Add to ORKGOne important requirement of Compressed Sensing is incoherent k-space sampling. This cannot be easily achieved for 2D imaging due to trajectory restrictions. We propose a new sampling scheme using radial projections covering the full square-shaped k-space in combination with blipped gradients of varying amplitude, frequency and phase shift. To show the applicability of the new sampling scheme, highly undersampled in vivo cardiac data has been acquired along the Moët trajectory using a TrueFISP sequence and reconstructed using a combination of through-time non-Cartesian GRAPPA and Compressed Sensing
BackgroundSegmented cine cardiac MRI combines data from multiple heartbeats to achieve high spatiote...
Fast coverage of k-space is a major concern to speed up data acquisition in Magnetic Resonance Imagi...
To generate real-time, nongated, free-breathing cardiac images, the undersampled radial trajectory c...
International audienceWe present for the first time the implementation of novel non-Cartesian trajec...
International audienceMagnetic resonance imaging (MRI) is a medical imaging technique used in radiol...
Compressed sensing (CS) is an efficient tool that acceler-ates the data acquisition in MRI through t...
International audienceDiffusion tensor imaging (DTI) is known to suffer from long acquisition time, ...
A compressed sensing dynamic MR technique called k-t FOCUSS (k-t FOCal Underdetermined System Solver...
Magnetic Resonance (MR) imaging is a multiparametric imaging technique allowing the diagnosis of a w...
Previous work has shown that the use of radial GRAPPA for the reconstruction of undersampled real-ti...
Background: Non-Cartesian trajectories are used in a variety of fast imaging applications, due to th...
Summary Through-Time 3D Radial GRAPPA can be used to reconstruct 3D CINE images covering the whole h...
AbstractBackgroundSegmented cine cardiac MRI combines data from multiple heartbeats to achieve high ...
International audienceSince its discovery over the last decade, Compressed Sensing (CS) has been suc...
BackgroundSegmented cine cardiac MRI combines data from multiple heartbeats to achieve high spatiote...
Fast coverage of k-space is a major concern to speed up data acquisition in Magnetic Resonance Imagi...
To generate real-time, nongated, free-breathing cardiac images, the undersampled radial trajectory c...
International audienceWe present for the first time the implementation of novel non-Cartesian trajec...
International audienceMagnetic resonance imaging (MRI) is a medical imaging technique used in radiol...
Compressed sensing (CS) is an efficient tool that acceler-ates the data acquisition in MRI through t...
International audienceDiffusion tensor imaging (DTI) is known to suffer from long acquisition time, ...
A compressed sensing dynamic MR technique called k-t FOCUSS (k-t FOCal Underdetermined System Solver...
Magnetic Resonance (MR) imaging is a multiparametric imaging technique allowing the diagnosis of a w...
Previous work has shown that the use of radial GRAPPA for the reconstruction of undersampled real-ti...
Background: Non-Cartesian trajectories are used in a variety of fast imaging applications, due to th...
Summary Through-Time 3D Radial GRAPPA can be used to reconstruct 3D CINE images covering the whole h...
AbstractBackgroundSegmented cine cardiac MRI combines data from multiple heartbeats to achieve high ...
International audienceSince its discovery over the last decade, Compressed Sensing (CS) has been suc...
BackgroundSegmented cine cardiac MRI combines data from multiple heartbeats to achieve high spatiote...
Fast coverage of k-space is a major concern to speed up data acquisition in Magnetic Resonance Imagi...
To generate real-time, nongated, free-breathing cardiac images, the undersampled radial trajectory c...