| 5-U01-EB034313-03 |
Enabling clinical tissue microstructure imaging as a diagnostic tool in wide-bore 3T MRI |
Thomas Foo |
Ge Medical Systems Information Technologies, Inc |
| 5-U01-EB029427-04 |
Enabling the Next Generation of High Performance Pediatric Whole Body MR Imaging |
Shreyas Vasanawala |
Stanford University |
| 7-R01-EB032366-04 |
Enhanced Imaging of the Fetal Brain Microstructure |
Ali Gholipour-Baboli |
University of California-Irvine |
| 5-U01-EB023829-06 |
Enhanced MR for morphological characterization of ligaments, tendons and bone |
Xiaoliang Zhang |
State University of New York at Buffalo |
| 1-UG3-EB036035-01 |
Expanding Inclusion of All Subjects for Ultra-High Density Wearable fNIRS in the Everyday World |
David Boas |
Boston University (Charles River Campus) |
| 1-K99-EB035178-01A1 |
Fast and robust quantitative MRI with tissue-susceptibility mapping of the human brain |
Nan Wang |
Stanford University |
| 1-K99-EB036080-01 |
Fast High-Resolution Microstructure Diffusion MRI Exploiting Data Redundancy |
Santiago Coelho |
New York University School of Medicine |
| 7-R01-EB031169-05 |
Fast Multi-dimensional Diffusion MRI with Sparse Sampling and Model-basedDeep Learning Reconstruction |
Merry Mani |
University of Virginia |
| 7-R01-EB024408-04 |
Fast Targeted Spectroscopic Imaging for Brain Tumor Imaging at 3T and 7T |
Jullie Pan |
University of Missouri-Columbia |
| 5-R01-EB032708-04 |
Fetal MRI: robust self-driving brain acquisition and body movement quantification |
Patricia Grant |
Boston Children'S Hospital |
