Chemical-shift-selective magnetic resonance imaging of multiple-line spectra by selective saturation

A method of chemical-shift imaging is described using the invariance of chemical shifts to changes in magnetic field gradients used for frequency encoding of position in imaging. This enables separation of the effects on the observed signal of chemical shift from the effects of different positions a

## Abstract A new spectral bandwidth expansion technique for highspeed magnetic resonance spectroscopic imaging (MRSI) based on an echo‐planar technique is presented. This expansion can be achieved by spatial and chemical shift selective saturation without increasing the total measurement time. In

## Abstract A method combining several previously used approaches is described for the rapid, accurate quantitation of the fat content of biological tissue based on chemical shift images (CSI) corrected for magnetic field inhomogeneity, and compensated for __T__~1~, and __T__~2~, effects. The gravi

## Abstract A saturation‐based approach is proposed to image the arterial blood flow signal with temporal resolution of 1 to 2 s and in‐plane spatial resolution of a few millimeters. Using a saturation approach to suppress the undesired background stationary signal allows the blood water that enter