功能磁共振成像中生理伪影的k空间检测与校正

k-Space detection and correction of physiological artifacts in fMRI.

作者信息

Wowk B, McIntyre M C, Saunders J K

机构信息

Institute for Biodiagnostics, National Research Council Canada, Winnipeg.

出版信息

Magn Reson Med. 1997 Dec;38(6):1029-34. doi: 10.1002/mrm.1910380625.

DOI:10.1002/mrm.1910380625

PMID:9402206

Abstract

Signal phase variations caused by physiology are a major source of instability in fMRI images produced by multiple RF pulses. k-Space phase variation maps show cyclic phase variations at the frequency of respiration combined with a cardiac variation of lower amplitude. The amplitude of the variation increases with gradient echo time and proximity to the chest, suggesting that the dominant cause of the phase variation is a B0 shift (approximately 0.01 ppm) produced by movement of organs in the chest. A simple k-space phase correction method is proposed and demonstrated for FLASH fMRI. The retrospective method requires no pulse sequence modification, and is more effective than navigator echo correction. Physiological noise is dramatically reduced, especially at inferior slice locations.

摘要

由生理因素引起的信号相位变化是多个射频脉冲产生的功能磁共振成像（fMRI）图像不稳定的主要来源。k空间相位变化图显示，在呼吸频率处存在周期性相位变化，并伴有较低幅度的心脏变化。变化的幅度随着梯度回波时间和与胸部距离的增加而增大，这表明相位变化的主要原因是胸部器官运动产生的B0偏移（约0.01 ppm）。本文提出并论证了一种用于快速低角度激发（FLASH）fMRI的简单k空间相位校正方法。该回顾性方法无需修改脉冲序列，且比导航回波校正更有效。生理噪声显著降低，尤其是在下位层面位置。

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功能磁共振成像中生理伪影的k空间检测与校正

k-Space detection and correction of physiological artifacts in fMRI.

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