High fidelity fiber orientation density functions from fiber ball imaging.
Hunter G MossJens H JensenPublished in: NMR in biomedicine (2021)
The fiber orientation density function (fODF) in white matter is a primary physical quantity that can be estimated with diffusion MRI. It has often been employed for fiber tracking and microstructural modeling. Requirements for the construction of high fidelity fODFs, in the sense of having good angular resolution, adequate data to avoid sampling errors, and minimal noise artifacts, are described for fODFs calculated with fiber ball imaging. A criterion is formulated for the number of diffusion encoding directions needed to achieve a given angular resolution. The advantages of using large b-values (≥6000 s/mm2 ) are also discussed. For the direct comparison of different fODFs, a method is developed for defining a local frame of reference tied to each voxel's individual axonal structure. The Matusita anisotropy axonal is proposed as a scalar fODF measure for quantifying angular variability. Experimental results, obtained at 3 T from human volunteers, are used as illustrations.
Keyphrases
- white matter
- high resolution
- spinal cord injury
- magnetic resonance imaging
- endothelial cells
- emergency department
- single molecule
- mental health
- physical activity
- multiple sclerosis
- computed tomography
- air pollution
- electronic health record
- patient safety
- photodynamic therapy
- adverse drug
- quality improvement
- drug induced