肝脏的运动稳健、血流抑制、失真减小的弥散 MRI。

Motion-robust, blood-suppressed, reduced-distortion diffusion MRI of the liver.

机构信息

Department of Radiology, University of Wisconsin-Madison, Madison, Wisconsin, USA.

Department of Medical Physics, University of Wisconsin-Madison, Madison, Wisconsin, USA.

出版信息

Magn Reson Med. 2023 Mar;89(3):908-921. doi: 10.1002/mrm.29531. Epub 2022 Nov 20.

DOI:10.1002/mrm.29531

PMID:36404637

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9792444/

Abstract

PURPOSE

To evaluate feasibility and reproducibility of liver diffusion-weighted (DW) MRI using cardiac-motion-robust, blood-suppressed, reduced-distortion techniques.

METHODS

DW-MRI data were acquired at 3T in an anatomically accurate liver phantom including controlled pulsatile motion, in eight healthy volunteers and four patients with known or suspected liver metastases. Standard monopolar and motion-robust (M1-nulled, and M1-optimized) DW gradient waveforms were each acquired with single-shot echo-planar imaging (ssEPI) and multishot EPI (msEPI). In the motion phantom, apparent diffusion coefficient (ADC) was measured in the motion-affected volume. In healthy volunteers, ADC was measured in the left and right liver lobes separately to evaluate ADC reproducibility between the two lobes. Image distortions were quantified using the normalized cross-correlation coefficient, with an undistorted T2-weighted reference.

RESULTS

In the motion phantom, ADC mean and SD in motion-affected volumes substantially increased with increasing motion for monopolar waveforms. ADC remained stable in the presence of increasing motion when using motion-robust waveforms. M1-optimized waveforms suppressed slow flow signal present with M1-nulled waveforms. In healthy volunteers, monopolar waveforms generated significantly different ADC measurements between left and right liver lobes ( , reproducibility coefficients (RPC) = mm /s for monopolar-msEPI), while M1-optimized waveforms showed more reproducible ADC values ( , mm /s for M1-optimized-msEPI). In phantom and healthy volunteer studies, motion-robust acquisitions with msEPI showed significantly reduced image distortion ( ) compared to ssEPI. Patient scans showed reduction of wormhole artifacts when combining M1-optimized waveforms with msEPI.

CONCLUSION

Synergistic effects of combined M1-optimized diffusion waveforms and msEPI acquisitions enable reproducible liver DWI with motion robustness, blood signal suppression, and reduced distortion.

摘要

目的

评估使用心脏运动稳健、血液抑制、失真减小技术进行肝脏弥散加权（DW）MRI 的可行性和可重复性。

方法

在包括受控脉动运动的解剖准确的肝脏体模中，在 8 名健康志愿者和 4 名已知或疑似肝转移患者中，在 3T 上采集 DW-MRI 数据。使用单次激发回波平面成像（ssEPI）和多 shot EPI（msEPI）分别采集标准单极和运动稳健（M1 置零和 M1 优化）DW 梯度波形。在运动体模中，在受运动影响的体积中测量表观扩散系数（ADC）。在健康志愿者中，分别在左肝叶和右肝叶测量 ADC，以评估两个肝叶之间的 ADC 可重复性。使用归一化互相关系数量化图像失真，使用无失真的 T2 加权参考。

结果

在运动体模中，对于单极波形，随着运动的增加，受运动影响的体积中的 ADC 均值和标准差大大增加。当使用运动稳健的波形时，ADC 在存在运动增加的情况下保持稳定。M1 优化的波形抑制了 M1 置零波形中存在的缓慢流动信号。在健康志愿者中，单极波形在左肝叶和右肝叶之间产生明显不同的 ADC 测量值（，重复性系数（RPC）为 mm /s 用于单极-msEPI），而 M1 优化的波形显示出更可重复的 ADC 值（，用于 M1 优化-msEPI 的 mm /s）。在体模和健康志愿者研究中，与 ssEPI 相比，msEPI 上使用的运动稳健采集具有更低的图像失真（）。在患者扫描中，当将 M1 优化的波形与 msEPI 结合使用时，可减少虫洞伪影。

结论

结合 M1 优化的扩散波形和 msEPI 采集的协同作用，可实现具有运动稳健性、血液信号抑制和失真减小的可重复肝脏 DWI。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9784/10099538/4e03f93ea00b/MRM-89-908-g003.jpg

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肝脏的运动稳健、血流抑制、失真减小的弥散 MRI。

Motion-robust, blood-suppressed, reduced-distortion diffusion MRI of the liver.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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