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J Electrocardiol. 2011 Sep-Oct;44(5):584-9. doi: 10.1016/j.jelectrocard.2011.06.010.
2
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本文引用的文献

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Determination of the mitral papillary muscle positions by the septal-to-free wall arc ratio method.通过室间隔至游离壁弧长比法测定二尖瓣乳头肌位置。
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Simulation of the QRS complex using papillary muscle positions as the site of early activation in human subjects.利用乳头肌位置作为人体早期激活部位对QRS波群进行模拟。
J Electrocardiol. 2009 Mar-Apr;42(2):158-64. doi: 10.1016/j.jelectrocard.2008.12.008. Epub 2009 Jan 22.
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The relationship between mitral papillary muscles positions and characteristics of the QRS complex.二尖瓣乳头肌位置与QRS波群特征之间的关系。
J Electrocardiol. 2008 Nov-Dec;41(6):487-90. doi: 10.1016/j.jelectrocard.2008.07.025. Epub 2008 Sep 25.
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基于左心室乳头肌位置对心电向量图进行建模。

Modeling vectorcardiograms based on left ventricle papillary muscle position.

作者信息

Loring Zak, Olson Charles W, Maynard Charles, Hakacova Nina

机构信息

Duke University School of Medicine, Durham, NC 27705-3976, USA.

出版信息

J Electrocardiol. 2011 Sep-Oct;44(5):584-9. doi: 10.1016/j.jelectrocard.2011.06.010.

DOI:10.1016/j.jelectrocard.2011.06.010
PMID:21872004
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3169198/
Abstract

BACKGROUND

Vectorcardiographic QRS loops illustrate the electrical activation of the left ventricle (LV) in 3-dimensional space; however, the individual variability in these loops is not well understood. The left bundle-branch fan distributes the initial activation to the LV and has been shown to distribute its fascicles between the LV papillary muscles. Computer models of LV activation using papillary muscle as the initial electrical activation points accurately predict QRS duration and frontal plane axis.

METHODS

Twelve healthy adults received standard 12-lead electrocardiograms and 1.5-T cardiac magnetic resonance imaging. A software developed by ECG-TECH Corp (Huntington Station, NY) generated 3-dimensional QRS vector loops for each subject. Short- and long-axis papillary muscle positions were measured for each subject using cardiac magnetic resonance images. A theoretical plane equidistant from the endocardial origins of each papillary muscle was constructed. Vectors perpendicular to the QRS vector loop and the theoretical plane termed the plane identifier were used for comparison. Spearman rank correlation was used to compare the azimuth and elevation of the plane identifiers of the QRS vector loop and the theoretical plane.

RESULTS

No correlation was found between the azimuth or elevation of the theoretical plane and the QRS vector loops with Spearman rank correlation coefficients of ρ = 0.11 (P = .71) and ρ = 0.22 (P = .49), respectively. Subgroup analysis by QRS vector loop morphology (planar vs nonplanar, narrow vs wide) also demonstrated no correlation.

CONCLUSIONS

Modeling the activation of the LV based on papillary muscle position alone may be overly simplistic. Better understanding of what other factors contribute to individual variation in LV activation will help develop a more useful theoretical model.

摘要

背景

向量心电图QRS环描绘了左心室(LV)在三维空间中的电激活过程;然而,这些环的个体变异性尚未得到很好的理解。左束支扇形结构将初始激活传导至左心室,并且已显示其分支分布于左心室乳头肌之间。以乳头肌作为初始电激活点的左心室激活计算机模型能够准确预测QRS时限和额面电轴。

方法

12名健康成年人接受了标准12导联心电图检查和1.5-T心脏磁共振成像。由ECG-TECH公司(纽约亨廷顿站)开发的软件为每个受试者生成三维QRS向量环。使用心脏磁共振图像测量每个受试者的短轴和长轴乳头肌位置。构建一个与每个乳头肌心内膜起源等距的理论平面。使用垂直于QRS向量环和理论平面(称为平面标识符)的向量进行比较。采用Spearman等级相关分析比较QRS向量环和理论平面的平面标识符的方位角和仰角。

结果

理论平面的方位角或仰角与QRS向量环之间未发现相关性,Spearman等级相关系数分别为ρ = 0.11(P = 0.71)和ρ = 0.22(P = 0.49)。根据QRS向量环形态(平面型与非平面型、窄型与宽型)进行的亚组分析也未显示出相关性。

结论

仅基于乳头肌位置对左心室激活进行建模可能过于简单。更好地了解其他哪些因素导致左心室激活的个体差异将有助于开发更有用的理论模型。