4.8 Article

Widespread ripples synchronize human cortical activity during sleep, waking, and memory recall

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NATL ACAD SCIENCES
DOI: 10.1073/pnas.2107797119

关键词

ripples; cortex; hippocampus; non-rapid eye movement sleep; waking

资金

  1. National Institute of Mental Health [1RF1MH117155-01, T32 MH020002]
  2. Office of Naval Research Multidisciplinary University Research Initiative [N00014-16-1-2829]

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Declarative memory encoding, consolidation, and retrieval require the integration of elements encoded in widespread cortical locations. The mechanism whereby such binding of different components of mental events into unified representations occurs is unknown. This study found that brief high-frequency oscillations, known as ripples, occur in different brain areas and play a crucial role in memory recall and consolidation. These ripples phase-lock, co-occur, and show high-frequency correlations between widely distributed cortical locations, even between hemispheres. The findings suggest that cortical ripple co-occurrence and phase synchrony are essential for memory retrieval and potentially cognitive processes in general.
Declarative memory encoding, consolidation, and retrieval require the integration of elements encoded in widespread cortical locations. The mechanism whereby such binding of different components of mental events into unified representations occurs is unknown. The binding-by-synchrony theory proposes that distributed encoding areas are bound by synchronous oscillations enabling enhanced communication. However, evidence for such oscillations is sparse. Brief high-frequency oscillations (ripples) occur in the hippocampus and cortex and help organize memory recall and consolidation. Here, using intracranial recordings in humans, we report that these similar to 70-ms-duration, 90-Hz ripples often couple (within +/- 500 ms), co-occur (>= 25-ms overlap), and, crucially, phase-lock (have consistent phase lags) between widely distributed focal cortical locations during both sleep and waking, even between hemispheres. Cortical ripple co-occurrence is facilitated through activation across multiple sites, and phase locking increases with more cortical sites corippling. Ripples in all cortical areas co-occur with hippocampal ripples but do not phase-lock with them, further suggesting that cortico-cortical synchrony is mediated by cortico-cortical connections. Ripple phase lags vary across sleep nights, consistent with participation in different networks. During waking, we show that hippocampo-cortical and cortico-cortical coripples increase preceding successful delayed memory recall, when binding between the cue and response is essential. Ripples increase and phase-modulate unit firing, and coripples increase high-frequency correlations between areas, suggesting synchronized unit spiking facilitating information exchange. co-occurrence, phase synchrony, and high-frequency correlation are maintained with little decrement over very long distances (25 cm). Hippocampo-cortico-cortical coripples appear to possess the essential properties necessary to support binding by synchrony during memory retrieval and perhaps generally in cognition.

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