Relaxation measurements at 300 MHz using MR microscopy

Abstract

Previous data on changes in tissue T_I with field have suggested the convergence of tissue T_I values toward a common value at high (>4.0 T) fields. Measures of T₂ dependence have suggested reduction of T₂ with field. The purpose of this study was to observe the T₁ and T₂ at 85.5 and 300 MHz of microstructures in excised rat kidneys by employing MR microscopy. This study represents the first attempt of MR microscopy at 7.0 T with regard to the subject of magnetic field dependence of T_I and T₂ As expected, T_I did increase with increasing field strength but not as dramatically as might be expected. Subtle differences in the microstructures of the kidney and the binding of water in those structures were discernible on the basis of T₁ differences at 300 MHz. T₂ values decreased, raising speculation concerning the mechanism for this dependence. The improved SNR permits smaller samples to be examined at much higher resolutions (< 30 ± 30 ± 200 μm), further extending the potentials for MR microscopy.