A transcranial multiple waves suppression method for plane wave imaging based on Radon transform

IF 3.8 2区 物理与天体物理 Q1 ACOUSTICS Ultrasonics Pub Date : 2024-07-20 DOI:10.1016/j.ultras.2024.107405
Yue Pan , Yu Qiang , Wenjie Liang , Wenyue Huang , Ningyuan Wang , Xingying Wang , Zhiqiang Zhang , Weibao Qiu , Hairong Zheng
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Abstract

Transcranial ultrasound imaging presents a significant challenge due to the intricate interplay between ultrasound waves and the heterogeneous human skull. The skull’s presence induces distortion, refraction, multiple scattering, and reflection of ultrasound signals, thereby complicating the acquisition of high-quality images. Extracting reflections from the entire waveform is crucial yet exceedingly challenging, as intracranial reflections are often obscured by strong amplitude direct waves and multiple scattering. In this paper, a multiple wave suppression method for ultrasound plane wave imaging is proposed to mitigate the impact of skull interference. Drawing upon prior research, we developed an enhanced high-resolution linear Radon transform using the maximum entropy principle and Bayesian method, facilitating wavefield separation. We detailed the process of wave field separation in the Radon domain through simulation of a model with a high velocity layer. When plane waves emitted at any steering angles, both multiple waves and first arrival waves manifested as distinct energy points. In the brain simulation, we contrasted the characteristic differences between skull reflection and brain-internal signal in Radon domain, and demonstrated that multiples suppression method reduces side and grating lobe levels by approximately 30 dB. Finally, we executed in vitro experiments using a monkey skull to separate weak intracranial reflection signals from strong skull reflections, enhancing the contrast-to-noise ratio by 85 % compared to conventional method using full waveform. This study deeply explores the effect of multiples on effective signal separation, addresses the complexity of wavefield separation, and verifies its efficacy through imaging, thereby significantly advancing ultrasound transcranial imaging techniques.

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基于 Radon 变换的平面波成像经颅多波抑制方法。
由于超声波与异质人体头骨之间错综复杂的相互作用,经颅超声成像是一项重大挑战。颅骨的存在会导致超声波信号的扭曲、折射、多重散射和反射,从而使高质量图像的获取变得更加复杂。从整个波形中提取反射是至关重要的,但也是极具挑战性的,因为颅内反射通常会被强振幅直波和多重散射所掩盖。本文提出了一种超声平面波成像的多波抑制方法,以减轻颅骨干扰的影响。借鉴之前的研究,我们利用最大熵原理和贝叶斯方法开发了一种增强型高分辨率线性拉顿变换,促进了波场分离。我们通过模拟具有高速层的模型,详细介绍了在拉顿域中进行波场分离的过程。当平面波以任意转向角发射时,多波和初至波都表现为不同的能量点。在脑模拟中,我们对比了颅骨反射和脑内部信号在 Radon 域中的特征差异,并证明多重波抑制方法可将侧叶和光栅叶电平降低约 30 dB。最后,我们使用猴子头骨进行了体外实验,将微弱的颅内反射信号从强烈的头骨反射信号中分离出来,与使用全波形的传统方法相比,对比度与噪声比提高了 85%。这项研究深入探讨了倍数对有效信号分离的影响,解决了波场分离的复杂性问题,并通过成像验证了其有效性,从而极大地推动了超声经颅成像技术的发展。
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来源期刊
Ultrasonics
Ultrasonics 医学-核医学
CiteScore
7.60
自引率
19.00%
发文量
186
审稿时长
3.9 months
期刊介绍: Ultrasonics is the only internationally established journal which covers the entire field of ultrasound research and technology and all its many applications. Ultrasonics contains a variety of sections to keep readers fully informed and up-to-date on the whole spectrum of research and development throughout the world. Ultrasonics publishes papers of exceptional quality and of relevance to both academia and industry. Manuscripts in which ultrasonics is a central issue and not simply an incidental tool or minor issue, are welcomed. As well as top quality original research papers and review articles by world renowned experts, Ultrasonics also regularly features short communications, a calendar of forthcoming events and special issues dedicated to topical subjects.
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