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Cortex Club Presents: Professor Marcello Massimini
November 19, 2019 @ 16:00 - 17:00
We are excited to welcome Professor Marcello Massimini, from the University of Milan, on Tuesday 19th November, at 4 pm in the Small Lecture Theatre, Sherrington Building, Off Parks Road, OX1 3PT.
Professor Massimini will be giving a talk on ‘OFF-periods, causality and complexity in cortical networks during loss and recovery of Consciousness‘.
All Welcome! If you would like to attend the talk, please sign up at: https://cortex-club-massimini.eventbrite.co.uk .
Theoretical neuroscience suggest that consciousness depends on the ability of neural elements to engage in complex activity patterns that are, at once, distributed within a system of interacting cortical areas (integrated) and differentiated in space and time (information-rich) (i.e. brain complexity). Based on this principle, we have been developing and testing a theory-driven empirical method to assess brain complexity based on a combination of transcranial magnetic stimulation (TMS) and electroencephalography (EEG). Overall, the estimation of brain complexity provides a reliable measuring scale along the unconsciousness/consciousness spectrum and allows a robust assessment of unresponsive individuals (such as locked-in, minimally conscious and vegetative state patients) whose level of consciousness cannot be assessed behaviorally.
Starting from the experimental evidence of a link between consciousness and complexity, we moved on to explore the mechanisms by which brain complexity collapses and recovers in the human brain. Specifically, we wanted to test the hypothesis that neuronal bistability – the intrinsic tendency of cortical neurons to fall into a silent OFF-period after an initial activation – may play an important role in impairing the brain’s capacity to engage in complex patterns of causal interactions not only during NREM sleep but also in anesthesia and in brain-injured patients. We address this question at multiple scales (macro, meso and micro) of investigation, by recording brain responses to direct cortical stimulations using (1) TMS/EEG, (2) intracranial electrical stimulation/recordings in neurosurgical patients as well as (3) in cortical slices. These measurements provide convergence evidence that bistability and neuronal OFF periods may play an important role in disrupting causality and in preventing the build-up of brain complexity. Since bistability is, in principle, a reversible dynamics, this finding may point to novel strategies to promote recovery of consciousness after brain injury.