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CYP2C19基因多态性对氯吡格雷药代动力学和药效学的影响：氯吡格雷抵抗的一种可能机制。

The effect of CYP2C19 polymorphism on the pharmacokinetics and pharmacodynamics of clopidogrel: a possible mechanism for clopidogrel resistance.

作者信息

Kim K A, Park P W, Hong S J, Park J-Y

机构信息

Department of Clinical Pharmacology and Toxicology, Anam Hospital, Korea University College of Medicine, Seoul, Korea.

出版信息

Clin Pharmacol Ther. 2008 Aug;84(2):236-42. doi: 10.1038/clpt.2008.20. Epub 2008 Mar 5.

DOI:10.1038/clpt.2008.20

PMID:18323861

Abstract

We evaluated the effect of the CYP2C19 genotype on the pharmacokinetics and pharmacodynamcis of clopidogrel. Twenty-four subjects were divided into three groups on the basis of their CYP2C19 genotype: homozygous extensive metabolizers (homoEMs, n = 8), heterozygous EMs (heteroEMs, n = 8), and poor metabolizers (PMs, n = 8). After a single 300-mg loading dose of clopidogrel on day 1, followed by a 75-mg daily maintenance dose from days 2 to 7, we measured the plasma levels of clopidogrel and assessed the antiplatelet effect as pharmacodynamics. The mean clopidogrel area under the curve (AUC) for PMs was 1.8- and 2.9-fold higher than that for heteroEMs and homoEMs, respectively (P = 0.013). The mean peak plasma concentration in PMs was 1.8- and 4.7-fold higher than that of heteroEMs and homoEMs, respectively (P = 0.008). PMs exhibited a significantly lower antiplatelet effect than heteroEMs or homoEMs (P < 0.001). From these findings it is clear that the CYP2C19 genotype affects the plasma levels of clopidogrel and modulates the antiplatelet effect of clopidogrel.

摘要

我们评估了CYP2C19基因型对氯吡格雷药代动力学和药效学的影响。24名受试者根据其CYP2C19基因型分为三组：纯合子广泛代谢者（homoEMs，n = 8）、杂合子代谢者（heteroEMs，n = 8）和慢代谢者（PMs，n = 8）。在第1天单次给予300 mg氯吡格雷负荷剂量，随后在第2至7天给予75 mg每日维持剂量后，我们测量了氯吡格雷的血浆水平，并评估了作为药效学的抗血小板作用。PMs的氯吡格雷曲线下平均面积（AUC）分别比heteroEMs和homoEMs高1.8倍和2.9倍（P = 0.013）。PMs的血浆平均峰值浓度分别比heteroEMs和homoEMs高1.8倍和4.7倍（P = 0.008）。PMs的抗血小板作用明显低于heteroEMs或homoEMs（P < 0.001）。从这些发现可以清楚地看出，CYP2C19基因型影响氯吡格雷的血浆水平并调节氯吡格雷的抗血小板作用。

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CYP2C19基因多态性对氯吡格雷药代动力学和药效学的影响：氯吡格雷抵抗的一种可能机制。

The effect of CYP2C19 polymorphism on the pharmacokinetics and pharmacodynamics of clopidogrel: a possible mechanism for clopidogrel resistance.

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