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雷诺嗪用于Ⅲ型先天性长QT综合征:实验及长期临床数据

Ranolazine for Congenital Long-QT Syndrome Type III: Experimental and Long-Term Clinical Data.

作者信息

Chorin Ehud, Hu Dan, Antzelevitch Charles, Hochstadt Aviram, Belardinelli Luiz, Zeltser David, Barajas-Martinez Hector, Rozovski Uri, Rosso Raphael, Adler Arnon, Benhorin Jesaia, Viskin Sami

机构信息

From the Tel Aviv Sourasky Medical Center and Sackler School of Medicine, Tel Aviv University, Israel (E.C., A.H., D.Z., U.R., R.R., A.A., J.B., S.V.); Masonic Medical Research Laboratory, Utica, NY (D.H., C.A., H.B.-M.); Cardiovascular Research Program, Lankenau Institute for Medical Research, Wynnewood, PA (C.A.); and Gilead Sciences, Inc, Foster City, CA (L.B.).

出版信息

Circ Arrhythm Electrophysiol. 2016 Oct;9(10). doi: 10.1161/CIRCEP.116.004370.

DOI:10.1161/CIRCEP.116.004370
PMID:27733495
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5119553/
Abstract

BACKGROUND

The basic defect in long-QT syndrome type III (LQT3) is an excessive inflow of sodium current during phase 3 of the action potential caused by mutations in the SCN5A gene. Most sodium channel blockers reduce the early (peak) and late components of the sodium current (I and I), but ranolazine preferentially reduces I. We, therefore, evaluated the effects of ranolazine in LQT3 caused by the D1790G mutation in SCN5A.

METHODS AND RESULTS

We performed an experimental study of ranolazine in TSA201 cells expressing the D1790G mutation. We then performed a long-term clinical evaluation of ranolazine in LQT3 patients carrying the D1790G mutation. In the experimental study, I was significantly higher in D1790G than in wild-type channels expressed in the TSA201 cells. Ranolazine exerted a concentration-dependent block of I of the SCN5A-D1790G channel without reducing peak I significantly. In the clinical study, among 8 patients with LQT3 and confirmed D1790G mutation, ranolazine had no effects on the sinus rate or QRS width but shortened the QTc from 509±41 to 451±26 ms, a mean decrease of 56±52 ms (10.6%; P=0.012). The QT-shortening effect of ranolazine remained effective throughout the entire study period of 22.8±12.8 months. Ranolazine reduced the QTc at all heart rates but less so during extreme nocturnal bradycardia. A type I Brugada ECG was never noticed.

CONCLUSIONS

Ranolazine blocks I in experimental models of LQT3 harboring the SCN5A-D1790G mutation and shortened the QT interval of LQT3 patients.

CLINICAL TRIAL REGISTRATION

URL: https://clinicaltrials.gov; Unique identifier: NCT01728025.

摘要

背景

Ⅲ型长QT综合征(LQT3)的基本缺陷是由SCN5A基因突变导致动作电位3期钠电流过度内流。大多数钠通道阻滞剂可降低钠电流的早期(峰值)和晚期成分(I和I),但雷诺嗪优先降低I。因此,我们评估了雷诺嗪对由SCN5A基因D1790G突变引起的LQT3的影响。

方法与结果

我们在表达D1790G突变的TSA201细胞中对雷诺嗪进行了实验研究。然后,我们对携带D1790G突变的LQT3患者进行了雷诺嗪的长期临床评估。在实验研究中,D1790G中的I显著高于TSA201细胞中表达的野生型通道。雷诺嗪对SCN5A-D1790G通道的I具有浓度依赖性阻滞作用,而不会显著降低峰值I。在临床研究中,在8例确诊为D1790G突变的LQT3患者中,雷诺嗪对窦性心率或QRS波宽度无影响,但使QTc从509±41 ms缩短至451±26 ms,平均降低56±52 ms(10.6%;P=0.012)。在整个22.8±12.8个月的研究期间,雷诺嗪的QT缩短作用一直有效。雷诺嗪在所有心率下均降低QTc,但在夜间极度心动过缓时降低幅度较小。从未观察到I型Brugada心电图。

结论

雷诺嗪在携带SCN5A-D1790G突变的LQT3实验模型中阻滞I,并缩短了LQT3患者的QT间期。

临床试验注册

网址:https://clinicaltrials.gov;唯一标识符:NCT01728025。

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