Direct mapping of 19 F in 19 FDG-6P in brain tissue at subcellular resolution using soft X-ray fluorescence

Name: 7T MRI Seminar: Probing Brain Metabolism by Multi-nuclear Magnetic Resonance Spectroscopy: Technical Advances and Applications at 7T
Start: 2024-04-24
End: 2024-04-24
Location: Campus Biotech, room H8-01-D

AUTHORS: Poitry-Yamate C, Gianoncelli A, Kourousias G, Kaulich B, Lepore M, Gruetter R, Kiskinova M

IOPscience, 463(1): 012003, October 2013

ABSTRACT

Low energy x-ray fluorescence (LEXRF) detection was optimized for imaging cerebral glucose metabolism by mapping the fluorine LEXRF signal of ¹⁹F in ¹⁹FDG, trapped as intracellular ¹⁹F-deoxyglucose-6-phosphate (¹⁹FDG-6P) at 1μm spatial resolution from 3μm thick brain slices. ¹⁹FDG metabolism was evaluated in brain structures closely resembling the general cerebral cytoarchitecture following formalin fixation of brain slices and their inclusion in an epon matrix. 2-dimensional distribution maps of ¹⁹FDG-6P were placed in a cytoarchitectural and morphological context by simultaneous LEXRF mapping of N and O, and scanning transmission x-ray (STXM) imaging. A disproportionately high uptake and metabolism of glucose was found in neuropil relative to intracellular domains of the cell body of hypothalamic neurons, showing directly that neurons, like glial cells, also metabolize glucose. As ¹⁹F-deoxyglucose-6P is structurally identical to ¹⁸F-deoxyglucose-6P, LEXRF of subcellular ¹⁹F provides a link to in vivo ¹⁸FDG PET, forming a novel basis for understanding the physiological mechanisms underlying the ¹⁸FDG PET image, and the contribution of neurons and glia to the PET signal.