In vivo three-dimensional reconstruction of human median nerves by diffusion tensor imaging

The in situ assessment of axonal projections of the brain has been severely limited by the lack of noninvasive techniques to study this type of anatomy. We show here that in vivo threedimensional (3D) reconstruction of axonal projections can be achieved using a rapid 3D high-resolution diffusion-wei

## Abstract ## Purpose To evaluate the sensitivity of diffusion tensor imaging (DTI) in assessing peripheral nerve regeneration in vivo. We assessed the changes in the DTI parameters and histological analyses after nerve injury to examine degeneration and regeneration in the rat sciatic nerves. #

## Abstract This study demonstrates the feasibility of in vivo prostate diffusion tensor imaging (DTI) in human subjects. We implemented an EPI‐based diffusion‐weighted (DW) sequence with seven‐direction diffusion gradient sensitization, and acquired DT images from six subjects using cardiac gating

## Abstract ## Purpose To demonstrate the feasibility of in vivo calf muscle fiber tracking in human subjects. ## Materials and Methods An EPI‐based diffusion tensor imaging (DTI) sequence with six‐direction diffusion gradient sensitization was implemented, and DT images were acquired at 3 Tesla

## Abstract Diffusion tensor imaging (DTI) of the optic nerve (ON) was acquired in normal controls using zonally oblique multislice (ZOOM) DTI, which excites a small field of view (FOV) using a fast sequence with a shortened EPI echo train. This combines the benefit of low sensitivity to motion (du