Automatic algorithm for correcting motion artifacts in time-resolved two-dimensional magnetic resoance angiography using convex projections

Time‐resolved contrast enhanced magnetic resonance angiography (MRA) may suffer from involuntary patient motion. It is noted that while MR signal change associated with motion is large in magnitude and has smooth phase variation in k‐phase, signal change associated with vascular enhancement is small...

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Bibliographic Details
Published in:Magnetic resonance in medicine 2006-03, Vol.55 (3), p.649-658
Main Authors: Raj, Ashish, Zhang, Honglei, Prince, Martin R., Wang, Yi, Zabih, Ramin
Format: Article
Language:English
Subjects:
convex projections
magnetic resonance angiography
motion correction
non-global motion
POCS
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Summary:Time‐resolved contrast enhanced magnetic resonance angiography (MRA) may suffer from involuntary patient motion. It is noted that while MR signal change associated with motion is large in magnitude and has smooth phase variation in k‐phase, signal change associated with vascular enhancement is small in magnitude and has rapid phase variation in k‐space. Based upon this observation, a novel projection onto convex sets (POCS) algorithm is developed as an automatic iterative method to remove motion artifacts. The presented POCS algorithm consists of high‐pass phase filtering and convex projections in both k‐space and image space. Without input of detailed motion knowledge, motion effects are filtered out, while vasculature information is preserved. The proposed method can be effective for a large class of nonrigid motions, including through‐plane motion. The algorithm is stable and converges quickly, usually within five iterations. A double‐blind evaluation on a set of clinical MRA cases shows that a completely unsupervised version of the algorithm produces significantly better rank scores (P = 0.038) when compared to angiograms produced manually by an experienced radiologist. Magn Reson Med, 2006. © 2006 Wiley‐Liss, Inc.
ISSN:0740-3194
1522-2594
DOI:10.1002/mrm.20806