NeUronal MEchanisms foR consciOUS perception

ERC (European Research Council)HORIZON-ERCID: 101052963
EC Contribution
€25,000
Consortium Size
1 orgs
Start Year
2023
Summary

Understanding the mechanisms for consciousness is arguably one of the most intriguing questions of modern neuroscience. Why are some visual stimuli consciously perceived, whereas others remain subliminal? What is the relation between conscious perception, attention and working memory? Recent work of my lab demonstrated that weak but simple stimuli can be reported once they elicit a minimal level of activity in the frontal cortex, which is related to the storage of the stimulus in working memory. For these simple stimuli, the visual cortex acts as a relay station that needs to pass the information to higher cortical areas. However, we found that the perception of more complex visual stimuli relies on a more sustained interaction between visual cortex and associative brain regions, related to scene segmentation and visual attention. These recent results pave the way for a genuine understanding of mechanisms for consciousness, inspiring new paradigms that assess the awareness of stimuli while varying the demands on attention and working memory. The present proposal will be the first to compare the neuronal fate of simple and complex stimuli that do and do not enter consciousness across most brain regions. We will measure the activity of single neurons in human patients who are implanted with electrodes as part of their treatment of drug-resistant epilepsy. We will also use a new method that permits the recording from numerous single neurons within an entire hemisphere of a monkey and characterize neuronal activity in most regions of the cortex and subcortex. We will use perturbation methods at numerous locations throughout the brain in combination with functional imaging in monkeys to measure a functional connectome and to investigate the brain regions in which activity does (or does not) readily lead to a reportable experience. The proposed combination of experiments will provide unprecedented insight into how sensory stimuli give rise to conscious perception.

Consortium (1)

Project Results (13)

Source: CORDIS, the EU research results database.

Publications (13)
An extensive dataset of spiking activity to reveal the syntax of the ventral stream
Neuron· 2025DOI
Papale, P., Wang, F., Self, M.W. and Roelfsema, P.R.
Journal of Vision
Journal of Vision· 2025DOI
Possel, Jessy K; Roelfsema, Pieter R; Self, Matthew W
Advanced healthcare materials
Advanced Healthcare Materials· 2024DOI
Corinne Orlemann; Christian Boehler; Roxana N. Kooijmans; Bingshuo Li; Maria Asplund; Pieter R. Roelfsema
Biologically plausible gated recurrent neural networks for working memory and learning-to-learn
PLOS ONE· 2024DOI
van den Berg, A.R., Roelfsema, P.R., Bohte, S.M.
Comparison of electrical microstimulation artifact removal methods for high-channel-count prostheses
Journal of Neuroscience Methods· 2024DOI
Wang, F., Chen, X., Roelfsema, P.R.
Nature Communications
Nature Communications· 2024DOI
Danique Jeurissen; Anne F. van Ham; Amparo Gilhuis; Paolo Papale; Pieter R. Roelfsema; Matthew W. Self
Neuron
Neuron· 2024DOI
Storm, Johan F; Klink, P Christiaan; Aru, Jaan; Senn, Walter; Goebel, Rainer; Pigorini, Andrea; Avanzini, Pietro; Vanduffel, Wim; Roelfsema, Pieter R; Massimini, Marcello; Larkum, Matthew E; Pennartz, Cyriel M A
Proceedings of the National Academy of Sciences of the United States of America
Proceedings of the National Academy of Sciences· 2024DOI
Paolo Papale; Wietske Zuiderbaan; Rob R. M. Teeuwen; Amparo Gilhuis; Matthew W. Self; Pieter R. Roelfsema; Serge O. Dumoulin
Pronouns reactivate conceptual representations in human hippocampal neurons
Science· 2024DOI
D. E. Dijksterhuis, M. W. Self, J. K. Possel, J. C. Peters, E. C. W. van Straaten, S. Idema, J. C. Baaijen, S. M. A. van der Salm, E. J. Aarnoutse, N. C. E. van Klink, P. van Eijsden, S. Hanslmayr, R. Chelvarajah, F. Roux, L. D. Kolibius, V. Sawlani, D. T. Rollings, S. Dehaene, P. R. Roelfsema
Current Biology
Current Biology· 2023DOI
Papale, Paolo; Wang, Feng; Morgan, A. Tyler; Chen, Xing; Gilhuis, Amparo; Petro, Lucy S.; Muckli, Lars; Roelfsema, Pieter R.; Self, Matthew W.
Journal of NeuroEngineering and Rehabilitation
Journal of Neural Engineering· 2023DOI
Xing Chen; Feng Wang; Roxana Kooijmans; Peter Christiaan Klink; Christian Boehler; Maria Asplund; Pieter Roelf Roelfsema
Neuron
Neuron· 2023DOI
Roelfsema, Pieter R.
PLoS Computational Biology
PLOS Computational Biology· 2023DOI
Sami Mollard; Catherine Wacongne; Sander M. Bohte; Pieter R. Roelfsema