Implementation of a Novel 288-Element Dual-Frequency Array for Acoustic Angiography: In Vitro and <italic>In Vivo</italic> Characterization

Newsome Isabel G.; Kierski Thomas M.; Pang Guofeng; Yin Jianhua; Yang Jing; Cherin Emmanuel; Foster F. Stuart; Carnevale Claudia A.; Demore Christine E. M.; Dayton Paul A.

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Implementation of a Novel 288-Element Dual-Frequency Array for Acoustic Angiography: In Vitro and In Vivo Characterization

机译：用于声学血管造影的新型288元频率阵列的实施：体外和表征中的体外和<斜体>

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摘要

Acoustic angiography is a superharmonic contrast-enhanced ultrasound imaging method that produces high-resolution, 3-D maps of the microvasculature. Previous acoustic angiography studies have used twoelement, annular,mechanicallyactuated transducers(called "wobblers") to image microvasculature in preclinical tumor models with high contrast-to-tissue ratio and resolution, but these earlywobbler transducerscould not achieve the depth and sensitivity required for clinical acoustic angiography. In this work, we present a system for performing acoustic angiography with a novel dual-frequency(DF) transducer-a coaxially stacked DF array (DFA). We evaluate the DFA system bothin vitro andin vivo and demonstrate improvements in sensitivity and imaging depth up to 13.1 dB and 10 mm, respectively, compared with previous wobbler probes.

机译：声学血管造影是一种超声对比度增强的超声成像方法，可产生微孔径的高分辨率，3D图。以前的声学血管造影研究已经使用了双重，环形，机械换向器（称为“摇滚”）在具有高对比度与组织比和分辨率的临床前肿瘤模型中的图像微血管结构，但是这些更早的转换器可以不达到临床声学所需的深度和灵敏度血管造影。在这项工作中，我们提出了一种用于用新型双频（DF）换能器-A同轴堆叠的DF阵列（DFA）进行声学血管造影的系统。我们评估DFA系统的体外和体内，与先前的摇摆探针相比，分别证明了敏感性和成像深度高达13.1dB和10mm的改善。

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来源
《IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control》 |2021年第8期|2657-2666|共10页
作者
Newsome Isabel G.; Kierski Thomas M.; Pang Guofeng; Yin Jianhua; Yang Jing; Cherin Emmanuel; Foster F. Stuart; Carnevale Claudia A.; Demore Christine E. M.; Dayton Paul A.;
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作者单位

Univ N Carolina Joint Dept Biomed Engn Chapel Hill NC 27599 USA|North Carolina State Univ Raleigh NC 27695 USA;

Univ N Carolina Joint Dept Biomed Engn Chapel Hill NC 27599 USA|North Carolina State Univ Raleigh NC 27695 USA;

FUJIFILM VisualSon Inc Toronto ON M4N 3N1 Canada;

Sunnybrook Res Inst Toronto ON M4N 3M5 Canada;

Sunnybrook Res Inst Toronto ON M4N 3M5 Canada|Univ Toronto Dept Med Biophys Toronto ON M1C 1A4 Canada;

Sunnybrook Res Inst Toronto ON M4N 3M5 Canada;

Sunnybrook Res Inst Toronto ON M4N 3M5 Canada|Univ Toronto Dept Med Biophys Toronto ON M1C 1A4 Canada;

FUJIFILM VisualSon Inc Toronto ON M4N 3N1 Canada;

Sunnybrook Res Inst Toronto ON M4N 3M5 Canada|Univ Toronto Dept Med Biophys Toronto ON M1C 1A4 Canada;

Univ N Carolina Joint Dept Biomed Engn Chapel Hill NC 27599 USA|North Carolina State Univ Raleigh NC 27695 USA;

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正文语种 eng
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关键词
Imaging; Acoustics; Angiography; Transducers; Frequency measurement; Ultrasonic imaging; In vitro; Acoustic angiography; contrast agent; dual-frequency (DF); microbubbles; microvasculature; superharmonic;

机译：成像;声学;血管造影;换能器;频率测量;超声成像;体外;声学血管造影;造影剂;双频（DF）;微泡;微孔;微孔;

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Implementation of a Novel 288-Element Dual-Frequency Array for Acoustic Angiography: In Vitro and In Vivo Characterization

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