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Mikael Lundqvist

The Picower Institute for Learning and Memory and Department of Brain and Cognitive Sciences, Massachusetts Institute of Technology, Cambridge, MA 02139.

1 paper in the library · 32 citations · publishing 2024

Papers

Propofol-mediated loss of consciousness disrupts predictive routing and local field phase modulation of neural activity.

Proceedings of the National Academy of Sciences of the United States of America October 15, 2024 Yihan Sophy Xiong, Jacob A Donoghue, Mikael Lundqvist et al. 32 citations

Predictive coding in the cortex relies on predictions fed back from deep layers via alpha/beta oscillations (8–30 Hz) that inhibit gamma (40–100 Hz) and spiking carrying sensory input forward. Intracranial recordings in macaques during passive auditory oddball tasks showed that in the awake state alpha/beta oscillations inhibited processing of predictable sounds. Propofol-induced loss of consciousness eliminated this alpha/beta modulation in sensory cortex and reduced alpha/beta coherence between sensory and frontal areas. Consequently, oddball stimuli evoked enhanced gamma power, late spiking, and superficial layer sinks in auditory cortex, indicating a disinhibited state. However, differential spiking to oddballs in higher-order cortex was lost, likely due to disrupted spike-field coupling. These findings constrain theories of consciousness.