On the soft tissue ultrasound elastography using FEM based inversion approach.

IF 1.7 4区 医学 Q3 ENGINEERING, BIOMEDICAL Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine Pub Date : 2024-03-01 Epub Date: 2024-01-19 DOI:10.1177/09544119231224674
Seyed Shahab Eshaghinia, Afshin Taghvaeipour, Mohammad Mohammadi Aghdam, Hassan Rivaz
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Abstract

Elastography is a medical imaging modality that enables visualization of tissue stiffness. It involves quasi-static or harmonic mechanical stimulation of the tissue to generate a displacement field which is used as input in an inversion algorithm to reconstruct tissue elastic modulus. This paper considers quasi-static stimulation and presents a novel inversion technique for elastic modulus reconstruction. The technique follows an inverse finite element framework. Reconstructed elastic modulus maps produced in this technique do not depend on the initial guess, while it is computationally less involved than iterative reconstruction approaches. The method was first evaluated using simulated data (in-silico) where modulus reconstruction's sensitivity to displacement noise and elastic modulus was assessed. To demonstrate the method's performance, displacement fields of two tissue mimicking phantoms determined using three different motion tracking techniques were used as input to the developed elastography method to reconstruct the distribution of relative elastic modulus of the inclusion to background tissue. In the next stage, the relative elastic modulus of three clinical cases pertaining to liver cancer patient were determined. The obtained results demonstrate reasonably high elastic modulus reconstruction accuracy in comparison with similar direct methods. Also it is associated with reduced computational cost in comparison with iterative techniques, which suffer from convergence and uniqueness issues, following the same formulation concept. Moreover, in comparison with other methods which need initial guess, the presented method does not require initial guess while it is easy to understand and implement.

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使用基于有限元的反演方法进行软组织超声弹性成像。
弹性成像技术是一种医学成像模式,可实现组织硬度的可视化。它涉及对组织进行准静态或谐波机械刺激,以产生位移场,并将其作为反演算法的输入,从而重建组织弹性模量。本文考虑了准静态刺激,并提出了一种用于弹性模量重建的新型反演技术。该技术采用反向有限元框架。该技术生成的重建弹性模量图不依赖于初始猜测,同时与迭代重建方法相比计算量更小。该方法首先使用模拟数据(内部)进行了评估,评估了模量重建对位移噪声和弹性模量的敏感性。为了证明该方法的性能,使用三种不同的运动跟踪技术确定了两个组织模拟模型的位移场,并将其作为开发的弹性成像方法的输入,以重建包含组织与背景组织的相对弹性模量分布。下一阶段,测定了三个肝癌患者临床病例的相对弹性模量。与类似的直接方法相比,获得的结果表明弹性模量重建精度相当高。此外,与迭代技术相比,它还降低了计算成本,因为迭代技术在采用相同的公式概念时会出现收敛性和唯一性问题。此外,与其他需要初始猜测的方法相比,所提出的方法不需要初始猜测,而且易于理解和实施。
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来源期刊
CiteScore
3.60
自引率
5.60%
发文量
122
审稿时长
6 months
期刊介绍: The Journal of Engineering in Medicine is an interdisciplinary journal encompassing all aspects of engineering in medicine. The Journal is a vital tool for maintaining an understanding of the newest techniques and research in medical engineering.
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