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抗高血压药物的药物基因组学:抗高血压反应药物基因组学评估(PEAR)研究的基本原理与设计

Pharmacogenomics of antihypertensive drugs: rationale and design of the Pharmacogenomic Evaluation of Antihypertensive Responses (PEAR) study.

作者信息

Johnson Julie A, Boerwinkle Eric, Zineh Issam, Chapman Arlene B, Bailey Kent, Cooper-DeHoff Rhonda M, Gums John, Curry R Whit, Gong Yan, Beitelshees Amber L, Schwartz Gary, Turner Stephen T

机构信息

University of Florida College of Pharmacy and Center for Pharmacogenomics, Gainesville, USA.

出版信息

Am Heart J. 2009 Mar;157(3):442-9. doi: 10.1016/j.ahj.2008.11.018.

DOI:10.1016/j.ahj.2008.11.018
PMID:19249413
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2671287/
Abstract

BACKGROUND

Selection of antihypertensive therapy is often empiric, and use of genetic information to guide drug therapy selection holds future promise.

TRIAL DESIGN

The objective of this trial is to identify the genetic determinants of the antihypertensive and adverse metabolic responses to a thiazide diuretic (hydrochlorothiazide), a beta-blocker (atenolol), and their combination. This will be accomplished through candidate gene and genome-wide association approaches. Individuals with uncomplicated hypertension (N = 800), with ages 17 and 65 years, are being enrolled. Current antihypertensive therapy is discontinued, and hypertension is confirmed, along with collection of other baseline data. Subjects are then randomized to either hydrochlorothiazide or atenolol, with 1 dose titration step, followed by assessment of response to therapy after at least 6 weeks on the target dose. Those with blood pressure >120/70 mm Hg have the second drug added, with similar dose titration and response assessment procedures. Data collected include home, office, and 24-hour ambulatory blood pressure. Biological samples collected in the fasting state include plasma, serum, DNA (buffy coat), and urine. Epstein-Barr virus transformed lymphocyte cell lines are also being created.

CONCLUSIONS

Pharmacogenetic-guided therapy holds clinical potential for hypertension, but the literature in the field is limited. This trial will add substantially to our understanding of the genetic determinants of antihypertensive and adverse metabolic responses to 2 commonly used antihypertensive drug classes.

摘要

背景

抗高血压治疗的选择通常是经验性的,利用基因信息指导药物治疗选择具有未来前景。

试验设计

本试验的目的是确定对噻嗪类利尿剂(氢氯噻嗪)、β受体阻滞剂(阿替洛尔)及其联合用药的降压和不良代谢反应的基因决定因素。这将通过候选基因和全基因组关联方法来完成。正在招募年龄在17至65岁之间、患有单纯性高血压的个体(N = 800)。停止当前的抗高血压治疗,确认高血压,并收集其他基线数据。然后将受试者随机分为氢氯噻嗪组或阿替洛尔组,进行1次剂量滴定步骤,然后在目标剂量至少治疗6周后评估治疗反应。血压>120/70 mmHg的患者加用第二种药物,采用类似的剂量滴定和反应评估程序。收集的数据包括家庭、办公室和24小时动态血压。在空腹状态下收集的生物样本包括血浆、血清、DNA(血沉棕黄层)和尿液。还正在创建爱泼斯坦-巴尔病毒转化的淋巴细胞系。

结论

药物基因组学指导的治疗对高血压具有临床潜力,但该领域的文献有限。本试验将大大增加我们对两种常用抗高血压药物类别的降压和不良代谢反应的基因决定因素的理解。

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