Sensory information must be integrated across a distributed brain network for stimulus processing and perception. Recent studies have revealed specific spatiotemporal patterns of cortical activation for the early and late components of sensory-evoked responses, which are associated with stimulus features and perception, respectively. Here, we investigated how the brain state influences the sensory-evoked activation across the mouse cortex. We utilized isoflurane to modulate the brain state and conducted wide-field calcium imaging of Thy1-GCaMP6f mice to monitor distributed activation evoked by multi- whisker stimulation. Our findings reveal that the level of anesthesia strongly shapes the spatiotemporal features and the functional connectivity of the sensory-activated network. As anesthesia levels decrease, we observe increasingly complex responses, accompanied by the emergence of the late component within the sensory-evoked response. The persistence of the late component under anesthesia raises new questions regarding the potential existence of perception during unconscious states.
Mapping brain state-dependent sensory responses across the mouse cortex / Montagni, Elena; Resta, Francesco; Tort-Colet, Núria; Scaglione, Alessandro; Mazzamuto, Giacomo; Destexhe, Alain; Pavone, Francesco Saverio; Allegra Mascaro, Anna Letizia. - In: ISCIENCE. - ISSN 2589-0042. - ELETTRONICO. - 27:(2024), pp. 109692.1-109692.16. [10.1016/j.isci.2024.109692]
Mapping brain state-dependent sensory responses across the mouse cortex
Montagni, Elena;Resta, Francesco;Scaglione, Alessandro;Mazzamuto, Giacomo;Pavone, Francesco Saverio;Allegra Mascaro, Anna Letizia
2024
Abstract
Sensory information must be integrated across a distributed brain network for stimulus processing and perception. Recent studies have revealed specific spatiotemporal patterns of cortical activation for the early and late components of sensory-evoked responses, which are associated with stimulus features and perception, respectively. Here, we investigated how the brain state influences the sensory-evoked activation across the mouse cortex. We utilized isoflurane to modulate the brain state and conducted wide-field calcium imaging of Thy1-GCaMP6f mice to monitor distributed activation evoked by multi- whisker stimulation. Our findings reveal that the level of anesthesia strongly shapes the spatiotemporal features and the functional connectivity of the sensory-activated network. As anesthesia levels decrease, we observe increasingly complex responses, accompanied by the emergence of the late component within the sensory-evoked response. The persistence of the late component under anesthesia raises new questions regarding the potential existence of perception during unconscious states.
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