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Stanislas Dehaene

Collège de France, 11 Place Marcelin Berthelot, 75005 Paris, France; Cognitive Neuroimaging Unit, CEA, INSERM, Université Paris-Sud, Université Paris-Saclay, NeuroSpin Center, 91191 Gif/Yvette, France.

7 papers in the library · 187 citations · publishing 2016-2025

Papers

Unpacking the complexities of consciousness: Theories and reflections.

Neuroscience and biobehavioral reviews March 1, 2025 Liad Mudrik, Melanie Boly, Stanislas Dehaene et al. 68 citations

In a structured public debate at the 2022 meeting of the Association for the Scientific Study of Consciousness, proponents of five major theories—Global Neuronal Workspace Theory, Higher-Order Theories, Integrated Information Theory, Recurrent Processing Theory, and Predictive Processing—clarified their theories' core mechanisms, foundational premises, and what each theory aims to explain. The discussion revealed more controversy than agreement, particularly on the most basic questions: what consciousness is, how to identify conscious states, and what any adequate theory must account for. Addressing these foundational disagreements is essential for advancing the field and enabling meaningful comparison of competing theories.

Decoding rapidly presented visual stimuli from prefrontal ensembles without report nor post-perceptual processing.

Neuroscience of consciousness January 1, 2022 Joachim Bellet, Marion Gay, Abhilash Dwarakanath et al. 57 citations

Neuronal populations in the macaque prefrontal cortex (PFC) reliably encode visual stimuli even under conditions that challenge conscious perception and reduce post-perceptual processing. Recordings from the ventrolateral PFC during isolated trials and rapid serial visual presentation (RSVP) showed that stimulus identity could be decoded from population activity, with first signals at 60 ms and peak information at 150 ms. In RSVP, decoding accuracy dropped to chance by 200 ms as the next stimulus became decodable. Decoding in ventrolateral PFC was stronger than in posterior parietal cortex. The findings indicate PFC encodes visual information under conditions that limit conscious access and post-perceptual elaboration, raising questions about whether this reflects conscious access, phenomenal consciousness, or preconscious bottom-up processing.

A theory of working memory without consciousness or sustained activity

bioRxiv Preprint Server December 14, 2016 Darinka Trübutschek, Sébastien Marti, Andrés Ojeda et al. 47 citations preprint

Working memory and conscious perception are often thought to rely on the same brain mechanisms, but recent evidence suggests non-conscious working memory exists. Using visual masking and magnetoencephalography in a spatial delayed-response task, participants reported the location of a subjectively unseen target above chance after a long delay. Conscious perception and conscious working memory showed sustained alpha/beta desynchronization over frontal cortex and decodable target location in posterior sensors. During non-conscious working memory, these signals vanished, contradicting models equating working memory with sustained neural firing. The findings support 'activity-silent' working memory, where slowly decaying synaptic changes allow cell assemblies to go dormant during the delay yet be retrieved above chance after seconds.

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.

Ketamine disrupts consciousness in healthy participants in relation with psychotic-like symptoms.

bioRxiv : the preprint server for biology November 8, 2025 Lucie Berkovitch, Alexandre Salvador, Thomas Andrillon et al. preprint

Low doses of ketamine, an NMDA-receptor antagonist, disrupt the ability to consciously perceive visual information in healthy people. In a double-blind, placebo-controlled experiment with 21 volunteers, ketamine increased visual masking and reduced conscious perception of a digit. The N1 component of brain activity, an early marker of visual processing, was significantly reduced under ketamine and correlated with conscious access. Ketamine also induced psychotic-like and manic-like symptoms, but only the psychotic-like dimension was linked to impairments in conscious access. These findings suggest ketamine attenuates early visual brain responses, impairing conscious access, and that this mechanism differs in some ways from that seen in schizophrenia.

An adversarial collaboration to critically evaluate theories of consciousness

bioRxiv Preprint Server June 23, 2023 Oscar Ferrante, Urszula Gorska-Klimowska, Simon Henin et al. preprint

An open science adversarial collaboration directly juxtaposed Integrated Information Theory (IIT) and Global Neuronal Workspace Theory (GNWT) by investigating neural correlates of visual experience. 256 human subjects viewed suprathreshold stimuli for variable durations while neural activity was measured with fMRI, MEG, and ECoG. Information about conscious content was found in visual, ventro-temporal, and inferior frontal cortex, with sustained responses in occipital and lateral temporal cortex reflecting stimulus duration, and content-specific synchronization between frontal and early visual areas.