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Sean Froudist-Walsh

Bristol Computational Neuroscience Unit, School of Engineering Mathematics and Technology, University of Bristol, Bristol BS8 1UB, UK.

1 paper in the library · 14 citations · publishing 2025

Papers

A dynamic bifurcation mechanism explains cortex-wide neural correlates of conscious access.

Cell reports March 25, 2025 Ulysse Klatzmann, Sean Froudist-Walsh, Daniel P Bliss et al. 14 citations

Conscious access involves 'ignition,' an all-or-none activation across cortical areas. Computer simulations of a detection task using a mesoscale connectome-based model of the macaque cortex reveal a dynamic bifurcation mechanism that produces ignition in a network of associative regions. A hierarchical NMDA/AMPA receptor gradient is critical: fast AMPA receptors drive feedforward signal propagation, while slow NMDA receptors in feedback pathways shape and sustain the ignited network. The model suggests higher NMDA-to-AMPA receptor ratios in sensory areas compared to association areas, a prediction supported by in vitro autoradiography data. The model accounts for diverse behavioral and physiological phenomena linked to consciousness.