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2
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。
Phys Med Biol. 2021 Feb 26;66(5). doi: 10.1088/1361-6560/abd5ce.
3
Learning Multiparametric Biomarkers for Assessing MR-Guided Focused Ultrasound Treatment of Malignant Tumors.学习用于评估磁共振引导下聚焦超声治疗恶性肿瘤的多参数生物标志物。
IEEE Trans Biomed Eng. 2021 May;68(5):1737-1747. doi: 10.1109/TBME.2020.3024826. Epub 2021 Apr 21.
4
A Breast-Specific MR Guided Focused Ultrasound Platform and Treatment Protocol: First-in-Human Technical Evaluation.乳腺专用磁共振引导聚焦超声平台及治疗方案:首例人体技术评估。
IEEE Trans Biomed Eng. 2021 Mar;68(3):893-904. doi: 10.1109/TBME.2020.3016206. Epub 2021 Feb 19.
5
Magnetic resonance thermometry and its biological applications - Physical principles and practical considerations.磁共振测温及其生物学应用——物理原理与实际考虑。
Prog Nucl Magn Reson Spectrosc. 2019 Feb;110:34-61. doi: 10.1016/j.pnmrs.2019.01.003. Epub 2019 Jan 31.
6
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.
7
Simultaneous proton resonance frequency shift thermometry and T measurements using a single reference variable flip angle T method.使用单一参考变量翻转角 T 方法进行质子共振频率位移测温和 T 测量。
Magn Reson Med. 2019 May;81(5):3138-3152. doi: 10.1002/mrm.27643. Epub 2019 Jan 16.
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Improved MR thermometry for laser interstitial thermotherapy.用于激光间质热疗的改进型磁共振测温技术。
Lasers Surg Med. 2019 Mar;51(3):286-300. doi: 10.1002/lsm.23049. Epub 2019 Jan 15.
9
Multiple-point magnetic resonance acoustic radiation force imaging.多点磁共振声辐射力成像。
Magn Reson Med. 2019 Feb;81(2):1104-1117. doi: 10.1002/mrm.27477. Epub 2018 Sep 26.
10
MR-ARFI-based method for the quantitative measurement of tissue elasticity: application for monitoring HIFU therapy.基于磁共振弹性成像的组织弹性定量测量方法:在超声聚焦治疗监测中的应用。
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MR 引导聚焦超声多参数治疗监测的质子共振频率 T-磁共振剪切波弹性成像。

Simultaneous proton resonance frequency T - MR shear wave elastography for MR-guided focused ultrasound multiparametric treatment monitoring.

机构信息

Department of Radiology and Imaging Sciences, University of Utah, Salt Lake City, Utah, USA.

Image Guided Therapy, Pessac, France.

出版信息

Magn Reson Med. 2023 Jun;89(6):2171-2185. doi: 10.1002/mrm.29587. Epub 2023 Jan 19.

DOI:10.1002/mrm.29587
PMID:36656135
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10940047/
Abstract

PURPOSE

To develop an efficient MRI pulse sequence to simultaneously measure multiple parameters that have been shown to correlate with tissue nonviability following thermal therapies.

METHODS

A 3D segmented EPI pulse sequence was used to simultaneously measure proton resonance frequency shift (PRFS) MR thermometry (MRT), T relaxation time, and shear wave velocity induced by focused ultrasound (FUS) push pulses. Experiments were performed in tissue mimicking gelatin phantoms and ex vivo bovine liver. Using a carefully designed FUS triggering scheme, a heating duty cycle of approximately 65% was achieved by interleaving FUS ablation pulses with FUS push pulses to induce shear waves in the tissue.

RESULTS

In phantom studies, temperature increases measured with PRFS MRT and increases in T correlated with decreased shear wave velocity, consistent with material softening with increasing temperature. During ablation in ex vivo liver, temperature increase measured with PRFS MRT initially correlated with increasing T and decreasing shear wave velocity, and after tissue coagulation with decreasing T and increasing shear wave velocity. This is consistent with a previously described hysteresis in T versus PRFS curves and increased tissue stiffness with tissue coagulation.

CONCLUSION

An efficient approach for simultaneous and dynamic measurements of PRSF, T , and shear wave velocity during treatment is presented. This approach holds promise for providing co-registered dynamic measures of multiple parameters, which correlates to tissue nonviability during and following thermal therapies, such as FUS.

摘要

目的

开发一种高效的 MRI 脉冲序列,以同时测量多个与热疗后组织失活相关的参数。

方法

使用三维分段 EPI 脉冲序列同时测量质子共振频率偏移(PRFS)磁共振测温(MRT)、T 弛豫时间和聚焦超声(FUS)推脉冲引起的剪切波速度。在组织模拟明胶体模和离体牛肝中进行了实验。通过精心设计的 FUS 触发方案,通过将 FUS 消融脉冲与 FUS 推脉冲交错,以在组织中产生剪切波,实现了约 65%的加热占空比。

结果

在体模研究中,PRFS MRT 测量的温度升高和 T 的增加与剪切波速度的降低相关,这与随温度升高而导致的材料软化一致。在离体肝消融过程中,PRFS MRT 测量的温度升高最初与 T 的增加和剪切波速度的降低相关,随后在组织凝固时与 T 的降低和剪切波速度的增加相关。这与先前描述的 T 与 PRFS 曲线之间的滞后现象以及组织凝固时组织刚度增加一致。

结论

提出了一种在治疗过程中同时进行 PRSF、T 和剪切波速度动态测量的有效方法。这种方法有望提供与热疗过程中和之后组织失活相关的多个参数的配准动态测量,例如 FUS。