5168226 Acquisition of multiple images in fast spin echo NMR scans

In order to reduce the acquisition time, we compared a three-dimensional multi-shot echo-planar imaging (EPI) sequence with fatsuppression with two widely used sequences, the fat-suppressed gradient echo (GRE) and the proton-density weighted turbo spin-echo (FSE) in imaging the menisci of the knee.

## Abstract We introduce a multi‐echo multi‐slice MR proton spectroscopic imaging method, which allows for a dramatic reduction of the measurement time by acquiring multiple spin‐echoes within a single repetition time. In the multi‐echo multi‐slice experiment discussed in this paper, a threefold re

## Abstract Fast spin‐echo (FSE) pulse sequences enable T2‐weighted imaging in a fraction of the time required for T2‐weighted conventional spin‐echo (CSE) imaging. Due to concerns that the altered contrast characteristics of FSE may interfere with the visualization of multiple sclerosis (MS) lesio

## Abstract In this work we present a new method for the improved detection of lipid infiltration in the heart. The method employs a double‐inversion fast spin‐echo technique where the acquisition of water‐ and lipid‐suppressed __k__‐space data is alternated between TR periods to produce coregister