Electro-energetics of Biventricular, Septal and Conduction System Pacing.

IF 2.6 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS Arrhythmia & Electrophysiology Review Pub Date : 2021-12-01 DOI:10.15420/aer.2021.30

Frits W Prinzen, Joost Lumens, Jürgen Duchenn, Kevin Vernooy

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Abstract

Abnormal electrical activation of the ventricles creates abnormalities in cardiac mechanics. Local contraction patterns, as reflected by strain, are not only out of phase, but also show opposing length changes in early and late activated regions. Consequently, the efficiency of cardiac pump function (the amount of stroke work generated by a unit of oxygen consumed), is approximately 30% lower in dyssynchronous than in synchronous hearts. Maintaining good cardiac efficiency appears important for long-term outcomes. Biventricular, left ventricular septal, His bundle and left bundle branch pacing may minimise the amount of pacing-induced dyssynchrony and efficiency loss when compared to conventional right ventricular pacing. An extensive animal study indicates maintenance of mechanical synchrony and efficiency during left ventricular septal pacing and data from a few clinical studies support the idea that this is also the case for left bundle branch pacing and His bundle pacing. This review discusses electro-mechanics and mechano-energetics under the various paced conditions and provides suggestions for future research.

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双室、间隔和传导系统起搏的电能量学。

心室异常的电激活导致心脏力学异常。应变反映的局部收缩模式不仅不相一致，而且在早期和晚期激活区呈现相反的长度变化。因此，心脏泵功能的效率(耗氧量单位产生的搏功量)在非同步心脏中比同步心脏低约30%。维持良好的心脏效率对长期预后很重要。与传统的右室起搏相比，双室起搏、左室间隔起搏、他束起搏和左束支起搏可以最大限度地减少起搏引起的非同步化和效率损失。一项广泛的动物研究表明，左室间隔起搏过程中机械同步性和效率的维持，一些临床研究的数据支持左束支起搏和His束起搏也是如此的观点。本文讨论了不同速度条件下的电力学和力能学，并对今后的研究提出了建议。

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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