与健康受试者相比,AHF患者的尼可地尔清除率更高,初始分布容积更大。预计将PAWP降低30%的尼可地尔中位目标浓度为748 μg l(-1),这表明200 μg kg(-1)的负荷剂量和400 μg kg(-1) h(-1)的维持剂量适用于AHF的初始治疗。
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