3D vector flow using a row-column addressed CMUT array

SPIE Medical Imaging Pub Date : 2016-04-01 DOI:10.1117/12.2216721

S. Holbek, T. Christiansen, Mathias Engholm, A. Lei, M. Stuart, C. Beers, L. N. Moesner, J. Bagge, E. Thomsen, J. Jensen

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引用次数: 7

Abstract

This paper presents an in-house developed 2-D capacitive micromachined ultrasonic transducer (CMUT) applied for 3-D blood flow estimation. The probe breaks with conventional transducers in two ways; first, the ultrasonic pressure field is generated from thousands of small vibrating micromachined cells, and second, elements are accessed by row and/or column indices. The 62+62 2-D row-column addressed prototype CMUT probe was used for vector flow estimation by transmitting focused ultrasound into a flow-rig with a fully developed parabolic flow. The beam-to-flow angle was 90°. The received data was beamformed and processed offline. A transverse oscillation (TO) velocity estimator was used to estimate the 3-D vector flow along a line originating from the center of the transducer. The estimated velocities in the lateral and axial direction were close to zero as expected. In the transverse direction a characteristic parabolic velocity profile was estimated with a peak velocity of 0.48 m/s ± 0.02 m/s in reference to the expected 0.54 m/s. The results presented are the first 3-D vector flow estimates obtained with a row-column CMUT probe, which demonstrates that the CMUT technology is feasible for 3-D flow estimation.

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使用行-列寻址CMUT数组的3D矢量流

本文介绍了一种自行研制的用于三维血流测量的二维电容式微机械超声换能器(CMUT)。探头与传统换能器有两个不同之处;首先，超声波压力场是由成千上万的小型振动微机械单元产生的，其次，通过行和/或列索引访问单元。62+62二维行列寻址原型CMUT探头通过将聚焦超声传输到具有完全发展的抛物流的流动装置中，用于矢量流估计。梁流角为90°。接收到的数据进行了波束成形和脱机处理。利用横向振荡速度估计器估计了从换能器中心出发的直线上的三维矢量流。横向和轴向的估计速度与预期的接近于零。在横向上，相对于预期的0.54 m/s，估计出了一个特征抛物线速度剖面，峰值速度为0.48 m/s±0.02 m/s。这是首次使用行列CMUT探针获得三维矢量流量估计，证明了CMUT技术用于三维流量估计是可行的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SPIE Medical Imaging

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