Volumetric synthetic aperture imaging with a piezoelectric 2D row-column probe

SPIE Medical Imaging Pub Date : 2016-04-01 DOI:10.1117/12.2216074

H. Bouzari, Mathias Engholm, T. Christiansen, C. Beers, A. Lei, M. Stuart, S. Nikolov, E. Thomsen, J. Jensen

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引用次数: 7

Abstract

The synthetic aperture (SA) technique can be used for achieving real-time volumetric ultrasound imaging using 2-D row-column addressed transducers. This paper investigates SA volumetric imaging performance of an in-house prototyped 3 MHz λ/2-pitch 62+62 element piezoelectric 2-D row-column addressed transducer array. Utilizing single element transmit events, a volume rate of 90 Hz down to 14 cm deep is achieved. Data are obtained using the experimental ultrasound scanner SARUS with a 70 MHz sampling frequency and beamformed using a delay-and-sum (DAS) approach. A signal-to-noise ratio of up to 32 dB is measured on the beamformed images of a tissue mimicking phantom with attenuation of 0.5 dB cm-1 MHz-1, from the surface of the probe to the penetration depth of 300λ. Measured lateral resolution as Full-Width-at-Half-Maximum (FWHM) is between 4λ and 10λ for 18% to 65% of the penetration depth from the surface of the probe. The averaged contrast is 13 dB for the same range. The imaging performance assessment results may represent a reference guide for possible applications of such an array in different medical fields.

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基于压电二维排柱探头的体积合成孔径成像

合成孔径(SA)技术可用于实现实时体积超声成像使用二维行列寻址换能器。本文研究了一种自制的3mhz λ/2-螺距62+62单元压电二维行列寻址传感器阵列的SA体积成像性能。利用单元件传输事件，可以实现90 Hz的体积速率，深度可达14厘米。数据使用实验超声扫描仪SARUS获得，采样频率为70 MHz，波束形成采用延迟和(DAS)方法。在从探头表面到穿透深度为300λ的衰减为0.5 dB cm-1 MHz-1的组织模拟幻影的波束形成图像上测量了高达32 dB的信噪比。测量的横向分辨率为半最大全宽度(FWHM)，在距离探头表面18%至65%的穿透深度范围内，分辨率在4λ至10λ之间。在相同的范围内，平均对比度为13 dB。成像性能评估结果可为该阵列在不同医学领域的可能应用提供参考指南。

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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