Stimulated echo MR imaging

## Abstract As a modification of single‐shot stimulated echo acquisition mode (STEAM) MRI, a gradient and stimulated echo (GRASTE) sequence is presented that acquires multiple gradient echoes in addition to each stimulated echo. While “contiguous” GRASTE exploits all stimulated echoes for the centr

## Abstract Magnetic resonance imaging is frequently complicated by the presence of motion and susceptibility gradients. Also, some biologic tissues have short T2s. These problems are particularly troublesome in fast spin‐echo (FSE) imaging, in which T2 decay and motion between echoes result in ima

## Abstract Cross relaxation between macromolecular protons and water protons is known to be important in biologic tissue. In magnetic resonance (MR) imaging sequences, selective saturation of the characteristically short T2 macromolecular proton pool can produce contrast called magnetization trans

## 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

Magnetic-resonance imaging using the novel MR signal (26% 129 Xe), which was contained in a 25 cm 3 cylindrical glass cell (2 cm diameter, 7.5 cm length), at 3 atm, along source provided by hyperpolarized noble gases 129 Xe and 3 He may prove to be an important new diagnostic technique with 3 atm N