Electrophysiologic depression in myocardium by defibrillation-level shocks

Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society Pub Date : 1988-11-01 DOI:10.1109/IEMBS.1988.95283

L. Fogelson, L. Tung, N. Thakor

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引用次数: 10

Abstract

The authors investigated the electrophysiological consequences of high currents on isolated strips of cardiac muscle. The objective was to measure the graded changes in intracellular action potentials-amplitude, duration, excitability, conduction velocity-resulting from the various levels of electrical shock typically used in defibrillation, cardioversion, and ablation. Following the shock, reversible injury is observed, whose severity is graded in proportion to shock strength. Smaller shocks (below 500 ma/cm/sup 2/, 10 ms) caused depression in action potential amplitude, duration, and propagation velocity. The degree of depression and the time course for complete recovery (0-50-s duration), followed by an action potential recovery phase similar to that observed for the smaller shocks. These graded effects can in conjunction with the whole heart description, of the current densities during defibrillation, permit an estimation of the total volume of tissue subject to inexcitability, reduced propagation velocity, shortened duration, and depressed action potentials.<>

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除颤水平电击引起的心肌电生理抑制

作者研究了高电流对孤立心肌条的电生理影响。目的是测量细胞内动作电位(振幅、持续时间、兴奋性、传导速度)的分级变化，这些变化是由不同程度的电击引起的，通常用于除颤、心律转复和消融术。较小的冲击(低于500 ma/cm/sup 2/， 10 ms)导致动作电位振幅、持续时间和传播速度下降。抑郁程度和完全恢复的时间过程(0-50秒持续时间)，随后是动作电位恢复阶段，类似于在较小的冲击中观察到的。这些分级效应可以与除颤过程中电流密度的全心描述相结合，从而可以估计出受不可兴奋性、传播速度降低、持续时间缩短和动作电位降低影响的组织的总体积。

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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Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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