Magnetic resonance imaging of acute intracerebral hematomas: In vivo and in vitro studies

Magnetic resonance imaging techniques have previously been applied to 'H, 23Na, "P, and I9F nuclei. This is the first report of application of these techniques to 'Li. Lithium images of both aqueous phantoms and a rat abdomen are presented. Applications of this technique to humans are discussed. 0 1

## Abstract Unusually high image contrast __in vivo__ magnetic resonance imaging of the brain becomes observable at high magnetic fields when the blood oxygenation level is lowered. The cause of the contrast has been attributed to a magnetic susceptibility effect induced by paramagnetic deoxyhemogl

Proton magnetic resonance spectroscopy ( 1 H MRS) has the potential to provide a noninvasive assessment of hepatic lipid composition. The spectral resolution of in vivo clinical MR data is currently limited by the magnetic field strengths available and by motion artifact. Therefore, interpretation o

## Abstract The MR appearance of clots with different internal structures was compared on gradient‐echo (GE) and spin‐echo (SE) images. After MR imaging, clots were submitted for histological analysis to allow direct correlation of clot structure with MR image intensity. Normal heterogeneous clots

Proton magnetic resonance imaging and localized NMR spectroscopy were used to study the rat liver in situ. Respiratory gating was used in both the imaging and the localized spectroscopy studies to control for the movement of the upper abdomen of the rat during breathing. After administration of carb