Ionic Current Basis of Electrocardiographic Waveforms: A Model Study

K. Gima, Y. Rudy
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引用次数: 405

Abstract

Body surface electrocardiograms and electrograms recorded from the surfaces of the heart are the basis for diagnosis and treatment of cardiac electrophysiological disorders and arrhythmias. Given recent advances in understanding the molecular mechanisms of arrhythmia, it is important to relate these electrocardiographic waveforms to cellular electrophysiological processes. This modeling study establishes the following principles: (1) voltage gradients created by heterogeneities of the slow-delayed rectifier (IKs) and transient outward (Ito) potassium current inscribe the T wave and J wave, respectively; T-wave polarity and width are strongly influenced by the degree of intercellular coupling through gap-junctions. (2) Changes in [K+]o modulate the T wave through their effect on the rapid-delayed rectifier, IKr. (3) Alterations of IKs, IKr, and INa (fast sodium current) in long-QT syndrome (LQT1, LQT2, and LQT3, respectively) are reflected in characteristic QT-interval and T-wave changes; LQT1 prolongs QT without widening the T wave. (4) Accelerated inactivation of INa on the background of large epicardial Ito results in ST elevation (Brugada phenotype) that reflects the degree of severity. (5) Activation of the ATP-sensitive potassium current, IK(ATP), is sufficient to cause ST elevation during acute ischemia. These principles provide a mechanistic cellular basis for interpretation of electrocardiographic waveforms.
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心电图波形的离子电流基础:一个模型研究
体表心电图和从心脏表面记录的心电图是诊断和治疗心脏电生理障碍和心律失常的基础。鉴于心律失常分子机制的最新进展,将这些心电图波形与细胞电生理过程联系起来是很重要的。该建模研究建立了以下原理:(1)慢延迟整流器(IKs)和瞬态外向钾电流(Ito)的非均质性产生的电压梯度分别记录了T波和J波;t波的极性和宽度受细胞间隙连接耦合程度的强烈影响。(2) [K+]o的变化通过对快延迟整流器IKr的影响来调制T波。(3)长qt综合征(LQT1、LQT2、LQT3) IKs、IKr、INa(快钠电流)的改变体现在特征性qt间期和t波变化上;LQT1延长QT期,但不增宽T波。(4)心外膜Ito大背景下INa的加速失活导致ST段抬高(Brugada表型),反映了严重程度。(5)激活ATP敏感钾电流IK(ATP)足以引起急性缺血时ST段升高。这些原理为心电图波形的解释提供了一个机械的细胞基础。
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