A wide spectrum of brain rhythms are engaged throughout the human cortex in cognitive functions. How the rhythms of various frequency ranges are coordinated across the space of the human cortex and time of memory processing is inconclusive. They can either be coordinated together across the frequency spectrum at the same cortical site and time or induced independently in particular bands. We used a large dataset of human intracranial electroencephalography (iEEG) to parse the spatiotemporal dynamics of spectral activities induced during formation of verbal memories. Encoding of words for subsequent free recall activated low frequency theta, intermediate frequency alpha and beta, and high frequency gamma power in a mosaic pattern of discrete cortical sites. A majority of the cortical sites recorded activity in only one of these frequencies, except for the visual cortex where spectral power was induced across multiple bands. Each frequency band showed characteristic dynamics of the induced power specific to cortical area and hemisphere. The power of the low, intermediate, and high frequency activities propagated in independent sequences across the visual, temporal and prefrontal cortical areas throughout subsequent phases of memory encoding. Our results provide a holistic, simplified model of the spectral activities engaged in the formation of human memory, suggesting an anatomically and temporally distributed mosaic of coordinated brain rhythms.

Department of Computer Engineering Iowa State University Ames Iowa USA

Department of Electrical and Computer Engineering University of Illinois Urbana Champaign IL USA

Department of Neurology Mayo Clinic Rochester MN USA; Department of Physiology and Biomedical Engineering Mayo Clinic USA

Department of Neurology Mayo Clinic Rochester MN USA; Robotics and Cybernetics Czech Institute of Informatics Czech Technical University Prague Prague Czech Republic

Department of Neurology Mayo Clinic Rochester MN USA; The Czech Academy of Sciences Institute of Scientific Instruments Brno Czech Republic

Graduate School of Biomedical Sciences Mayo Clinic USA

Multimedia Systems Department Faculty of Electronics Telecommunications and Informatics BioTechMed Center Gdansk University of Technology Gdansk Poland; Department of Neurology Mayo Clinic Rochester MN USA; Department of Physiology and Biomedical Engineering Mayo Clinic USA

Multimedia Systems Department Faculty of Electronics Telecommunications and Informatics BioTechMed Center Gdansk University of Technology Gdansk Poland; Nencki Institute of Experimental Biology Polish Academy of Sciences Warsaw Poland; Department of Neurology Mayo Clinic Rochester MN USA

Citace poskytuje Crossref.org

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