Functional MRI of human brain activation at high spatial resolution

## Abstract Functional mapping of human brain activation has been accomplished at high spatial __and__ temporal resolution (voxel size 4.9 μl, temporal increment 100 ms). The approach was based on oxygenation‐sensitive long‐echo time FLASH MRI sequences synchronized to multiply repeated cycles of v

High-resolution MR imaging (312 Frn in plane resolution) and MR spectroscopy (0.36 cm3 nominal voxel) have been performed on human frontal cortex using a 3 in surface coil. Localized proton spectra have been obtained from contiguous 6 x 6 x 10 mm voxels using one-dimensional phase encoding, TR 2000

## Abstract The modulation of blood oxygenation level‐dependent (BOLD) cerebral MRI contrast by the vasoconstrictive drug indomethacin (i.v. 0.2 mg/kg b.w.) was investigated in 10 healthy young adults without and with functional challenge (repetitive and sustained visual activation). For comparison

In studies of 31P metabolite imaging in the human brain using a high-field 4.1 T NMR system, resolution and signal-to-noise ratios were measured to determine the potential for spatial-resolution improvements. The results suggest that spatial resolution of FWHM of 2 cm or less, similar to that of rad