论文信息 - Phase‐Encode reordering to minimize errors caused by motion

Phase‐Encode reordering to minimize errors caused by motion

A new method for suppressing the effects of motion in MR images by reordering the acquisition of k space has been developed. Existing reordering methods suffer from image blurring. The method presented here applies specifically to translation along the phase‐encoding direction, in which case it reduces both ghosting and blurring. The method is conceptually similar to a linear phase shift of k space, except that it has the advantage of not corrupting stationary structures inadvertently. The method is intended for anatomic sites in which substantial translational motion occurs along the phase‐encoding direction, such as the cranial‐caudal motion of the liver and kidneys. The reordering method is motivated from an analysis of factors affecting the severity of motion artifacts. The theory behind the reordering method is described and validated experimentally by imaging a moving phantom.

M. L. Wood | M L Wood | C. Macgowan | C K Macgowan

[1] J. Felmlee,et al. Adaptive technique for high-definition MR imaging of moving structures. , 1989, Radiology.

[2] J. Duerk,et al. Motion artifact suppression technique (MAST) for MR imaging. , 1987, Journal of computer assisted tomography.

[3] R C Grimm,et al. Respiratory kinematics of the upper abdominal organs: A quantitative study , 1992, Magnetic resonance in medicine.

[4] E M Haacke,et al. Reducing motion artifacts in two-dimensional Fourier transform imaging. , 1986, Magnetic resonance imaging.

[5] A. G. Collins,et al. Respiratory ordered phase encoding (ROPE): a method for reducing respiratory motion artefacts in MR imaging. , 1985, Journal of computer assisted tomography.

[6] L Axel,et al. Respiratory effects in two-dimensional Fourier transform MR imaging. , 1986, Radiology.

[7] S J Riederer,et al. Compensation for effects of linear motion in MR imaging , 1989, Magnetic resonance in medicine.

[8] Todd S. Sachs,et al. Real‐time motion detection in spiral MRI using navigators , 1994, Magnetic resonance in medicine.

[9] A. Macovski,et al. Selection of a convolution function for Fourier inversion using gridding [computerised tomography application]. , 1991, IEEE transactions on medical imaging.

[10] R L Ehman,et al. Altered phase‐encoding order for reduced sensitivity to motion in three‐dimensional MR imaging , 1992, Journal of magnetic resonance imaging : JMRI.