Functional Magnetic Resonance Spectroscopy in the mouse

Functional magnetic resonance spectroscopy (fMRS) quantifies metabolic variations upon presentation of a stimulus and can therefore provide complementary information compared to functional magnetic resonance imaging (fMRI). However, to our knowledge, fMRS has not yet been performed in the mouse, despite that murine models are crucial for basic and applied research. Here, we performed fMRS experiments in the mouse, for the first time, and show the feasibility of such an approach for reliably quantifying metabolic variations. In particular, we observed metabolic variations in the superior colliculus of mice upon visual stimulation in a block paradigm commonly used for fMRI (short periods of stimulus), followed by a recovery period. We notably report a robust modulation of glutamate, as well as a modulation of NAAG, PCr and Cr. A control experiment with no stimulation reveals potential metabolic signal "drifts" that are not correlated with the functional activity, which should be taken into account when analyzing fMRS data in general. Our findings are promising for future applications of fMRS in the mouse.

PDF Abstract