2011
DOI: 10.1002/mrm.22950
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Compressed‐sensing motion compensation (CosMo): A joint prospective–retrospective respiratory navigator for coronary MRI

Abstract: Prospective right hemi-diaphragm navigator is commonly used in free-breathing coronary MRI. The navigator results in an increase in acquisition time to allow for re-sampling of the motion-corrupted k-space data. In this study, we are presenting a joint prospective-retrospective navigator motion compensation algorithm called compressed-sensing motion compensation (CosMo). The inner k-space region is acquired using a prospective navigator; for the outer k-space, a navigator is only used to reject the motion-corr… Show more

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Cited by 23 publications
(31 citation statements)
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“…In this study, a conservative 3 mm gating window was used for the acquisition of the central 15% of the k-space region in the first ~1/6th of the scan, and the window was expanded to 5-7 mm for the remainder of the scan duration. The smaller gating window was employed for the central k-space data in this study, which concurs with recent approaches proposed for several coronary MR approaches that define inner and outer gating window separately (20,21). Such flexibility in navigator gating may allow for accelerated acquisition strategies that may suit clinical patient imaging that will have additional challenges in respiratory motion correction such as drifting respiratory motion during the scan.…”
Section: Discussionsupporting
confidence: 75%
“…In this study, a conservative 3 mm gating window was used for the acquisition of the central 15% of the k-space region in the first ~1/6th of the scan, and the window was expanded to 5-7 mm for the remainder of the scan duration. The smaller gating window was employed for the central k-space data in this study, which concurs with recent approaches proposed for several coronary MR approaches that define inner and outer gating window separately (20,21). Such flexibility in navigator gating may allow for accelerated acquisition strategies that may suit clinical patient imaging that will have additional challenges in respiratory motion correction such as drifting respiratory motion during the scan.…”
Section: Discussionsupporting
confidence: 75%
“…Parallel imaging is often incorporated into these techniques to further increase the data reduction factor and improve image quality 13,15,18 . Because motion, including cardiac and respiratory motion, can reduce the efficacy of compressed sensing reconstructions, a number of groups have incorporated navigator information 1921 , image registration 2224 , or even an additional motion dimension 25,26 , directly into the reconstruction.…”
Section: Sparse Reconstruction Techniquesmentioning
confidence: 99%
“…Therefore, MR angiography (MRA) is a natural application for sparse reconstructions. Both contrast enhanced 99 and non-contrast enhanced MRA 100 have been examined in a variety of applications, including intracranial vasculature 101,102 , carotids 103,104 , coronaries 19 , and pulmonary veins 105 . Reducing the acquisition time enables the dynamic visualization of the flow of blood sequentially into arteries and then veins via repeated rapid imaging.…”
Section: Clinical Applications Of Sparse Reconstruction Techniquesmentioning
confidence: 99%
See 1 more Smart Citation
“…In whole-heart coronary MRA, CS can also be applied to overcome the strict constraints that are set by motion, thus allowing the acquisition of a whole-heart volume in one breath hold, 115 or it can be used to compensate for respiratory motion in free-breathing acquisitions. 116,117 …”
Section: B Compressed Sensingmentioning
confidence: 99%