左心室射血分数:基于体积的测量和基于面积的估计之间的比较。

Dawei Liu, Isabelle Peck, Shusil Dangi, Karl Q Schwarz, Cristian A Linte
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引用次数: 2

摘要

左室射血分数(Left ventricular ejection fraction, LVEF)是临床常用的衡量心脏健康状况的重要指标,是心血管疾病治疗的依据。心脏超声(US)成像是评估LVEF最常见、最便宜、可靠和无创的方法。在实践中,心脏病专家一直使用二维超声图像来提供LVEF的视觉估计,这是基于嵌入在超声图像中的二维信息,通过检查左室血池在舒张期和收缩期之间的面积变化。有一些轶事证据表明,基于左室血池面积变化的视觉估计LVEF明显低估了真实的LVEF。真实LVEF应根据左室舒张期和收缩期容积的变化来计算。在这个项目中,我们使用了两种理想的左室几何模型-截断的长形球体(TPS)和抛物面模型-来表示左室解剖。使用两种模型计算模拟LV形状的横截面积和体积,以比较LVEF。进一步,采用左室重建算法,根据多平面二维超声成像数据,构建收缩期和舒张期左室血池容量。我们的数学模型显示,基于面积的LVEF为41.4.7%,基于体积的LVEF为55±5.7%,而三维重建模型显示,基于面积的LVEF为35.11.9%,基于体积的LVEF为48.0±14.0%。总之,使用所有三种模型的基于面积的LVEF±低估了使用相应模型的基于体积的LVEF 13%至14%。这项初步研究在数学上和经验上证实,基于面积的LVEF估计确实低估了基于体积的LVEF测量结果,并表明必须计算左室血池的真实体积测量值才能正确评估心脏LVEF。
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 EJECTION FRACTION: COMPARISON BETWEEN TRUE VOLUME-BASED MEASUREMENTS AND AREA-BASED ESTIMATES.

LEFT VENTRICULAR EJECTION FRACTION: COMPARISON BETWEEN TRUE VOLUME-BASED MEASUREMENTS AND AREA-BASED ESTIMATES.

LEFT VENTRICULAR EJECTION FRACTION: COMPARISON BETWEEN TRUE VOLUME-BASED MEASUREMENTS AND AREA-BASED ESTIMATES.

LEFT VENTRICULAR EJECTION FRACTION: COMPARISON BETWEEN TRUE VOLUME-BASED MEASUREMENTS AND AREA-BASED ESTIMATES.

Left ventricular ejection fraction (LVEF) is a critical measure of cardiac health commonly acquired in clinical practice, which serves as the basis for cardiovascular therapeutic treatment. Ultrasound (US) imaging of the heart is the most common, least expensive, reliable and non-invasive modality to assess LVEF. Cardiologists, in practice, persistently use 2D US images to provide visual estimates of LVEF, which are based on 2D information embedded in the US images by examining the area changes in LV blood pool between diastole and systole. There has been some anecdotal evidence that visual estimation of the LVEF based on the area changes of the LV blood pool significantly underestimate true LVEF. True LVEF should be calculated based on changes in LV volumes between diastole and systole. In this project, we utilized both idealized models of the LV geometry - a truncated prolate spheroid (TPS) and a paraboloid model - to represent the LV anatomy. Cross-sectional areas and volumes of simulated LV shapes using both models were calculated to compare the LVEF. Further, a LV reconstruction algorithm was employed to build the LV blood pool volume in both systole and diastole from multi-plane 2D US imaging data. Our mathematical models yielded an area-based LVEF of 41 4.7% and a volume-based LVEF of 55 ±5.7%, while the 3D recon-struction model showed an area-based LVEF of 35 11.9% and a volume-based LVEF of 48.0 ± 14.0%. In summary, the area-based LVEF using all three models ±underestimate the volume-based LVEF using corresponding models by 13% to 14%. This preliminary study confirms both mathematically and empirically that area-based LVEF estimates indeed underestimate the true volume-based LVEF measurements and suggests that true volumetric measurements of the LV blood pool must be computed to correctly assess cardiac LVEF.

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