Axial asymmetry of water diffusion in brain white matter

## Abstract This work presents a method that permits the characterization, quantification, and 3D visualization of white matter structural information contained within diffusion tensor MR imaging (DT‐MRI) data. In this method, regions within the brain are defined as possessing linear, planar, or sp

## Abstract The brains of six healthy volunteers were scanned with a full tensor diffusion MRI technique to study the effect of a high __b__ value on diffusion‐weighted images (DWIs). The __b__ values ranged from 500 to 5000 s/mm^2^. Isotropic DWIs, trace apparent diffusion coefficient (ADC) maps,

The diffusion time dependence of the brain water diffusion tensor provides information regarding diffusion restriction and hindrance but has received little attention, primarily due to limitations in gradient amplitude available on clinical MRI systems, required to achieve short diffusion times. Usi

## Abstract ## Purpose To develop a reliable technique for diffusion imaging of the human spinal cord at 1.5 Tesla and to assess potential differences in diffusion anisotropy in cross‐sectional images. ## Materials and Methods A single‐shot echo‐planar imaging sequence with double spin‐echo diff

## Abstract Early visual deprivation may lead to both abnormal and plastic changes in the visual and other systems of the brain. Such secondary changes in the gray matter of the early blind have been well studied, but not so well in the cerebral white matter whose subtle changes may be revealed by

## Abstract Recent in vivo MRI studies at 7.0 T have demonstrated extensive heterogeneity of __T__~2~\* relaxation in white matter of the human brain. In order to study the origin of this heterogeneity, we performed __T__~2~\* measurements at 1.5, 3.0, and 7.0 T in normal volunteers. Formalin‐fixed