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Brain morphometry using diffusion MRI data (DTBM) reveals abnormalities in Down Syndrome that are not detected by conventional DTI analysis.

Author:Carlo Pierpaoli  Amritha Nayak  Okan Irfanoglu  Neda Sadeghi  Nancy Raitano-Lee  

Author Institution:Drexel University  NIH  

Session Type:Electronic Poster  

Session Date:Monday, 18 June 2018  

Session Time:09:15  

Session:Brain Morphometry  

Program Number:3243  

Presentation Time:

Room Number:Exhibition Hall  

Computer Number:Computer 49  

Do Non-Gaussian diffusion MRI methods improve the detection or specification of cellular alterations following traumatic brain injury?

Features extracted from diffusion-driven tensor based morphometry can serve as a specific imaging marker for Moebius Syndrome

Impact of time-of-day on diffusivity measures of brain tissue derived from diffusion tensor imaging

A living phantom study to evaluate the echo planar imaging (EPI) distortion correction effects in reducing inter-site variability

MR Characterization and Temperature Dependence of Aqueous Polyvinylpyrolidone (PVP) Solutions for use as MR Phantoms

Author:Joelle Sarlls  Michal Komlosh  Ferenc Horkay  Uri Nevo  Peter Basser  Carlo Pierpaoli  

Author Institution:National Institutes of Health  Tel Aviv University  

Session Type:Electronic Poster  

Session Date:Monday, 18 June 2018  

Session Time:09:15  

Session:Diffusion MRI: Validation  

Program Number:3227  

Presentation Time:

Room Number:Exhibition Hall  

Computer Number:Computer 33  

A Novel Strategy For Morphologically Faithful Registration and Template Creation for Diffusion MRI Data

Author:M. Okan Irfanoglu  Neda Sadeghi  Carlo Pierpaoli  Moebius Syndrome Research Consortium  

Author Institution:National Institutes of Health  

Session Type:Traditional Poster  

Session Date:Tuesday, 19 June 2018  

Session Time:08:15  

Session:Diffusion MRI: Signal Reconstruction & Representation  

Program Number:1588  

Presentation Time:

Room Number:Exhibition Hall 1574-1612  

Computer Number:

Revealing the three-dimensional intraparenchymal trajectory of the brainstem cranial nerve systems by diffusion MRI representation.

Author:Elizabeth Hutchinson  Neda Sadeghi  Martin Lizak  Martha Quezado  Irini Manoli  Carlo Pierpaoli  

Author Institution:National Institutes of Health  

Session Type:Traditional Poster  

Session Date:Tuesday, 19 June 2018  

Session Time:16:15  

Session:Brain Pathology & Ageing Brain  

Program Number:2061  

Presentation Time:

Room Number:Exhibition Hall 2061-2085  

Computer Number:

Spatial normalization of individual fractional anisotropy (FA) maps to widely used population templates for analysis can increase variability and create spurious differences in the measured FA values

Using Double Diffusion Encoding (DDE) MRI to study tissue microstructure in traumatic brain injury (TBI)