Widespread, perception-related information in the human brain scales with levels of consciousness

How does the human brain generate coherent, subjective perceptions—transforming yellow and oblong visual sensory information into the perception of an edible banana? This is a hard problem. According to the standard viewpoint, processing in groups of dedicated regions—identified as active “blobs” wh...

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Veröffentlicht in:	Imaging neuroscience (Cambridge, Mass.) Mass.), 2024-07, Vol.2, p.1-17
Hauptverfasser:	Vigotsky, Andrew D., Jabakhanji, Rami, Branco, Paulo, Iannetti, Gian Domenico, Baliki, Marwan N., Apkarian, A. Vania
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Sprache:	eng
Schlagworte:	consciousness decoding fMRI perception propofol stimulus
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creator	Vigotsky, Andrew D. Jabakhanji, Rami Branco, Paulo Iannetti, Gian Domenico Baliki, Marwan N. Apkarian, A. Vania
description	How does the human brain generate coherent, subjective perceptions—transforming yellow and oblong visual sensory information into the perception of an edible banana? This is a hard problem. According to the standard viewpoint, processing in groups of dedicated regions—identified as active “blobs” when using functional magnetic resonance imaging (fMRI)—gives rise to perception. Here, we reveal a new organizational concept by discovering that stimulus-specific information distributed throughout the whole brain. Using fMRI, we found stimulus-specific information across the neocortex, even in voxels previously considered “noise,” challenging traditional analytical approaches. Surprisingly, these stimulus-specific signals were also present in the subcortex and cerebellum and could be detected from across-subject variances. Finally, we observed that stimulus-specific signal in brain regions beyond the primary and secondary sensory cortices is influenced by sedation levels, suggesting a connection to perception rather than sensory encoding. We hypothesize that these widespread, stimulus-specific, and consciousness level-dependent signals may underlie coherent and subjective perceptions.
doi_str_mv	10.1162/imag_a_00240
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Surprisingly, these stimulus-specific signals were also present in the subcortex and cerebellum and could be detected from across-subject variances. Finally, we observed that stimulus-specific signal in brain regions beyond the primary and secondary sensory cortices is influenced by sedation levels, suggesting a connection to perception rather than sensory encoding. 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title	Widespread, perception-related information in the human brain scales with levels of consciousness
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