Quantification of Flow Rates and Flow Volumes in Valve Regurgitation Using 3-D High Frame-Rate Ultrasound

Stefano Fiorentini;Erik Andreas Rye Berg;Hans Torp;Svend Aakhus;Jørgen Avdal
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Abstract

Valve regurgitation is a cardiac condition caused by the incomplete closure of a cardiac valve. Untreated, this condition may result in cardiac failure. Regular monitoring of this condition is essential in guiding the decision process for surgical intervention. Current guidelines recommend a multi-parametric assessment of valve regurgitation using echocardiography, which is both time consuming and heavily dependent on the experience of the examiner. Several methods have been proposed to provide quantitative markers to facilitate the assessment of valve regurgitation, most notably the Proximal Isovelocity Surface Area (PISA) method and methods based on the quantification of the total Regurgitant Volume (RVol) from the power of backscattered blood signal. In this work, we propose a framework based on trans-thoracic 3-D high frame-rate acquisitions for the simultaneous estimation of the jet cross-sectional area and jet velocity directly at the jet core, which are then combined to estimate the instantaneous flow rate and RVol patients with aortic or mitral insufficiency. We compare two methods for the segmentation of the jet cross-sectional area from the power Doppler signal. Validation on simulated data indicates good segmentation accuracy for the best method ( $\beta $ = 0.97, ${R}^{{2}}$ = 0.91). Validation on recordings from a flow phantom shows good agreement ( $\beta $ = 1.2, ${R}^{{2}}$ = 0.88) with an external flow rate meter. Clinical feasibility of the method is also shown in a patient with mitral regurgitation.
利用三维高帧率超声定量测量瓣膜返流的流量和流量
瓣膜反流是由心脏瓣膜关闭不完全引起的一种心脏疾病。如果不治疗,这种情况可能会导致心力衰竭。定期监测这种情况对于指导手术干预的决策过程至关重要。目前的指南建议使用超声心动图对瓣膜返流进行多参数评估,这既耗时又严重依赖于检查者的经验。已经提出了几种方法来提供定量标记以促进瓣膜反流的评估,最值得注意的是近端等流速表面积(PISA)方法和基于反向散射血液信号功率的总反流体积(RVol)量化的方法。在这项工作中,我们提出了一个基于经胸三维高帧率采集的框架,用于同时估计直接在射流核心处的射流截面积和射流速度,然后将其结合起来估计主动脉或二尖瓣功能不全患者的瞬时流速和RVol。我们比较了两种从功率多普勒信号中分割射流截面积的方法。仿真数据验证表明,最佳分割方法的分割精度较好($\beta $ = 0.97, ${R}^{{2}}$ = 0.91)。对流量幻象记录的验证显示,与外部流量计具有良好的一致性($\beta $ = 1.2, ${R}^{{2}}$ = 0.88)。该方法在二尖瓣反流患者中也显示了临床可行性。
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