Line scan echo planar spectroscopic imaging

## Abstract Rapid volumetric magnetic resonance spectroscopic imaging (MRSI) is potentially of great relevance to the diagnosis and treatment of focal cerebral diseases such as cancer and epilepsy. A strategy for volumetric multishot echo‐planar spectroscopic imaging (MEPSI) is described which allo

## Abstract A technique for discriminating a lactate signal from overlapping lipid signals in ^1^H spectroscopic imaging is presented. It is based on __J__‐coupling between lactate protons and on the broad spectral bandwidth of lipid signal. Measurement parameters used in the technique are determin

## Abstract Echo planar methodology can be used for rapid acquisition in three dimensions of __k__‐space. There are two groups of sequences which have thus far been implemented. The first group is characterized by three‐dimensional acquisition from a single RF excitation. Echo planar shift mapping

A gradient-echo line scan imaging technique was developed which employs two-dimensional spatially selective radiofrequency (2DRF) pulses for consecutively exciting individual columns of transverse magnetization, i.e., image lines. Although a variety of trajectories are possible for 2DRF excitation,

A new ultrafast magnetic resonance imaging pulse sequence named radial echo-planar imaging (rEPI) is introduced. The sequence is based on a modification of the echo-planar imaging (EPI) sequence to scan k-space radially, in an attempt to combine the speed of EPI with the benefits of radial sampling.