High frequency oscillations in human memory and cognition: a neurophysiological substrate of engrams?

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KUCEWICZ Michal T CIMBÁLNÍK Jan GARCIA Jesus S S BRÁZDIL Milan WORRELL Gregory A

Rok publikování 2024
Druh Článek v odborném periodiku
Časopis / Zdroj Brain
Fakulta / Pracoviště MU

Lékařská fakulta

Citace
www https://academic.oup.com/brain/advance-article/doi/10.1093/brain/awae159/7672954?login=true
Doi http://dx.doi.org/10.1093/brain/awae159
Klíčová slova network oscillations; intracranial EEG; local field potential; cognition; sharp-wave ripples; memory consolidation
Popis Despite advances in understanding the cellular and molecular processes underlying memory and cognition, and recent successful modulation of cognitive performance in brain disorders, the neurophysiological mechanisms remain underexplored. High frequency oscillations beyond the classic electroencephalogram spectrum have emerged as a potential neural correlate of fundamental cognitive processes. High frequency oscillations are detected in the human mesial temporal lobe and neocortical intracranial recordings spanning gamma/epsilon (60-150 Hz), ripple (80-250 Hz) and higher frequency ranges. Separate from other non-oscillatory activities, these brief electrophysiological oscillations of distinct duration, frequency and amplitude are thought to be generated by coordinated spiking of neuronal ensembles within volumes as small as a single cortical column. Although the exact origins, mechanisms, and physiological roles in health and disease remain elusive, they have been associated with human memory consolidation and cognitive processing. Recent studies suggest their involvement in encoding and recall of episodic memory with a possible role in the formation and reactivation of memory traces. High frequency oscillations are detected during encoding, throughout maintenance, and right before recall of remembered items, meeting a basic definition for an engram activity. The temporal coordination of high frequency oscillations reactivated across cortical and subcortical neural networks is ideally suited for integrating multimodal memory representations, which can be replayed and consolidated during states of wakefulness and sleep. High frequency oscillations have been shown to reflect coordinated bursts of neuronal assembly firing and offer a promising substrate for tracking and modulation of the hypothetical electrophysiological engram.

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