Fast-recovery fast spin-echo T2-weighted MR imaging: a free-breathing alternative to fast spin-echo in the pediatric abdomen

## Abstract The purpose of our study was to compare the value of respiratory‐triggered fast spin‐echo, breath‐hold single‐shot fast spin‐echo, and breath‐hold fast‐recovery fast spin‐echo sequences in detecting hepatic lesions. Fat‐suppressed T2‐weighted magnetic resonance (MR) images obtained with

## Abstract In 49 patients who had pelvic abnormalities, breath‐hold T2‐weighted fast‐recovery (FR)‐fast spin‐echo (FSE) (imaging time = 24 sec) and nonbreath‐hold FSE MR images (2 min 8 sec) were compared qualitatively (on a four‐point scale) and quantitatively (using signal‐to‐noise ratios (SNRs)

## Abstract Single shot (SS) rapid acquisition with relaxation enhancement (RARE) and half Fourier SS‐RARE (HFSS‐RARE, HASTE, or SS‐FSE) sequences allow ultrafast imaging acquisition and generate high imaging quality. Images can be acquired within a very short time, without artifacts from physiolog

## Abstract The objective of this study was to compare the accuracy of T2‐weighted fast‐spin‐echo (FSE) and intermediate‐weighted spin‐echo (SE) MR imaging in the detection of meniscal tears. Seventy‐six patients (152 menisci) who had arthroscopic surgery after MR imaging of the knee were studied.

## Abstract ## Purpose: To develop a robust 3D fast spin echo (FSE) T~2~‐weighted imaging method with uniform water and fat separation in a single acquisition, amenable to high‐quality multiplanar reformations. ## Materials and Methods: The Iterative Decomposition of water and fat with Echo Asym