Keywords: Biomarkers, Brain
Motivation: Indirect 1H-[13C] MRSI can uniquely provide a wealth of metabolic information, provided that technical challenges are overcome.
Goal(s): To develop 1H-[13C] MRSI methods for quantitative rate mapping of glucose metabolism on rat brain in vivo.
Approach: 1H-[13C] MRSI was implemented with octagonal volume pre-selection, 2D phase encoding, 13C editing and 13C decoupling.
Results: Dynamic mapping of 13C transfer from [U-13C6]-glucose to [4-13C]-Glu, [4-13C]-Gln and [3-13C]-Lac was achieved at 15.6 μL spatial and 12 min temporal resolution. At isotopic steady-state the spatial resolution could be increased to 8 μL (in 33 min).
Impact: 1H-[13C]-MRSI is characterized by unique spectral features not offered by other dynamic metabolic imaging methods (HP, DMI). The ability to separate cerebral Glu from Gln and detect total and 13C-labeled pools makes 1H-[13C]-MRSI an unique and valuable metabolic imaging method.
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