用电机械波成像技术进行心脏电活动的映射：体内-体外相互关系的研究。

Mapping of cardiac electrical activation with electromechanical wave imaging: an in silico-in vivo reciprocity study.

机构信息

Department of Biomedical Engineering, Columbia University, New York, New York, USA.

出版信息

Heart Rhythm. 2011 May;8(5):752-9. doi: 10.1016/j.hrthm.2010.12.034. Epub 2010 Dec 23.

DOI:10.1016/j.hrthm.2010.12.034

PMID:21185403

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3100212/

Abstract

BACKGROUND

Electromechanical wave imaging (EWI) is an entirely noninvasive, ultrasound-based imaging method capable of mapping the electromechanical activation sequence of the ventricles in vivo. Given the broad accessibility of ultrasound scanners in the clinic, the application of EWI could constitute a flexible surrogate for the 3-dimensional electrical activation.

OBJECTIVE

The purpose of this report is to reproduce the electromechanical wave (EW) using an anatomically realistic electromechanical model, and establish the capability of EWI to map the electrical activation sequence in vivo when pacing from different locations.

METHODS

EWI was performed in 1 canine during pacing from 3 different sites. A high-resolution dynamic model of coupled cardiac electromechanics of the canine heart was used to predict the experimentally recorded electromechanical wave. The simulated 3-dimensional electrical activation sequence was then compared with the experimental EW.

RESULTS

The electrical activation sequence and the EW were highly correlated for all pacing sites. The relationship between the electrical activation and the EW onset was found to be linear, with a slope of 1.01 to 1.17 for different pacing schemes and imaging angles.

CONCLUSION

The accurate reproduction of the EW in simulations indicates that the model framework is capable of accurately representing the cardiac electromechanics and thus testing new hypotheses. The one-to-one correspondence between the electrical activation and the EW sequences indicates that EWI could be used to map the cardiac electrical activity. This opens the door for further exploration of the technique in assisting in the early detection, diagnosis, and treatment monitoring of rhythm dysfunction.

摘要

背景

机电波成像（EWI）是一种完全非侵入性的基于超声的成像方法，能够在体内对心室的机电激活序列进行成像。鉴于超声扫描仪在临床中的广泛应用，EWI 的应用可以作为 3 维电激活的灵活替代方法。

目的

本报告旨在使用解剖学上逼真的机电模型再现机电波（EW），并确定在从不同部位起搏时，EWI 对体内电激活序列进行成像的能力。

方法

在 1 只犬中进行了 3 种不同部位起搏的 EWI。使用犬心脏的高分辨率耦合心脏机电动态模型来预测实验记录的机电波。然后将模拟的 3 维电激活序列与实验 EW 进行比较。

结果

所有起搏部位的电激活序列和 EW 高度相关。发现电激活与 EW 起始之间的关系呈线性，不同起搏方案和成像角度的斜率为 1.01 至 1.17。

结论

在模拟中准确再现 EW 表明模型框架能够准确地表示心脏机电特性，从而可以测试新的假设。电激活和 EW 序列之间的一一对应关系表明，EWI 可用于绘制心脏电活动图。这为进一步探索该技术在辅助节律功能障碍的早期检测、诊断和治疗监测方面的应用开辟了道路。

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