超短回波时间成像k空间轨迹失真的校正

doi:10.11938/cjmr20160409

波谱学杂志 ›› 2016, Vol. 33 ›› Issue (4): 597-608.doi: 10.11938/cjmr20160409

超短回波时间成像k空间轨迹失真的校正

王超^1,2, 周波^1,2, 张志¹, 杨春升¹, 陈方¹, 刘朝阳¹

1. 波谱与原子分子物理国家重点实验室, 武汉磁共振中心(中国科学院武汉物理与数学所), 武汉 430071;
2. 中国科学院大学, 北京 100049

收稿日期:2016-04-26 修回日期:2016-10-25 出版日期:2016-12-05 发布日期:2016-12-05
通讯作者: 刘朝阳,电话:027-87199686,E-mail:chyliu@wipm.ac.cn E-mail:chyliu@wipm.ac.cn
作者简介:王超(1990-),男,四川绵阳人,硕士研究生,电子通信工程专业
基金资助:
国家重大科研装备研制项目（ZDYZ2010-2-4）.

Correction of k-Space Trajectory Errors in Ultra-Short TE Imaging

WANG Chao^1,2, ZHOU Bo^1,2, ZHANG Zhi¹, YANG Chun-sheng¹, CHEN Fang¹, LIU Chao-yang¹

1. State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, National Center for Magnetic Resonance in Wuhan(Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences), Wuhan 430071, China;
2. University of the Chinese Academy of Sciences, Beijing 100049, China

Received:2016-04-26 Revised:2016-10-25 Online:2016-12-05 Published:2016-12-05

摘要/Abstract

摘要： 超短回波时间（ultra-short echo-time，UTE）成像在科研和临床诊断上有着良好的应用前景，但是其k空间轨迹极易受到梯度涡流和梯度延时等因素的影响而产生失真，会严重影响磁共振图像重建的质量．该文分析了轨迹失真对UTE图像的影响，并提出了一种改进的轨迹失真校正方法．实验表明，该方法能够明显减轻UTE图像中轨迹失真的影响、改善图像质量，还可以降低UTE技术对磁共振成像（MRI）硬件系统性能的要求，有助于UTE方法的推广．

关键词: k空间轨迹失真校正, 超短回波时间(UTE)成像

Abstract: Ultra-short echo-time (UTE) imaging has many potential applications in clinical diagnosis and scientific researches. Image quality in UTE can be degraded by imperfections in k-space trajectory resulting from eddy currents, gradient delay and so on. In this work, an improved method for k-space trajectory correction in UTE was proposed. Experimental results showed that this method could correct back effects of the trajectory errors, and improve the quality of UTE images significantly. In addition, with the use of the method, UTE would have lower performance requirement for magnetic resonance imaging (MRI) hardware system, which is beneficial for development of routine UTE applications.

Key words: k-space trajectory correction, ultra-short echo-time(UTE) imaging

中图分类号:

O482.53

王超, 周波, 张志, 杨春升, 陈方, 刘朝阳. 超短回波时间成像k空间轨迹失真的校正[J]. 波谱学杂志, 2016, 33(4): 597-608.

WANG Chao, ZHOU Bo, ZHANG Zhi, YANG Chun-sheng, CHEN Fang, LIU Chao-yang. Correction of k-Space Trajectory Errors in Ultra-Short TE Imaging[J]. Chinese Journal of Magnetic Resonance, 2016, 33(4): 597-608.

参考文献

[1] Yang X. Contrast in NMR imaging and microscopy[J]. Concept Magn Reson, 1996, 8(3):205-225.
[2] Poels E M, Kegeles L S, Kantrowitz J T, et al. Glutamatergic abnormalities in schizophrenia:A review of proton MRS findings[J]. Schizophr Res, 2014, 152(1,2):325-332.
[3] Lynch K, O'brien R. ¹H magnetic resonance spectroscopy:A review of the current literature and its potential utility in veterinary oncology[J]. Vet J, 2014, 200(2):240-247.
[4] Bae W C, Chang E Y, Chung C B. Short and ultrashort TE imaging of cartilage and fibrocartilage[J]. eMagRes, 2012, 1(4):823-836.
[5] Boulougouri K, Messiou C, Desouza N M. Ultrashort TE in cancer imaging[J]. eMagRes, 2012, 1(1):97-102.
[6] Madelin G, Lee J S, Regatte R R, et al. Sodium MRI:Methods and applications[J]. Prog Nucl Magn Reson Spectrosc, 2014, 79:4-47.
[7] Ian Y. Overview of short and ultrashort T₂/T₂^* echo time (UTE) imaging[J]. eMagRes, 2012, 1(4):747-756.
[8] Michael G. MRI of fast-relaxing spins[J]. J Magn Reson, 2013, 229:49-54.
[9] Margosian P M, Takahashi T, Takizawa M. Practical implementation of UTE imaging[J]. eMagRes, 2012, 1(2):297-310.
[10] Fabich H T, Benning M, Sederman A J, et al. Ultrashort echo time (UTE) imaging using gradient pre-equalization and compressed sensing[J]. J Magn Reson, 2014, 245:116-124.
[11] Tyler D J, Robson M D, Henkelman R M, et al. Magnetic resonance imaging with ultrashort TE (UTE) pulse sequences:technical considerations[J]. J Magn Reson Imaging, 2007, 25(2):279-289.
[12] Duyn J H, Yang Y, Frank J A, et al. Simple correction method for k-space trajectory deviations in MRI[J]. J Magn Reson, 1998, 132:150-153.
[13] Addy N O, Wu H H, Nishimura D G. Simple method for MR gradient system characterization and k-space trajectory estimation[J]. Magn Reson Med, 2012, 68(1):120-129.
[14] Atkinson I C, Lu A K, Thulborn K. Characterization and correction of system delays and eddy currents for MR imaging with ultrashort echo-time and time-varying gradients[J]. Magn Reson Med, 2009, 62(2):532-537.
[15] Aldefeld b, Bornert P. Effects of gradient anisotropy in MRI[J]. Magn Reson Med, 1998, 39(4):606-614.
[16] Brodsky E K, Samsonov A A, Block W F. Characterizing and correcting gradient errors in non-cartesian imaging:Are gradient errors linear time-invariant (LTI)?[J]. Magn Reson Med, 2009, 62(6):1466-1476.
[17] Jehenson P, Westphal M, Schuff N. Analytical method for the compensation of eddy-current effects induced by pulsed magnetic field gradients in NMR systems[J]. J Magn Reson, 1990, 90(2):264-278.
[18] Vaals J J V, Bergman A H. Optimization of eddy-current compensation[J]. J Magn Reson, 1990, 90(1):52-70.
[19] Bernstein M A, King K F, Zhou X J. Handbook of MRI Pulse Sequences[M]. London:Elsevier Academic Press. 2004.
[20] Han H, Ouriadov A V, Fordham E, et al. Direct measurement of magnetic field gradient waveforms[J]. Concept Magn Reson A, 2010, 36(6):349-360.

超短回波时间成像k空间轨迹失真的校正

Correction of k-Space Trajectory Errors in Ultra-Short TE Imaging

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超短回波时间成像k空间轨迹失真的校正

Correction of k-Space Trajectory Errors in Ultra-Short TE Imaging

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