Layer-specific connectivity revealed by diffusion-weighted functional MRI in the rat thalamocortical pathway
Daniel Nunes, Andrada Ianus, Noam Shemesh

TL;DR
This study demonstrates that diffusion-weighted functional MRI (dfMRI) can reveal layer-specific neural activity in the rat thalamocortical pathway, offering more precise insights than traditional BOLD fMRI.
Contribution
It provides the first evidence that dfMRI signals exhibit layer specificity and better correlate with electrophysiological data than BOLD signals in vivo.
Findings
dfMRI signals show layer-specific activity in the rat brain
dfMRI detects signals in areas where BOLD shows no response
dfMRI signals correlate more strongly with electrophysiological recordings
Abstract
Investigating neural activity from a global brain perspective in-vivo has been in the domain of functional Magnetic Resonance Imaging (fMRI) over the past few decades. The intricate neurovascular couplings that govern fMRI's blood-oxygenation-level-dependent (BOLD) functional contrast are invaluable in mapping active brain regions, but they also entail significant limitations, such as non-specificity of the signal to active foci. Diffusion-weighted functional MRI (dfMRI) with relatively high diffusion-weighting strives to ameliorate this shortcoming as it offers functional contrasts more intimately linked with the underlying activity. Insofar, apart from somewhat smaller activation foci, dfMRI's contrasts have not been convincingly shown to offer significant advantages over BOLD, and its contrasts relied on significant modelling. Here, we study whether dfMRI could offer a better…
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