INNOVATIVE TECHNIQUES AND NEW INSIGHTS: Studying cardiac ionic currents and action potentials in physiologically relevant conditions.

Physiological mini-reviews Pub Date : 2023-05-01
Ye Chen-Izu, Bence Hegyi, Zhong Jian, Balazs Horvath, John A Shaw, Tamas Banyasz, Leighton T Izu
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Abstract

Cardiac arrhythmias are associated with various forms of heart diseases. Ventricular arrhythmias present a significant risk for sudden cardiac death. Atrial fibrillations predispose to blood clots leading to stroke and heart attack. Scientists have been developing patch-clamp technology to study ion channels and action potentials (APs) underlying cardiac excitation and arrhythmias. Beyond the traditional patch-clamp techniques, innovative new techniques were developed for studying complex arrhythmia mechanisms. Here we review the recent development of methods including AP-Clamp, Dynamic Clamp, AP-Clamp Sequential Dissection, and Patch-Clamp-in-Gel. These methods provide powerful tools for researchers to decipher how the dynamic systems in excitation-Ca2+ signaling-contraction feedforward and feedback to control cardiac function and how their dysregulations lead to heart diseases.

创新技术和新见解:在生理相关条件下研究心脏离子电流和动作电位。
心律失常与各种心脏病有关。室性心律失常有导致心脏性猝死的重大风险。心房颤动容易导致血栓,从而引发中风和心脏病。科学家们一直在开发膜片钳技术,以研究作为心脏兴奋和心律失常基础的离子通道和动作电位(AP)。除了传统的膜片钳技术外,还开发了创新的新技术来研究复杂的心律失常机制。在此,我们回顾了包括 AP-钳夹、动态钳夹、AP-钳夹序列剖析和凝胶中的贴片钳夹等方法的最新发展。这些方法为研究人员破译兴奋-Ca2+ 信号传导-收缩的动态系统如何通过前馈和反馈来控制心脏功能,以及它们的失调如何导致心脏疾病提供了强有力的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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