Diffusion imaging with the MP-rage sequence

The advantages of three-dimensional (3D) acquisition are that you obtain thinner and more slices with better profiles, and better signalto-noise ratio for an equivalent slice thickness. Three-dimensional acquisition is preferable for obtaining contiguous thin-slice MR images. However, the acquisitio

## Abstract The authors investigated the application of three‐dimensional (3D) magnetization‐prepared rapid gradient‐echo (MP‐RAGE) imaging to the acquisition of small (32 × 128 × 256) T1‐weighted 3D data sets with imaging times of approximately 1 minute. A theoretical model was used to study the c

## Abstract Three‐dimensional (3D) magnetization‐prepared rapid gradient‐echo imaging has been proposed as a method for improving signal‐to‐noise ratio (S/N) and contrast‐to‐noise ratio (C/N) in rapid abdominal imaging. Originally, a standard sequential phase‐encoding order was proposed. In the pre

## Abstract Optimization of magnetization‐prepared rapid gradient‐echo (MP‐RAGE) sequence variations for maximum white matter (WM) versus gray matter (GM) contrast in neonates at 3T was investigated. Numerical simulations were applied to optimize and compare three contrast preparation modules and t

## Abstract An imaging method is presented to measure the water‐diffusion coefficient. The sequence (MISSTEC) uses the simultaneous acquisition of a spin echo and several stimulated echoes with the same intensity except for diffusion weighting. The optimal number of stimulated echoes was calculated

## Abstract The use of a section‐selective preparation pulse in two‐di‐mensional (2D) T1‐weighted magnetization‐prepared rapid gradient‐echo (MP‐RAGE) imaging of the liver was investigated. The images were compared with those obtained with a nonselective pulse. The performances of the sequences wer