Integrated Difference Autocorrelation: A Novel Approach to Estimate Shear Wave Speed in the Presence of Compression Waves.

IF 4.4 2区医学 Q2 ENGINEERING, BIOMEDICAL

IEEE Transactions on Biomedical Engineering Pub Date : 2024-09-20 DOI:10.1109/TBME.2024.3464104

Hamidreza Asemani, Jannick P Rolland, Kevin J Parker

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引用次数: 0

Abstract

Objective: In share wave elastography (SWE), the aim is to measure the velocity of shear waves, however unwanted compression waves and bulk tissue motion pose challenges in evaluating tissue stiffness. Conventional approaches often struggle to discriminate between shear and compression waves, leading to inaccurate shear wave speed (SWS) estimation. In this study, we propose a novel approach known as the integrated difference autocorrelation (IDA) estimator to accurately estimate reverberant SWS in the presence of compression waves and noise.

Methods: The IDA estimator, unlike conventional techniques, computes the subtraction of velocity between neighboring particles, effectively minimizing the impact of long wavelength compression waves and other wide-area movements such as those caused by respiration. We evaluated the effectiveness of IDA by: (1) using k-Wave simulations of a branching cylinder in a soft background, (2) using ultrasound elastography on a breast phantom, (3) using ultrasound elastography in the human liver-kidney region, and (4) using magnetic resonance elastography (MRE) on a brain phantom.

Results: By applying IDA to unfiltered contaminated wave fields of simulation and elastography experiments, the estimated SWSs are in good agreement with the ground truth values (i.e., less than 2% error for the simulation, 9% error for ultrasound elastography of the breast phantom and 19% error for MRE).

Conclusion: Our results demonstrate that IDA accurately estimates SWS, revealing the existence of a lesion, even in the presence of strong compression waves.

Significance: IDA exhibits consistency in SWS estimation across different modalities and excitation scenarios, highlighting its robustness and potential clinical utility.

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综合差分自相关：在存在压缩波的情况下估算剪切波速度的新方法。

目的：在共振波弹性成像（SWE）中，目的是测量剪切波的速度，然而不需要的压缩波和组织块运动给评估组织硬度带来了挑战。传统方法往往难以区分剪切波和压缩波，导致剪切波速度（SWS）估计不准确。在这项研究中，我们提出了一种称为集成差分自相关（IDA）估计器的新方法，用于在存在压缩波和噪声的情况下准确估计混响的 SWS：与传统技术不同，IDA 估计器计算相邻颗粒之间的速度减法，从而有效地减少了长波长压缩波和其他大范围运动（如呼吸引起的运动）的影响。我们通过以下方法评估了 IDA 的有效性：(1) 使用 k 波模拟软背景中的分支圆柱体，(2) 在乳房模型上使用超声弹性成像，(3) 在人体肝肾区域使用超声弹性成像，以及 (4) 在大脑模型上使用磁共振弹性成像 (MRE)：将 IDA 应用于模拟和弹性成像实验的未过滤污染波场，估算出的 SWS 与地面真实值非常吻合（即模拟误差小于 2%，乳腺模型超声弹性成像误差为 9%，MRE 误差为 19%）：我们的研究结果表明，即使存在强压缩波，IDA 也能准确估计 SWS，揭示病变的存在：意义：IDA 在不同模式和激发情况下对 SWS 的估算具有一致性，突出了其稳健性和潜在的临床实用性。

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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来源期刊

IEEE Transactions on Biomedical Engineering 工程技术-工程：生物医学

CiteScore

9.40

自引率

4.30%

发文量

880

审稿时长

2.5 months

期刊介绍： IEEE Transactions on Biomedical Engineering contains basic and applied papers dealing with biomedical engineering. Papers range from engineering development in methods and techniques with biomedical applications to experimental and clinical investigations with engineering contributions.