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Article Dans Une Revue Nature Methods Année : 2022

Functional ultrasound localization microscopy reveals brain-wide neurovascular activity on a microscopic scale

Résumé

The advent of neuroimaging has increased our understanding of brain function. While most brain-wide functional imaging modalities exploit neurovascular coupling to map brain activity at millimeter resolutions, the recording of functional responses at microscopic scale in mammals remains the privilege of invasive electrophysiological or optical approaches, but is mostly restricted to either the cortical surface or the vicinity of implanted sensors. Ultrasound localization microscopy (ULM) has achieved transcranial imaging of cerebrovascular flow, up to micrometre scales, by localizing intravenously injected microbubbles; however, the long acquisition time required to detect microbubbles within microscopic vessels has so far restricted ULM application mainly to microvasculature structural imaging. Here we show how ULM can be modified to quantify functional hyperemia dynamically during brain activation reaching a 6.5-µm spatial and 1-s temporal resolution in deep regions of the rat brain.
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Dates et versions

hal-03824902 , version 1 (21-10-2022)

Identifiants

Citer

Noémi Renaudin, Charlie Demené, Alexandre Dizeux, Nathalie Ialy-Radio, Sophie Pezet, et al.. Functional ultrasound localization microscopy reveals brain-wide neurovascular activity on a microscopic scale. Nature Methods, 2022, 19, pp.1004 - 1012. ⟨10.1038/s41592-022-01549-5⟩. ⟨hal-03824902⟩
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