Four-Dimensional Respiratory Motion-Resolved Whole Heart Coronary MR Angiography

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Abstract

Purpose

Free-breathing whole-heart coronary MR angiography (MRA) commonly uses navigators to gate respiratory motion, resulting in lengthy and unpredictable acquisition times. Conversely, self-navigation has 100% scan efficiency, but requires motion correction over a broad range of respiratory displacements, which may introduce image artifacts. We propose replacing navigators and self-navigation with a respiratory motion-resolved reconstruction approach.

Methods

Using a respiratory signal extracted directly from the imaging data, individual signal-readouts are binned according to their respiratory states. The resultant series of undersampled images are reconstructed using an extradimensional golden-angle radial sparse parallel imaging (XD-GRASP) algorithm, which exploits sparsity along the respiratory dimension. Whole-heart coronary MRA was performed in 11 volunteers and four patients with the proposed methodology. Image quality was compared with that obtained with one-dimensional respiratory self-navigation.

Results

Respiratory-resolved reconstruction effectively suppressed respiratory motion artifacts. The quality score for XD-GRASP reconstructions was greater than or equal to self-navigation in 80/88 coronary segments, reaching diagnostic quality in 61/88 segments versus 41/88. Coronary sharpness and length were always superior for the respiratory-resolved datasets, reaching statistical significance ( P < 0.05) in most cases.

Conclusion

XD-GRASP represents an attractive alternative for handling respiratory motion in free-breathing whole heart MRI and provides an effective alternative to self-navigation.

Related collections

Author and article information

Journal

Journal ID (nlm-journal-id): 8505245

Journal ID (pubmed-jr-id): 5733

Journal ID (nlm-ta): Magn Reson Med

Journal ID (iso-abbrev): Magn Reson Med

Title: Magnetic resonance in medicine

ISSN (Print): 0740-3194

ISSN (Electronic): 1522-2594

Publication date Nihms-submitted: 7 June 2016

Publication date (Electronic): 28 March 2016

Publication date (Print): April 2017

Publication date PMC-release: 01 April 2017

Volume: 77

Issue: 4

Pages: 1473-1484

Affiliations

[1 ]Advanced Clinical Imaging Technology, Siemens Healthcare, Lausanne, Switzerland

[2 ]Department of Radiology, University Hospital and University of Lausanne, Lausanne, Switzerland

[3 ]Center for Advanced Imaging Innovation and Research, and Bernard and Irene Schwartz Center for Biomedical Imaging, Department of Radiology, New York University School of Medicine, New York, New York, USA

[4 ]Center for Biomedical Imaging, Lausanne, Switzerland

[5 ]Department of Radiology, Austin Health and The University of Melbourne, Melbourne, Victoria, Australia

[6 ]Division of Cardiology and Cardiac MR Center, University Hospital of Lausanne, Lausanne, Switzerland

Author notes

[* ]Correspondence to: Davide Piccini Ph.D., Center for BioMedical Imaging, Centre Hospitalier Universitaire Vaudois, Rue de Bugnon 46, BH 7.84, 1011 Lausanne, Switzerland. piccinidavide@ 123456gmail.com ; Twitter: @CVMR_Lausanne

[†]

Davide Piccini and Li Feng contributed equally to this study.

Article

Accession ID: PMC5040623 Pmcid ID: PMC5040623 Pmc-uid ID: 5040623 Manuscript ID: nihpa790954

DOI: 10.1002/mrm.26221

PMC ID: 5040623

PubMed ID: 27052418

SO-VID: 1c7cf218-4406-4213-a1d8-626be3cbd97f

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