Undersampling k-space using fast progressive 3D trajectories

## Abstract Three‐dimensional (3D) __k__‐space trajectories are needed to acquire volumetric images in MRI. While scan time is determined by the trajectory efficiency, image quality and distortions depend on the shape of the trajectories. There are several 3D trajectory strategies for sampling the

## Abstract Development of GRASE (gradient‐ and spin‐echo) pulse sequences for single‐shot 3D imaging has been motivated by physiologic studies of the brain. The duration of echo‐planar imaging (EPI) subsequences between RF refocusing pulses in the GRASE sequence is determinant of image distortions

Time-resolved contrast-enhanced 3D MR angiography (MRA) methods have gained in popularity but are still limited by the tradeoff between spatial and temporal resolution. A method is presented that greatly reduces this tradeoff by employing undersampled 3D projection reconstruction trajectories. The v

## Abstract Variable‐density __k__‐space sampling using a stack‐of‐spirals trajectory is proposed for ultra fast 3D imaging. Since most of the energy of an image is concentrated near the __k__‐space origin, a variable‐density __k__‐space sampling method can be used to reduce the sampling density in

## Abstract A new single‐shot stochastic imaging technique with a random __k__‐space path that provides very selective filtering with respect to chemical shift or off‐resonance signals of the investigated tissue is proposed. It is demonstrated that in stochastic imaging only on‐resonance compartmen