Add to ORKGEfficient GRAPPA or SENSE reconstruction is largely dependent on coil geometry in the direction in which phase encoding steps reduction is performed during partially parallel acquisition. In this study we demonstrate the ability to perform a 2D CAIPIRINHA trajectory in a 3D EPI sequence to reduce the geometry factor (g-factor) noise amplification in the reconstructed images for a predefined total acceleration. 2D CAIPIRINHA style k-space patterns provide improved reconstructions when using very large accelerations on one phase-encode direction, thanks to the ability to use the coil sensitivities along the other phase-encode direction to compensate the reduced coil sensitivity variation
Introduction Echo-planar imaging (EPI) is a group of fast data acquisition methods commonly used in ...
Purpose: Partially parallel imaging (PPI) greatly accelerates MR imaging by using surface coil array...
To provide simultaneous multislice (SMS) EPI reconstruction with k-space implementation and robust N...
The generalized approach to parallel MRI has indicated that the utilization of acquired k-space poin...
Purpose: EPI with blip-up/down acquisition (BUDA) can provide high-quality images with minimal disto...
PURPOSE: This work aims to develop a novel distortion-free 3D-EPI acquisition and image reconstructi...
Three-dimensional (3D) encoding methods are increasingly being explored as alternatives to two-dimen...
Functional magnetic resonance imaging (fMRI) studies that require high-resolution whole-brain covera...
GRAPPA [1] has emerged to be a popular k-space-based parallel imaging reconstruction technique. GRAP...
A novel k-space reconstruction method is proposed for generating diffusion-weighted imaging (DWI) us...
For the reconstruction of 3D MRI data that are accelerated along the two phase-encoding directions, ...
PURPOSE: The combination of 3D echo planar imaging (3D-EPI) with a 2D-CAIPIRINHA undersampling schem...
Purpose: To reduce artifacts and scan time of GRASE imaging by selecting an optimal sampling pattern...
Functional magnetic resonance imaging (fMRI) has provided neuroscientists with a powerful tool to no...
PURPOSE: To introduce wave-encoded acquisition and reconstruction techniques for highly accelerated ...
Introduction Echo-planar imaging (EPI) is a group of fast data acquisition methods commonly used in ...
Purpose: Partially parallel imaging (PPI) greatly accelerates MR imaging by using surface coil array...
To provide simultaneous multislice (SMS) EPI reconstruction with k-space implementation and robust N...
The generalized approach to parallel MRI has indicated that the utilization of acquired k-space poin...
Purpose: EPI with blip-up/down acquisition (BUDA) can provide high-quality images with minimal disto...
PURPOSE: This work aims to develop a novel distortion-free 3D-EPI acquisition and image reconstructi...
Three-dimensional (3D) encoding methods are increasingly being explored as alternatives to two-dimen...
Functional magnetic resonance imaging (fMRI) studies that require high-resolution whole-brain covera...
GRAPPA [1] has emerged to be a popular k-space-based parallel imaging reconstruction technique. GRAP...
A novel k-space reconstruction method is proposed for generating diffusion-weighted imaging (DWI) us...
For the reconstruction of 3D MRI data that are accelerated along the two phase-encoding directions, ...
PURPOSE: The combination of 3D echo planar imaging (3D-EPI) with a 2D-CAIPIRINHA undersampling schem...
Purpose: To reduce artifacts and scan time of GRASE imaging by selecting an optimal sampling pattern...
Functional magnetic resonance imaging (fMRI) has provided neuroscientists with a powerful tool to no...
PURPOSE: To introduce wave-encoded acquisition and reconstruction techniques for highly accelerated ...
Introduction Echo-planar imaging (EPI) is a group of fast data acquisition methods commonly used in ...
Purpose: Partially parallel imaging (PPI) greatly accelerates MR imaging by using surface coil array...
To provide simultaneous multislice (SMS) EPI reconstruction with k-space implementation and robust N...
