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Deuterated water imaging of the rat brain following metabolism of [<sup>2</sup>H<sub>7</sub>]glucose

Rohit Mahar, Huadong Zeng, Anthony Giacalone, Mukundan Ragavan, Thomas H. Mareci, Matthew E. Merritt

2021Magnetic Resonance in Medicine26 citationsDOIOpen Access PDF

Abstract

Purpose To determine whether deuterated water (HDO) generated from the metabolism of [ 2 H 7 ]glucose is a sensitive biomarker of cerebral glycolysis and oxidative flux. Methods A bolus of [ 2 H 7 ]glucose was injected through the tail vein at 1.95 g/kg into Sprague‐Dawley rats. A 2 H surface coil was placed on top of the head to record 2 H spectra of the brain every 1.3 minutes to measure glucose uptake and metabolism to HDO, lactate, and glutamate/glutamine. A two‐point Dixon method based on a gradient‐echo sequence was used to reconstruct deuterated glucose and water (HDO) images selectively. Results The background HDO signal could be detected and imaged before glucose injection. The 2 H NMR spectra showed arrival of [ 2 H 7 ]glucose and its metabolism in a time‐dependent manner. A ratio of the HDO to glutamate/glutamine resonances demonstrates a pseudo–steady state following injection, in which cerebral metabolism dominates wash‐in of HDO generated by peripheral metabolism. Brain spectroscopy reveals that HDO generation is linear with lactate and glutamate/glutamine appearance in the appropriate pseudo–steady state window. Selective imaging of HDO and glucose is easily accomplished using a gradient‐echo method. Conclusion Metabolic imaging of HDO, as a marker of glucose, lactate, and glutamate/glutamine metabolism, has been shown here for the first time. Cerebral glucose metabolism can be assessed efficiently using a standard gradient‐echo sequence that provides superior in‐plane resolution compared with CSI‐based techniques.

Topics & Concepts

GlutamineChemistryMetabolismGlutamate receptorCarbohydrate metabolismNuclear magnetic resonanceGlycolysisBiochemistryAmino acidReceptorPhysicsAdvanced MRI Techniques and ApplicationsAdvanced NMR Techniques and ApplicationsElectron Spin Resonance Studies