BOLD-fMRI in the mouse auditory pathway
Guilherme Blazquez Freches, Cristina Chavarrias, Noam Shemesh

TL;DR
This study demonstrates high-resolution BOLD-fMRI mapping of the mouse auditory pathway, revealing activity along most nuclei and highlighting the technique's potential for neuroplasticity research in mice.
Contribution
It introduces a novel high-field fMRI setup for detailed, noninvasive mapping of the mouse auditory pathway, expanding previous methods limited to manganese-enhanced MRI.
Findings
Robust BOLD responses in most auditory nuclei
Identification of BOLD response latencies and tonotopy in some regions
Absence of clear BOLD responses in auditory cortex
Abstract
The auditory pathway is widely distributed throughout the brain, and is perhaps one of the most interesting networks in the context of neuroplasticity. Accurate mapping of neural activity in the entire pathway, preferably noninvasively, and with high resolution, could be instrumental for understanding such longitudinal processes. Functional magnetic resonance imaging (fMRI) has clear advantages for such characterizations, as it is noninvasive, provides relatively high spatial resolution and lends itself for repetitive studies, albeit relying on an indirect neurovascular coupling to deliver its information. Indeed, fMRI has been previously used to characterize the auditory pathway in humans and in rats. In the mouse, however, the auditory pathway has insofar only been mapped using manganese-enhanced MRI. Here, we describe a novel setup specifically designed for high-resolution mapping of…
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