Accurate and sensitive measurements of magnetic susceptibility using echo planar imaging

## Abstract The ultra‐high‐speed echo‐planar imaging (EPI) method is combined with velocity encoding prior to EPI read‐out, thereby allowing real‐time measurement of flow. Results of EPI flow measurement experiments are presented on phantoms and human volunteers. © 1991 Academic Press. Inc.

## Abstract Gradient recalled echo planar imaging was used to monitor changes in myocardial and left ventricular chamber blood intensity during apnea in rats. Significant signal loss in both blood (to 62 ± 5% and 51 ± 6% of baseline) and myocardium (to 79 ± 2% and 76 ± 3% of baseline) was observed

## Abstract This paper describes a rapid and accurate method for meassuring __T__~1~ __in vivo__ using an echo‐planar imaging version of the Look‐Locher sequence. __T__~1~ values from 76 to 1330 ms have been measured in 3 s with a mean accuracy of 4.6%.

## Abstract ## Purpose To implement a method using a tailored radiofrequency (TRF) pulse with a quadratic phase profile to recover susceptibility‐induced signal losses in gradient‐recalled echo‐planar images (EPI). ## Materials and Methods A functional magnetic resonance imaging (fMRI) experimen

## Abstract Magnetic resonance (MR) imaging can be performed on or below the time scale of most anatomic motion via echo‐planar imaging (EPI) techniques and their derivatives. The goal is to image rapidly and reduce artifacts that typically result from view‐to‐view changes in the spatial distributi