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本文引用的文献

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In vivo diffusion-tensor MRI of the human heart on a 3 tesla clinical scanner: An optimized second order (M2) motion compensated diffusion-preparation approach.在3特斯拉临床扫描仪上对人体心脏进行的体内扩散张量磁共振成像:一种优化的二阶(M2)运动补偿扩散准备方法。
Magn Reson Med. 2016 Nov;76(5):1354-1363. doi: 10.1002/mrm.26380. Epub 2016 Aug 23.
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Imaging of the lumbar plexus: Optimized refocusing flip angle train design for 3D TSE.腰丛神经成像:用于三维快速自旋回波的优化重聚焦翻转角序列设计
J Magn Reson Imaging. 2016 Apr;43(4):789-99. doi: 10.1002/jmri.25076. Epub 2015 Oct 10.
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High resolution 3D diffusion cardiovascular magnetic resonance of carotid vessel wall to detect lipid core without contrast media.无需造影剂的高分辨率三维扩散心血管磁共振成像用于检测颈动脉血管壁脂质核。
J Cardiovasc Magn Reson. 2014 Sep 17;16(1):67. doi: 10.1186/s12968-014-0067-z.
4
Real-time correction of rigid body motion-induced phase errors for diffusion-weighted steady-state free precession imaging.扩散加权稳态自由进动成像中刚体运动诱导相位误差的实时校正
Magn Reson Med. 2015 Feb;73(2):565-76. doi: 10.1002/mrm.25159. Epub 2014 Apr 8.
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Optimized three-dimensional fast-spin-echo MRI.优化的三维快速自旋回波磁共振成像
J Magn Reson Imaging. 2014 Apr;39(4):745-67. doi: 10.1002/jmri.24542. Epub 2014 Jan 8.
6
In vivo three-dimensional high resolution cardiac diffusion-weighted MRI: a motion compensated diffusion-prepared balanced steady-state free precession approach.体内三维高分辨率心脏扩散加权磁共振成像:一种运动补偿扩散准备平衡稳态自由进动方法。
Magn Reson Med. 2014 Nov;72(5):1257-67. doi: 10.1002/mrm.25038. Epub 2013 Nov 20.
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Motion-induced phase error estimation and correction in 3D diffusion tensor imaging.三维扩散张量成像中的运动诱导相位误差估计与校正。
IEEE Trans Med Imaging. 2011 Nov;30(11):1933-40. doi: 10.1109/TMI.2011.2158654. Epub 2011 Jun 7.
8
K-space and image-space combination for motion-induced phase-error correction in self-navigated multicoil multishot DWI.K 空间和图像空间组合用于自导航多线圈多 shot DWI 中的运动相位误差校正。
IEEE Trans Med Imaging. 2009 Nov;28(11):1770-80. doi: 10.1109/TMI.2009.2023212.
9
Robust GRAPPA-accelerated diffusion-weighted readout-segmented (RS)-EPI.稳健的 GRAPPA 加速扩散加权读出分段(RS)-EPI。
Magn Reson Med. 2009 Dec;62(6):1629-40. doi: 10.1002/mrm.22122.
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High resolution diffusion-weighted imaging using readout-segmented echo-planar imaging, parallel imaging and a two-dimensional navigator-based reacquisition.使用读出分段回波平面成像、并行成像和基于二维导航器的重新采集的高分辨率扩散加权成像。
Magn Reson Med. 2009 Aug;62(2):468-75. doi: 10.1002/mrm.22024.

多激发扩散准备快速自旋回波成像中相位误差效应的分析

Analysis of phase error effects in multishot diffusion-prepared turbo spin echo imaging.

作者信息

Van Anh T, Cervantes Barbara, Kooijman Hendrik, Karampinos Dimitrios C

机构信息

Zentralinstitut für Medizintechnik, Technical University of Munich, Garching, Germany.

Department of Diagnostic and Interventional Radiology, Technical University of Munich, Munich, Germany.

出版信息

Quant Imaging Med Surg. 2017 Apr;7(2):238-250. doi: 10.21037/qims.2017.04.01.

DOI:10.21037/qims.2017.04.01
PMID:28516049
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5418150/
Abstract

BACKGROUND

To characterize the effect of phase errors on the magnitude and the phase of the diffusion-weighted (DW) signal acquired with diffusion-prepared turbo spin echo (dprep-TSE) sequences.

METHODS

Motion and eddy currents were identified as the main sources of phase errors. An analytical expression for the effect of phase errors on the acquired signal was derived and verified using Bloch simulations, phantom, and experiments.

RESULTS

Simulations and experiments showed that phase errors during the diffusion preparation cause both magnitude and phase modulation on the acquired data. When motion-induced phase error (MiPe) is accounted for (e.g., with motion-compensated diffusion encoding), the signal magnitude modulation due to the leftover eddy-current-induced phase error cannot be eliminated by the conventional phase cycling and sum-of-squares (SOS) method. By employing magnitude stabilizers, the phase-error-induced magnitude modulation, regardless of its cause, was removed but the phase modulation remained. The comparison between pulsed gradient and flow-compensated diffusion preparations showed that MiPe needed to be addressed in multi-shot dprep-TSE acquisitions employing magnitude stabilizers.

CONCLUSIONS

A comprehensive analysis of phase errors in dprep-TSE sequences showed that magnitude stabilizers are mandatory in removing the phase error induced magnitude modulation. Additionally, when multi-shot dprep-TSE is employed the inconsistent signal phase modulation across shots has to be resolved before shot-combination is performed.

摘要

背景

描述相位误差对采用扩散准备快速自旋回波(dprep-TSE)序列采集的扩散加权(DW)信号的幅度和相位的影响。

方法

将运动和涡流确定为相位误差的主要来源。推导了相位误差对采集信号影响的解析表达式,并通过布洛赫模拟、体模和实验进行了验证。

结果

模拟和实验表明,扩散准备期间的相位误差会对采集的数据造成幅度和相位调制。当考虑运动引起的相位误差(MiPe)时(例如,采用运动补偿扩散编码),传统的相位循环和平方和(SOS)方法无法消除由剩余涡流引起的相位误差导致的信号幅度调制。通过采用幅度稳定器,消除了无论其原因如何的相位误差引起的幅度调制,但相位调制仍然存在。脉冲梯度与流动补偿扩散准备之间的比较表明,在采用幅度稳定器的多次激发dprep-TSE采集中需要解决MiPe问题。

结论

对dprep-TSE序列中的相位误差进行的综合分析表明,幅度稳定器对于消除相位误差引起的幅度调制是必不可少的。此外,当采用多次激发dprep-TSE时,必须在进行序列组合之前解决各次激发之间不一致的信号相位调制问题。