Microstructure imaging techniques based on tensor-valued diffusion encoding have gained popularity within the MRI research community. Unlike conventional diffusion encoding—applied along a single direction in each shot—tensor-valued encoding employs diffusion encoding along multiple directions within a single preparation of the signal. The benefit is that such encoding may probe tissue features that are not accessible by conventional encoding. For example, diffusional variance decomposition (DIVIDE) takes advantage of tensor-valued encoding to probe microscopic diffusion anisotropy independent of orientation coherence. The drawback is that tensor-valued encoding generally requires gradient waveforms that are more demanding on hardware; it h...
Diffusion-weighted magnetic resonance imaging is a noninvasive tool to investigate the brain white m...
The study of diffusion anisotropy via diffusion NMR was pioneered 40 years ago in systems pertaining...
Background and purpose: Diagnostic information about cell density variations and microscopic tissue ...
Microstructure imaging techniques based on tensor-valued diffusion encoding have gained popularity w...
Microstructure imaging techniques based on tensor-valued diffusion encoding have gained popularity w...
Microstructure imaging techniques based on tensor-valued diffusion encoding have gained popularity w...
Schematic spin-echo sequence with echo planar imaging readout and diffusion-encoding gradient wavefo...
DIVIDE parameters and SNR maps for configurations A* and C*. The parameter maps from configuration A...
DIVIDE parameter maps in transversal and coronal slices for configurations A-D. The image quality ge...
Diffusion MRI provides a non-invasive probe of tissue microstructure. We recently proposed a novel m...
Diffusion encoding along multiple spatial directions per signal acquisition can be described in term...
SNR maps at b = 2 ms/μm2 in three transversal slices for configurations A-D and SNR distributions in...
Parameter maps from repeated acquisitions and analysis of repeatability for configurations A-D. The ...
Diffusion-weighted magnetic resonance imaging (DW-MRI) is a non-invasive technique to probe tissue m...
Diffusion-weighted magnetic resonance imaging (DW-MRI) is a non-invasive technique to probe tissue m...
Diffusion-weighted magnetic resonance imaging is a noninvasive tool to investigate the brain white m...
The study of diffusion anisotropy via diffusion NMR was pioneered 40 years ago in systems pertaining...
Background and purpose: Diagnostic information about cell density variations and microscopic tissue ...
Microstructure imaging techniques based on tensor-valued diffusion encoding have gained popularity w...
Microstructure imaging techniques based on tensor-valued diffusion encoding have gained popularity w...
Microstructure imaging techniques based on tensor-valued diffusion encoding have gained popularity w...
Schematic spin-echo sequence with echo planar imaging readout and diffusion-encoding gradient wavefo...
DIVIDE parameters and SNR maps for configurations A* and C*. The parameter maps from configuration A...
DIVIDE parameter maps in transversal and coronal slices for configurations A-D. The image quality ge...
Diffusion MRI provides a non-invasive probe of tissue microstructure. We recently proposed a novel m...
Diffusion encoding along multiple spatial directions per signal acquisition can be described in term...
SNR maps at b = 2 ms/μm2 in three transversal slices for configurations A-D and SNR distributions in...
Parameter maps from repeated acquisitions and analysis of repeatability for configurations A-D. The ...
Diffusion-weighted magnetic resonance imaging (DW-MRI) is a non-invasive technique to probe tissue m...
Diffusion-weighted magnetic resonance imaging (DW-MRI) is a non-invasive technique to probe tissue m...
Diffusion-weighted magnetic resonance imaging is a noninvasive tool to investigate the brain white m...
The study of diffusion anisotropy via diffusion NMR was pioneered 40 years ago in systems pertaining...
Background and purpose: Diagnostic information about cell density variations and microscopic tissue ...