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Wavelet MRE: Imaging propagating broadband acoustic waves with wavelet-based motion-encoding gradients.小波磁共振弹性成像:利用基于小波的运动编码梯度对传播的宽带声波进行成像。
Magn Reson Med. 2024 May;91(5):1923-1935. doi: 10.1002/mrm.29972. Epub 2023 Dec 14.
2
Effect of Direction and Frequency of Skull Motion on Mechanical Vulnerability of the Human Brain.颅骨运动方向和频率对人脑机械脆弱性的影响。
J Biomech Eng. 2023 Nov 1;145(11). doi: 10.1115/1.4062937.
3
Comparison of Deformation Patterns Excited in the Human Brain In Vivo by Harmonic and Impulsive Skull Motion.体内谐波和脉冲颅骨运动诱发的人脑变形模式比较。
J Biomech Eng. 2023 Aug 1;145(8). doi: 10.1115/1.4062809.
4
Intracranial Displacement Measurements Within Targeted Anatomical Regions of a Postmortem Human Surrogate Brain Subjected to Impact.颅内移位测量在后颅窝撞击的人体替代脑目标解剖区域内的应用。
Ann Biomed Eng. 2021 Oct;49(10):2836-2851. doi: 10.1007/s10439-021-02857-1. Epub 2021 Sep 15.
5
MR Imaging of Human Brain Mechanics In Vivo: New Measurements to Facilitate the Development of Computational Models of Brain Injury.磁共振成像在人类大脑力学研究中的应用:为创伤性脑损伤的计算模型的开发提供新的测量方法。
Ann Biomed Eng. 2021 Oct;49(10):2677-2692. doi: 10.1007/s10439-021-02820-0. Epub 2021 Jul 1.
6
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Brain Multiphys. 2020 Nov;1. doi: 10.1016/j.brain.2020.100015. Epub 2020 Sep 3.
7
Magnetic resonance shear wave elastography using transient acoustic radiation force excitations and sinusoidal displacement encoding.基于瞬态声辐射力激励和正弦位移编码的磁共振剪切波弹性成像。
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8
Efficient shear wave elastography using transient acoustic radiation force excitations and MR displacement encoding.利用瞬态声辐射力激发和磁共振位移编码进行高效剪切波弹性成像。
Magn Reson Med. 2019 May;81(5):3153-3167. doi: 10.1002/mrm.27647. Epub 2019 Jan 21.
9
In vivo characterization of 3D skull and brain motion during dynamic head vibration using magnetic resonance elastography.使用磁共振弹性成像技术对动态头部振动过程中的 3D 颅骨和大脑运动进行体内特征描述。
Magn Reson Med. 2018 Dec;80(6):2573-2585. doi: 10.1002/mrm.27347. Epub 2018 May 17.
10
Relationships between scalp, brain, and skull motion estimated using magnetic resonance elastography.使用磁共振弹性成像估计头皮、大脑和颅骨运动之间的关系。
J Biomech. 2018 May 17;73:40-49. doi: 10.1016/j.jbiomech.2018.03.028. Epub 2018 Mar 17.

使用小波磁共振弹性成像检测瞬时组织位移:模型验证及人体大脑体内重复性研究

Detection of transient tissue displacement using wavelet MR elastography: Phantom validation and in vivo human brain repeatability study.

作者信息

Le Yuan, Shan Xiang, Glaser Kevin J, Chen Jun, Rossman Phillip J, Sui Yi, Manduca Armando, Huston John, Ehman Richard L, Yin Ziying

机构信息

Department of Radiology, Mayo Clinic, Rochester, Minnesota, USA.

出版信息

Magn Reson Med. 2025 Jun 19. doi: 10.1002/mrm.30612.

DOI:10.1002/mrm.30612
PMID:40534286
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12236151/
Abstract

PURPOSE

While standard MR elastography (MRE) uses harmonic mechanical waves, there are some applications in which imaging and analysis of transient mechanical motion are of interest. Wavelet MRE has been developed for detecting broadband motion from transient excitation. The goal of this study was to evaluate the accuracy and efficiency of wavelet MRE for transient displacement detection in brain MRE applications.

METHODS

Transient motion was induced in a gel phantom, while MRE images were acquired using bipolar motion-encoding gradient (MEG) at multiple frequencies (20-200 Hz). Displacements were estimated using (1) combinations of multiple MEGs forming the wavelet MRE and (2) deconvolution from a single MEG. These estimated displacements were used to calculate the MRE phase for each MEG. Correlation (r) between the calculated and acquired phases was evaluated. Three healthy volunteers were scanned twice in a clinical scanner using wavelet MRE with an occipital impact. Time-resolved brain translation, rotation, and maximal principal strain were calculated. Repeatability was assessed both qualitatively and through Pearson correlation.

RESULTS

Wavelet MRE outperformed standard MRE in displacement estimation, showing higher correlations between calculated and acquired phase, even with fewer phase offsets. In the volunteer study, consistent temporal motion dynamics and spatial maximal principal strain distributions across repeated scans demonstrated the repeatability of wavelet MRE.

CONCLUSION

This study validated the accuracy and efficiency of wavelet MRE for broadband motion detection and demonstrated its feasibility and repeatability in vivo. This technique shows promise for advancing our understanding of the injury risks and mechanisms associated with sports-related head trauma.

摘要

目的

虽然标准磁共振弹性成像(MRE)使用谐波机械波,但在一些应用中,对瞬态机械运动的成像和分析很有意义。小波MRE已被开发用于检测瞬态激励产生的宽带运动。本研究的目的是评估小波MRE在脑MRE应用中检测瞬态位移的准确性和效率。

方法

在凝胶体模中诱导瞬态运动,同时使用双极运动编码梯度(MEG)在多个频率(20 - 200 Hz)采集MRE图像。使用(1)形成小波MRE的多个MEG的组合和(2)从单个MEG进行去卷积来估计位移。这些估计的位移用于计算每个MEG的MRE相位。评估计算相位与采集相位之间的相关性(r)。三名健康志愿者在临床扫描仪中使用枕部冲击的小波MRE进行了两次扫描。计算了时间分辨的脑平移、旋转和最大主应变。通过定性和Pearson相关性评估了重复性。

结果

在位移估计方面,小波MRE优于标准MRE,即使相位偏移较少,计算相位与采集相位之间也显示出更高的相关性。在志愿者研究中,重复扫描中一致的时间运动动力学和空间最大主应变分布证明了小波MRE的可重复性。

结论

本研究验证了小波MRE在宽带运动检测方面的准确性和效率,并证明了其在体内的可行性和可重复性。该技术有望推进我们对与运动相关的头部创伤的损伤风险和机制的理解。