通过表面声波的全息成像对软材料和组织进行弹性成像。

Elastography of soft materials and tissues by holographic imaging of surface acoustic waves.

作者信息

Mohan Karan D, Oldenburg Amy L

机构信息

Department of Physics and Astronomy, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599, USA.

出版信息

Opt Express. 2012 Aug 13;20(17):18887-97. doi: 10.1364/OE.20.018887.

DOI:10.1364/OE.20.018887

PMID:23038528

Abstract

We use optical interferometry to capture coherent surface acoustic waves for elastographic imaging. An inverse method is employed to convert multi-frequency data into an elastic depth profile. Using this method, we image elastic properties over a 55 mm range with <5 mm resolution. For relevance to breast cancer detection, we employ a tissue phantom with a tumor-like inclusion. Holographic elastography is also shown to be well-behaved in ex vivo tissue, revealing the subsurface position of a bone. Because digital holography can assess waves over a wide surface area, this constitutes a flexible new platform for large volume and non-invasive elastography.

摘要

我们使用光学干涉测量法来捕获用于弹性成像的相干表面声波。采用一种反演方法将多频数据转换为弹性深度剖面。使用该方法，我们在55毫米范围内以小于5毫米的分辨率对弹性特性进行成像。为了与乳腺癌检测相关联，我们采用了带有肿瘤样内含物的组织模型。全息弹性成像在离体组织中也表现良好，揭示了一块骨头的表面下位置。由于数字全息术可以在大面积表面上评估波，这构成了一个用于大体积和非侵入性弹性成像的灵活新平台。

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通过表面声波的全息成像对软材料和组织进行弹性成像。

Elastography of soft materials and tissues by holographic imaging of surface acoustic waves.

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