Sedation modulates fronto-temporal predictive coding circuits and the double surprise acceleration effect

Abstract: Two important theories in cognitive neuroscience are predictive coding and the global workspace theory. A key research task is to understand how these two theories relate to one another, and particularly, how the brain transitions from a predictive early state to the eventual engagement of a brain-scale state (the global workspace). To address this question, we present a source-localisation of EEG responses evoked by the local-global task -an experimental paradigm that engages a predictive hierarchy, which enc… Show more

“…However, the brain regional-or network-bases for this substantial individual variability (Searle and Hopkins 2009;Palanca et al, 2009), and its potential link to cognitive function, remain unknown. Propofol-induced sedation produces selective metabolic impairment and reduces brain activity bilaterally in frontal and parietal associative regions (Witon et al, 2020;Boly et al, 2008;Plourde et al, 2006;Alkire 2005;Baars et al, 2003;Fiset et al, 1999; for a review see MacDonald et al, 2015; but see Pal et al, 2020). Therefore, three brain networks with frontal and parietal lobe distribution, the dorsal attention network (DAN), executive control network (ECN), and default mode network (DMN) are primary candidate sources of individual variability under propofol sedation.…”

Responsiveness variability during anaesthesia relates to inherent differences in brain structure and function of the fronto-parietal networks

“…However, the brain regional-or network-bases for this substantial individual variability (Searle and Hopkins 2009;Palanca et al, 2009), and its potential link to cognitive function, remain unknown. Propofol-induced sedation produces selective metabolic impairment and reduces brain activity bilaterally in frontal and parietal associative regions (Witon et al, 2020;Boly et al, 2008;Plourde et al, 2006;Alkire 2005;Baars et al, 2003;Fiset et al, 1999; for a review see MacDonald et al, 2015; but see Pal et al, 2020). Therefore, three brain networks with frontal and parietal lobe distribution, the dorsal attention network (DAN), executive control network (ECN), and default mode network (DMN) are primary candidate sources of individual variability under propofol sedation.…”

Responsiveness variability during anaesthesia relates to inherent differences in brain structure and function of the fronto-parietal networks