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Whole-Brain 3D Activation and Functional Connectivity Mapping in Mice using Transcranial Functional Ultrasound Imaging

Adrien Bertolo, Mohamed Nouhoum, Silvia Cazzanelli, Jérémy Ferrier, Jean-Charles Mariani, Andrea Kliewer, Benoit Belliard, Bruno-Félix Osmanski, Thomas Deffieux, Sophie Pezet, Zsolt Lenkei, Mickaël Tanter

2021Journal of Visualized Experiments55 citationsDOIOpen Access PDF

Abstract

Functional ultrasound (fUS) imaging is a novel brain imaging modality that relies on the high-sensitivity measure of the cerebral blood volume achieved by ultrafast doppler angiography. As brain perfusion is strongly linked to local neuronal activity, this technique allows the whole-brain 3D mapping of task-induced regional activation as well as resting-state functional connectivity, non-invasively, with unmatched spatio-temporal resolution and operational simplicity. In comparison with fMRI (functional magnetic resonance imaging), a main advantage of fUS imaging consists in enabling a complete compatibility with awake and behaving animal experiments. Moreover, fMRI brain mapping in mice, the most used preclinical model in Neuroscience, remains technically challenging due to the small size of the brain and the difficulty to maintain stable physiological conditions. Here we present a simple, reliable and robust protocol for whole-brain fUS imaging in anesthetized and awake mice using an off-the-shelf commercial fUS system with a motorized linear transducer, yielding significant cortical activation following sensory stimulation as well as reproducible 3D functional connectivity pattern for network identification.

Topics & Concepts

Functional magnetic resonance imagingNeuroscienceFunctional imagingNeuroimagingBrain mappingMagnetic resonance imagingResting state fMRIBrain activity and meditationMedicineComputer scienceElectroencephalographyPsychologyRadiologyUltrasound Imaging and ElastographyUltrasound and Hyperthermia ApplicationsPhotoacoustic and Ultrasonic Imaging
Whole-Brain 3D Activation and Functional Connectivity Mapping in Mice using Transcranial Functional Ultrasound Imaging | Litcius