A simple approach for in vivo 31P NMR spectral studies of rat tumors

Bayesian spectrum analysis for parameter estimation is a rigorous statistical (non-Fourier-based) method. Herein the Bayesian quadrature NMR model is introduced and applied to analysis of 3'P NMR time domain data from in vivo rat brain. Immunity to both the brain spectrum "baseline hump" and the pha

Twenty minutes of hypoxic hypoxia in five anesthetized rats reversibly reduced cerebral PCr and pH while ATP stayed constant. Complete metabolic and neurologic recovery occurred after oxygen was restored. Careful control of physiological parameters resulted in metabolite changes that were the same,

In vivo 31P NMR spectra of rat submandibular glands were obtained. The glands were exposed, leaving the neurovascular system intact, and placed in a solenoidal coil. Resonances of nine phosphate metabolites were identified in the spectra and metabolite concentrations were estimated from the correspo

## Abstract Energy metabolites in rat brain under the same level of hypoxia were monitored by ^31^P NMR in both horizontal and vertical magnets. The changes in PCr, P|, and pHI in the vertical setting toward the end of hypoxia were significantly larger and the recovery in the horizontally held anim

## Abstract A shielded solenoidal probe, suitable for __in vivo__ NMR studies of subcutancous solid tumors, is described. The ^31^P NMR spectra obtained from phantom samples and __in vivo__ subeutaneous solid tumors in mice show that spurious signals from the body are totally eliminated if the prop