Byung Moon Choi

TL;DR: Analysis of directional connectivity in frontal–parietal networks could provide a common metric of general anesthesia and insight into the cognitive neuroscience of anesthetic-induced unconsciousness.

TL;DR: Data in animals demonstrate that feedforward processing of information may persist during the anesthetized state, while feedback processing is inhibited, and support the hypothesis that specific states of human consciousness are defined by specificStates of frontoparietal connectivity.

TL;DR: The functional organization of brain activities in the conscious and anesthetized states is analyzed, based on functional segregation and integration, to conclude that induction of general anesthesia with propofol reduces the capacity for information integration in the brain.

TL;DR: A fundamental principle of temporal organization of network connectivity that is maintained during consciousness and anesthesia, despite local changes is suggested.

TL;DR: By dissociating the effects of network structure and connection strength, both continuous and discrete elements of anesthetic state transitions were identified and a critical role of parietal networks as a target of general anesthetics is supported.