31P MR spectroscopy was used to measure the signal intensity ratios of high-energy metabolites for the calculation of free cytosolic magnesium concentration [fMg2+] and pH in the calf muscles of patients with primary juvenile hypertension and of healthy controls. Surface coil and spectroscopic imaging techniques were used. In patients with hypertension, the concentrations of [fMg2+] was 788±33 mmol/l and intracellular pH was 7.05±0.02; these values were not significantly different from the results obtained in healthy controls ([fMg2+], 776±21 mmol/l and pH, 7.06±0.01). Biochemical assays of magnesium in the serum (S-Mg) and in urine (DU-Mg) confirmed this finding. Significant differences in the relative signal intensities of high-energy phosphates between patients with primary juvenile hypertension and healthy controls were observed: a) signal intensity ratios of PCr/Pi, PCr/PbATP, PDE/PbATP were increased, and b) Pi/PDe, Pi/PATP were decreased. The results were the same irrespective of whether the surface coil method or 31P spectroscopic imaging were employed., M. Hájek, D. Palyzová, M. Kořínek, D. Kurková., and Obsahuje bibliografii
The relative concentrations of inorganic phosphate and phosphomonoesters (PME) of 18 human cadaveric kidneys stored in Euro-Collins perfusion solution were measured by 31P MR spectroscopy. The signals of intracellular inorganic phosphate (Pjj) and inorganic phosphate contained in the perfusion solution (Pje) were separated by the deconvolution technique. The ratio of the signal intensities of phosphomonoesters and intracellular inorganic phosphate (Pme/Pü) was used as a marker of kidney viability and correlated with kidney function after transplantation. Separation of the Pjj and Pje signals in the measured spectra was successful in 72 % of kidneys. The results of MR analysis satisfactorily agree in 78 % with the post-transplant function of kidneys.