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Coordination of cortical and thalamic activity during non-REM sleep in humans.


ABSTRACT: Every night, the human brain produces thousands of downstates and spindles during non-REM sleep. Previous studies indicate that spindles originate thalamically and downstates cortically, loosely grouping spindle occurrence. However, the mechanisms whereby the thalamus and cortex interact in generating these sleep phenomena remain poorly understood. Using bipolar depth recordings, we report here a sequence wherein: (1) convergent cortical downstates lead thalamic downstates; (2) thalamic downstates hyperpolarize thalamic cells, thus triggering spindles; and (3) thalamic spindles are focally projected back to cortex, arriving during the down-to-upstate transition when the cortex replays memories. Thalamic intrinsic currents, therefore, may not be continuously available during non-REM sleep, permitting the cortex to control thalamic spindling by inducing downstates. This archetypical cortico-thalamo-cortical sequence could provide the global physiological context for memory consolidation during non-REM sleep.

SUBMITTER: Mak-McCully RA 

PROVIDER: S-EPMC5458505 | biostudies-literature | 2017 May

REPOSITORIES: biostudies-literature

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Coordination of cortical and thalamic activity during non-REM sleep in humans.

Mak-McCully Rachel A RA   Rolland Matthieu M   Sargsyan Anna A   Gonzalez Chris C   Magnin Michel M   Chauvel Patrick P   Rey Marc M   Bastuji Hélène H   Halgren Eric E  

Nature communications 20170525


Every night, the human brain produces thousands of downstates and spindles during non-REM sleep. Previous studies indicate that spindles originate thalamically and downstates cortically, loosely grouping spindle occurrence. However, the mechanisms whereby the thalamus and cortex interact in generating these sleep phenomena remain poorly understood. Using bipolar depth recordings, we report here a sequence wherein: (1) convergent cortical downstates lead thalamic downstates; (2) thalamic downstat  ...[more]

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