Experimental and Theoretical Approaches to Conscious Processing
Overview
Affiliations
Recent experimental studies and theoretical models have begun to address the challenge of establishing a causal link between subjective conscious experience and measurable neuronal activity. The present review focuses on the well-delimited issue of how an external or internal piece of information goes beyond nonconscious processing and gains access to conscious processing, a transition characterized by the existence of a reportable subjective experience. Converging neuroimaging and neurophysiological data, acquired during minimal experimental contrasts between conscious and nonconscious processing, point to objective neural measures of conscious access: late amplification of relevant sensory activity, long-distance cortico-cortical synchronization at beta and gamma frequencies, and "ignition" of a large-scale prefronto-parietal network. We compare these findings to current theoretical models of conscious processing, including the Global Neuronal Workspace (GNW) model according to which conscious access occurs when incoming information is made globally available to multiple brain systems through a network of neurons with long-range axons densely distributed in prefrontal, parieto-temporal, and cingulate cortices. The clinical implications of these results for general anesthesia, coma, vegetative state, and schizophrenia are discussed.
Neural representation of consciously seen and unseen information.
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PMID: 40050698 PMC: 11885812. DOI: 10.1038/s41598-025-92490-y.
Frontal gamma-alpha ratio reveals neural oscillatory mechanism of attention shifting in tinnitus.
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PMID: 40040811 PMC: 11879603. DOI: 10.1016/j.isci.2025.111929.
The influence of signal strength on conscious and nonconscious neural processing of emotional faces.
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PMID: 39916700 PMC: 11799861. DOI: 10.1093/nc/niaf001.
Serotonergic Mechanisms in Proteinoid-Based Protocells.
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PMID: 39840997 PMC: 11803625. DOI: 10.1021/acschemneuro.4c00801.
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PMID: 39822953 PMC: 11735756. DOI: 10.1093/braincomms/fcae466.