Fast low angle spin-echo (FATE) imaging

## Abstract A rapid steady‐state 3D spin‐echo imaging pulse sequence, based on the principle of nutating the spins by an angle greater than 90°, has been designed and implemented on a clinical 1.5‐T whole‐body MR scanner. The pulse sequence, denoted fast large‐angle spin‐echo (FLASE), has been opti

It is shown that a spin-echo sequence may be used to acquire T(2)-weighted, high-resolution, high-SNR sections at quasi-real-time frame rates for interactive, diagnostic imaging. A single-shot fast spin-echo sequence was designed which employs driven equilibrium to realign transverse magnetization r

## Abstract Distinguishing between lipid and water‐containing tissues is clinically important. Current techniques rely on the chemical shift difference between fat and water resonances or differences in relaxation times of the tissues, or a combination of both. A method is presented for separating

## Abstract We present a simple and intuitive means for determining the flip angles (FAs) required for smooth transitions between static pseudo steady states (SPSSs) in fast spin echo (FSE) imaging with variable FA (VFA) echo trains. We demonstrate the effectiveness of single and multiple transitio

## Abstract The purpose of this work is to obtain a better understanding of motion artifacts in fast spin‐echo imaging, in order to eventually identify efficient ways of suppressing them. To do so, the point spread function of a moving point was calculated for fast spin‐echo imaging, and experiment