奎尼丁在人体中的药代动力学：处置模型的选择及绝对生物利用度研究。

Quinidine pharmacokinetics in man: choice of a disposition model and absolute bioavailability studies.

作者信息

Guentert T W, Holford N H, Coates P E, Upton R A, Riegelman S

出版信息

J Pharmacokinet Biopharm. 1979 Aug;7(4):315-30. doi: 10.1007/BF01062532.

Abstract

Parameters describing disposition and absolute oral bioavailability of quinidine were determined in ten normal male volunteers using a specific assay. Various models were compared for their ability to describe the experimental data. An intravenous quinidine gluconate and an oral quinidine sulfate solution were administered (3.74 mg/kg quinidine base). In three subjects the intravenous and oral studies were repeated. One-, two-, and three-compartment models with zero and first-order input were fitted to the plasma concentrations. The selection of the best model was made by the Akaike information criterion and by eye. After intravenous administration, plasma concentration-time curves could be adequately described by a two-compartment model. Mean disposition constants (+/- SD) were obtained from individualized fits (V1: 0.398 +/- 0.336 LITER/KG, Vdarea: 2.53 +/- 0.72 liter/kg, alpha: 0.316 +/- 0.294 min -1, beta: 0.00204 +/- 0.00262 min -1, k2: 0.0305 +/- 0.0101 min -1). A clearance of 4.9 +/- 1.5 ml/min/kg was observed. After oral administration, three-compartment models were needed to describe the observed data in some cases. Absorption was in most cases best described by a zero-order rather than by a first-order process. The time to peak concentration varied from 23 to 121 min, the lag time was always less than 3 min, and the mean elimination rate constant was 0.00171 min -1. The mean oral bioavailability of quinidine was 0.70 +/- 0.17.

摘要

使用特定分析方法在10名正常男性志愿者中测定了描述奎尼丁处置和绝对口服生物利用度的参数。比较了各种模型描述实验数据的能力。静脉注射葡萄糖酸奎尼丁和口服硫酸奎尼丁溶液（3.74mg/kg奎尼丁碱）。在三名受试者中重复进行静脉和口服研究。将具有零级和一级输入的一室、二室和三室模型拟合到血浆浓度。通过赤池信息准则和直观判断选择最佳模型。静脉给药后，二室模型可充分描述血浆浓度-时间曲线。从个体化拟合中获得平均处置常数（±标准差）（V1：0.398±0.336升/千克，Vdarea：2.53±0.72升/千克，α：0.316±0.294分钟-1，β：0.00204±0.00262分钟-1，k2：0.0305±0.0101分钟-1）。观察到清除率为4.9±1.5毫升/分钟/千克。口服给药后，在某些情况下需要三室模型来描述观察到的数据。在大多数情况下，吸收最好用零级过程而非一级过程来描述。达峰时间在23至121分钟之间变化，滞后时间始终小于3分钟，平均消除速率常数为0.00171分钟-1。奎尼丁的平均口服生物利用度为0.70±0.17。

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奎尼丁在人体中的药代动力学：处置模型的选择及绝对生物利用度研究。

Quinidine pharmacokinetics in man: choice of a disposition model and absolute bioavailability studies.

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