Directional beamforming (DB) estimates blood flowvelocities accurately when the flow angle is known. However, forautomatically finding the flow angle a computationally expensive approach is used. This work presents a method for estimating the flow angle using a combination of inexpensive transverse oscillation (TO) estimators and only 3 directional beamformed lines. The suggested DB vector flow estimator is employed with steered plane wave transmissions for high frame rate imaging.Two distinct plane wave sequences are used: a short sequence(3 angles) for fast flow and an interleaved long sequence (21angles) for both slow flow and B-mode. Parabolic flow with a peak velocity of 0.5 m/s is measured at beam-to-flow angles of60◦and 90◦. The DB method estimates the angle with a bias and standard deviation (STD) less than 2◦, and the STD of the velocity magnitude is 2.5 %. This is 7 - 8.5 % when using TO. The long sequence has a higher sensitivity, and when used forestimation of slow flow with a peak velocity of 0.04 m/s, the SDis 2.5 % and bias is 0.1 %. This is a factor of 4 better than ifthe short sequence is used. The carotid bifurcation was scanned on a healthy volunteer, and the short sequence was used with TO and DB to estimate velocity vectors. The STD of the velocity profile over a cardiac cycle was 6.1 % for TO and 4.9 % for DB.
展开▼
机译:当已知流角时,定向波束成形(DB)可以准确估算血流速度。然而,为了自动地找到流动角,使用了计算上昂贵的方法。这项工作提出了一种使用廉价的横向振荡(TO)估计器和仅3条定向波束形成线的组合来估计流动角度的方法。建议的DB矢量流量估计器与转向平面波传输一起用于高帧率成像。使用两个不同的平面波序列:用于快速流动的短序列(3个角度)和用于缓慢流动和慢速流动的交错长序列(21个角度) B模式。在束流角为60°和90°时测得的抛物线流的峰值速度为0.5 m / s。 DB方法估计偏差和标准偏差(STD)小于2°的角度,速度幅度的STD为2.5%。使用TO时为7-8.5%。长序列具有更高的灵敏度,并且当使用慢速峰值速度为0.04 m / s的慢速累积时,SDis为2.5%,偏差为0.1%。这比使用短序列好四倍。在健康志愿者上扫描颈动脉分叉,并将短序列与TO和DB一起使用以估计速度向量。在心动周期内,速度分布的STD对于TO为6.1%,对于DB为4.9%。
展开▼
