三维应变有助于将运动员的左心室功能与左心室及结构联系起来。

3D Strain helps relating LV function to LV and structure in athletes.

作者信息

Stefani Laura, De Luca Alessio, Toncelli Loira, Pedrizzetti Gianni, Galanti Giorgio

机构信息

Sport Medicine Center, Department of Experimental and Clinical Medicine, University of Florence, Florence, Italy.

出版信息

Cardiovasc Ultrasound. 2014 Aug 12;12:33. doi: 10.1186/1476-7120-12-33.

DOI:10.1186/1476-7120-12-33

PMID:25113389

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4138416/

Abstract

INTRODUCTION

The evaluation of cardiac contraction could benefit from a connection with the underlying helical structure of cardiac fibers in athletes either completely healthy or with minor common cardiopathies like Bicuspid Aortic Valve (BAV). This study aims to exploit the potential role of 3D strain to improve the physiological understanding of LV function and modification due to physical activity as a comparative model.

METHODS

Three age-matched groups of young (age 20.3 ± 5.4) individuals are prospectively enrolled: 15 normal healthy subjects, 15 healthy athletes, and 20 athletes with bicuspid aortic valve (BAV). All subjects underwent echocardiographic examination and both 2D and 3D strain analysis.

RESULTS

All echo parameters were within the normal range in the three groups. Global values of end-systolic longitudinal and circumferential strain, assesses by either 2D or 3D analysis, were not significantly different. The 3D strain analysis was extended in terms of principal and secondary strain (PS, SS). Global PS was very similar, global SS was significantly higher in athletes and displays a modified time course. The comparative analysis of strain-lines pattern suggests that the enhancement of LV function is achieved by a more synchronous recruitment of both left- and right-handed helical fibers.

CONCLUSIONS

3D strain analysis allows a deeper physiological understanding of LV contraction in different types of athletes. Secondary strain, only available in 3D, identifies increase of performances due to physical activity; this appears to follow from the synergic activation of endocardial and epicardial fibers.

摘要

引言

对于心脏收缩的评估，若能与完全健康或患有轻度常见心脏病（如二叶式主动脉瓣（BAV））的运动员心脏纤维的潜在螺旋结构建立联系，将大有裨益。本研究旨在利用三维应变的潜在作用，作为一个对比模型，以增进对左心室功能以及体育活动引起的左心室功能改变的生理学理解。

方法

前瞻性招募了三组年龄匹配的年轻（20.3±5.4岁）个体：15名正常健康受试者、15名健康运动员以及20名患有二叶式主动脉瓣（BAV）的运动员。所有受试者均接受了超声心动图检查以及二维和三维应变分析。

结果

三组的所有超声心动图参数均在正常范围内。通过二维或三维分析评估的收缩末期纵向和圆周应变的整体值无显著差异。三维应变分析在主应变和次应变（PS，SS）方面得到了扩展。整体主应变非常相似，整体次应变在运动员中显著更高，且呈现出改变的时间进程。应变线模式的对比分析表明，左心室功能的增强是通过左右手螺旋纤维更同步的募集实现的。

结论

三维应变分析能够更深入地从生理学角度理解不同类型运动员的左心室收缩。仅在三维分析中可用的次应变，可识别出体育活动导致的性能提升；这似乎源于心内膜和心外膜纤维的协同激活。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4eaf/4138416/e3e3f4781341/1476-7120-12-33-1.jpg

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三维应变有助于将运动员的左心室功能与左心室及结构联系起来。

3D Strain helps relating LV function to LV and structure in athletes.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

引言

方法

结果

结论

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