格列本脲及其活性代谢产物在人体中的浓度-效应关系:药代动力学和药效学建模
Concentration-effect relations of glibenclamide and its active metabolites in man: modelling of pharmacokinetics and pharmacodynamics.
作者信息
Rydberg T, Jönsson A, Karlsson M O, Melander A
机构信息
Hospital Pharmacy, Central Hospital, Kristianstad, Sweden.
出版信息
Br J Clin Pharmacol. 1997 Apr;43(4):373-81. doi: 10.1046/j.1365-2125.1997.00571.x.
AIMS
The main purpose of this paper is to describe the relationship between serum concentrations of glibenclamide and its main metabolites and the effects on blood glucose levels, the clinically most relevant parameter to assess in diabetes.
METHODS
Serum concentrations and blood glucose lowering effects (expressed as percent blood glucose reduction vs placebo) of glibenclamide (Gb) and its active metabolites, 4-trans-hydroxy-(M1) and 3-cis-hydroxy-glibenclamide (M2), were analysed in eight healthy subjects participating in a placebo-controlled, randomized, single-blind crossover study, using intravenous administration of each compound as well as oral administration of Gb.
RESULTS
Plots of % blood glucose reduction vs log serum concentration demonstrated counter-clockwise hysteresis for parent drug and its metabolites. An effect compartment was linked to appropriate pharmacokinetic models and pharmacokinetic and pharmacodynamic modelling was used to fit the pharmacokinetics of Gb by both routes and the metabolites for each individual. Based on the individual concentration-time profiles a PK/PD-model was applied to all effect data simultaneously. An increase in the steady-state serum concentration when the effect is 50% of maximal, CEss50, was found in the sequence M1 (23 ng ml-1), M2 (37 ng ml-1) and Gb (108 ng ml-1). Corresponding interindividual variabilities expressed as CV% were 25%, 47% and 26%. The elimination rate constants from the effect site (kEO) were estimated and increased in the order M1 (0.178 h-1, CV 13%), M2 (0.479 h-1, CV 8.5%) and Gb (1.59 h-1, CV 36%). Corresponding equilibration half-lives for the effect site (kEO-HL) were 3.9 h, 1.4 h and 0.44 h. Estimated Emax-values obtained for M1, M2 and Gb were 40% (CV 30%), 27% (CV 56%) and 56% (CV 14%), respectively.
CONCLUSIONS
It is concluded that the two major metabolites of Gb are hypoglycaemic in man, that they may have higher activity at low concentrations and that they may have a longer effect duration than the parent drug.
目的
本文的主要目的是描述格列本脲及其主要代谢产物的血清浓度与血糖水平(糖尿病临床评估中最相关的参数)变化之间的关系。
方法
在一项安慰剂对照、随机、单盲交叉研究中,对8名健康受试者静脉注射和口服格列本脲(Gb)后,分析了其血清浓度及血糖降低效果(以与安慰剂相比血糖降低百分比表示),同时分析了其活性代谢产物4-反式羟基格列本脲(M1)和3-顺式羟基格列本脲(M2)的血清浓度及血糖降低效果。
结果
血糖降低百分比与血清浓度对数的关系图显示,母体药物及其代谢产物呈现逆时针滞后现象。将效应室与适当的药代动力学模型相联系,并采用药代动力学和药效学建模方法拟合每个个体通过两种给药途径的Gb药代动力学以及代谢产物的药代动力学。基于个体浓度-时间曲线,将药代动力学/药效学模型同时应用于所有效应数据。当效应为最大效应的50%时,稳态血清浓度的增加值(CEss50)在M1(23 ng/ml)、M2(37 ng/ml)和Gb(108 ng/ml)序列中依次升高。以CV%表示的相应个体间变异性分别为25%、47%和26%。估计了效应部位的消除速率常数(kEO),其大小顺序为M1(0.178 h-1,CV 13%)、M2(0.479 h-1,CV 8.5%)和Gb(1.59 h-1,CV 36%)。效应部位的相应平衡半衰期(kEO-HL)分别为3.9 h、1.4 h和0.44 h。M1、M2和Gb的估计Emax值分别为40%(CV 30%)、27%(CV 56%)和56%(CV 14%)。
结论
得出结论,Gb的两种主要代谢产物在人体中具有降血糖作用,它们在低浓度时可能具有更高的活性,且作用持续时间可能比母体药物更长。
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