超声心动图与心室造影左心室容积及功能评估之比较研究

H. Poorzand, A. Abdollahi, Mostafa Sajadian, T. Moghiman
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引用次数: 3

摘要

背景:左室射血分数(LVEF)测量是评价左室收缩功能的常用工具。整体纵向收缩应变(GLS)参数在心肌功能评价中的应用近年来也受到了特别的关注。目的:本研究旨在比较导管插管和二维超声心动图两种方法获得的LVEF和左室容积,并评估LVEF与GLS的相关性。患者和方法:在这项横断面研究中,从冠状动脉造影候选人中招募了45名患者。患者在置管前立即行超声心动图检查。通过超声心动图测量左室和左室容积,采用四室和二室视图。通过自动功能成像算法计算GLS。左心室造影通过计算左、右斜位上的LVEF进行。结果:心室造影和超声心动图两种方法测得的LVEF值无显著性差异。超声心动图LVEF与血管造影右前斜位的相关性最高(P < 0.001, r = 0.95)。二维超声心动图与脑室图的双平面LVEF吻合较好(-0.5±13.27;CI为95%)。GLS显示了一个信号。两种方法均与预估EF不相关,其中以双平面Simpson法最高(r = -0.84;P < 0.001)。利用线性回归得到由GLS估计二维LVEF的公式[LVEF = 2.53 (GLS) + 10.48]。GLS值≤-11.7和≥-21.7%分别符合左室整体收缩功能正常和严重。在GLS测量中,观察者之间和观察者内部的一致性比在LVEF中更为明显。结论:尽管二维LVEF被广泛使用,且与心室造影吻合良好,应变分析作为心室评估的定量工具似乎更为可靠。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Left ventricular volume and function assessment: a comparison study between echocardiography and ventriculography
Background: The left ventricular ejection fraction (LVEF) measurement is a common tool for evaluating the LV systolic function. The application of the global longitudinal systolic strain (GLS) parameter in the assessment of the myocardial function has also received special attention recently. Objectives: This study was aimed at comparing the LVEF and LV volumes obtained by the two methods of catheterization and two-dimensional (2D) echocardiography (available in our institution) and assessing the correlation between the LVEF and the GLS. Patients and Methods: In this cross-sectional study, 45 patients were recruited from coronary angiography candidates. The patients underwent echocardiography immediately before catheterization. The LVEF and LV volumes were measured via echocardiography using the apical four- and two chamber-views. The GLS was calculated through the automated functional imaging algorithm. Left ventriculography was performed by calculating the LVEF in the right and left oblique views. Results: The LVEF values obtained by the two methods of ventriculography and echocardiography were not significantly different. The highest correlation regarding the echocardiographic LVEF was obtained in the angiographic right anterior oblique view (P < 0.001, r = 0.95). There was a good agreement as regards the biplane LVEF between 2D echocardiography and ventriculography (-0.5 ± 13.27; CI of 95%). The GLS showed a signi.cant correlation with the estimated EF in both methods, the highest being with the Biplane Simpson method (r = -0.84; P < 0.001). Linear regression was used to obtain the formula for estimating the 2D LVEF from the GLS [LVEF = 2.53 (GLS) + 10.48]. The GLS values ≤ -11.7 and ≥ -21.7% were consistent with normal and severe global LV systolic dysfunction, respectively. The inter- and intra-observer agreement was more evident in the GLS measurement rather than in the LVEF. Conclusions: Despite the widespread use of 2D LVEF and its good agreement with ventriculography, strain analysis seems to be more reliable as a quantitative tool for ventricular assessment.
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