31P NMR spectroscopy of in vivo tumors

## Abstract We have used a rectangular surface coil and chemical shift imaging to conduct in vivo localized ^31^P NMR metabolic studies in a rat dorsal skin flap model. This approach permits regional comparisons without manipulation of either coil position or subject within the magnet bore. Both th

## Abstract ^31^P NMR spectroscopy of a parasitic nematode, __Steinernema carpocapsae__, is described. __In vivo__ spectra were generated from nematode suspensions continuously circulating through the spectrometer. By flowing the organism, saturation effects were avoided and short in‐terpulse delay

31P surface coil NMR spectroscopy was used to evaluate in vivo high-energy phosphorus metabolism in the brains of mice with experimentally induced primary intracranial and subcutaneous KHT sarcomas. "P spectra of subcutaneous KHT tumors revealed a lack of detectable phosphocreatine (PCr) levels in t

## Abstract The first in vivo hyperpolarized ^129^Xe NMR study in experimental tumors is presented. Hyperpolarized ^129^Xe was dissolved in solutions, and was injected intratumorally in GH‐3 prolactinomas in rats and RIF‐1 fibrosarcomas in mice. The ^129^Xe NMR spectra and apparent spin‐lattice rel

## Abstract Apparent diffusion coefficients (__D__^a^) of individual metabolites can be studied __in vivo__ by diffusion NMR spectroscopy using an echo sequence sensitized to molecular motion. The methods are based on the echo attenuation due to phase dispersion resulting from incoherent displaceme