Accelerating dual cardiac phase images using undersampled radial phase encoding trajectories

Abstract: A three-dimensional dual-cardiac-phase (3D-DCP) scan has been proposed to acquire two data sets of the whole heart and great vessels during the end-diastolic and end-systolic cardiac phases in a single free-breathing scan. This method has shown accurate assessment of cardiac anatomy and function but is limited by long acquisition times. This work proposes to accelerate the acquisition and reconstruction of 3D-DCP scans by exploiting redundant information of the outer k-space regions of both cardiac phases. Thi… Show more

“…Although no regional wall motion function is provided, this approach allows an isotropic 3D dataset to be acquired without the necessity for breath-holding, potentially allowing for a more accurate approach to ventricular volumetric analysis ( 12 , 13 ). Radial phase encoding trajectories have been also used for faster data acquisition ( 14 ).…”

3D Whole Heart Imaging for Congenital Heart Disease

“…Although no regional wall motion function is provided, this approach allows an isotropic 3D dataset to be acquired without the necessity for breath-holding, potentially allowing for a more accurate approach to ventricular volumetric analysis ( 12 , 13 ). Radial phase encoding trajectories have been also used for faster data acquisition ( 14 ).…”

3D Whole Heart Imaging for Congenital Heart Disease