Fast magnetic resonance coronary angiography with a three-dimensional stack of spirals trajectory
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Date
1999
Journal Title
Journal ISSN
Volume Title
Publisher
WILEY
Abstract
In this work, three-dimensional (3D) spiral imaging has been utilized for magnetic resonance coronary angiography, Spiral-based 3D techniques can dramatically reduce imaging time requirements compared with 3D Fourier Transform imaging. The method developed here utilized a "stack of spirals" trajectory, to traverse 3D k-space rapidly. Both thick-slab volumes encompassing the entire coronary tree with isotropic resolution and thin-slab volumes targeted to a particular vessel of interest were acquired. Respiratory compensation was achieved using the diminishing variance algorithm. TS-prepared contrast was also applied in some cases to improve contrast between vessel and myocardium, while off-resonance blurring was minimized by applying a linear correction to the acquired data. Images from healthy volunteers were displayed using a curved reformatting technique to view long segments of vessel in a single projection. The results demonstrate that this 3D spiral technique is capable of producing high-quality coronary magnetic resonance angiograms, (C) 1999 Wiley-Liss, Inc.
Description
Keywords
coronary angiography, spiral trajectories, three-dimensional, imaging, RESPIRATORY FEEDBACK MONITOR, MR-ANGIOGRAPHY, BREATH-HOLD, ECHO-PLANAR, ARTERIES, REDUCTION, CONTRAST