3D diffusion tensor imaging with 2D navigated turbo spin echo

## Abstract ## Purpose To improve 3D volume‐selective turbo spin echo (TSE) carotid artery wall imaging by incorporating navigators to reduce artifacts caused by swallowing. ## Materials and Methods Images were acquired on a Siemens Magnetom Sonata 1.5T scanner. 3D volume‐selective TSE scans of

In order to reduce the aquisition time, we compared the single-shot-TSE-MR myelography (MRm) and 3D-TSE-MRm. The T2-TSE sequence was the standard of reference. Fifty patients with low back pain, sciatica or cervical radiculopathy were examined at 1.0 T. The shortest AP diameter of the spinal canal,

## Abstract ## Purpose To use a volume‐selective 3D turbo spin echo (TSE) technique to image the carotid artery wall and measure distensibility. ## Materials and Methods A high‐resolution volume‐selective 3D TSE sequence has been developed. Volume selection is accomplished by orthogonal gradient

## Abstract Single‐slab 3D turbo/fast spin echo (SE) imaging with very long echo trains was recently introduced with slab selection using a highly selective excitation pulse and short, nonselective refocusing pulses with variable flip angles for high imaging efficiency. This technique, however, is

In 2D Fourier imaging the normal Cam-Purcell multiple-echo sequence generally leads to center line and mirror artifacts caused by imperfect rotations by the rf pulses. We describe a method to avoid these distortions using aphase alternating-phase shift (PHAPS) sequence which also allows multiple-sli

## Abstract __T__~1~‐weighted contrast is conventionally obtained using multislice two‐dimensional (2D) spin‐echo (SE) imaging. Achieving isotropic, high spatial resolution is problematic with conventional methods due to a long acquisition time, imperfect slice profiles, or high‐energy deposition.