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Combined Single Neuron Unit Activity and Local Field Potential Oscillations in a Human Visual Recognition Memory Task

Abstract

GOAL: Activities of neuronal networks range from action potential firing of individual neurons, coordinated oscillations of local neuronal assemblies, and distributed neural populations. Here, we describe recordings using hybrid electrodes, containing both micro- and clinical macroelectrodes, to simultaneously sample both large-scale network oscillations and single neuron spiking activity in the medial temporal lobe structures of human subjects during a visual recognition memory task. We quantify and compare single neuron unit activity (SUA) with high-frequency macrofield oscillations (HFOs) for decoding visual images. RESULTS: SUA and HFOs were recorded using hybrid electrodes containing both micro and macroelectrode contacts, implanted in patients with focal epilepsy. Decoding of image properties in different task trials was performed, analyzing SUA and HFO as point processes to capture the dynamics of neurons and their assemblies at different spatiotemporal scales, ranging from submillisecond discharges of single units to fast oscillations across large neuronal populations. Results highlight the limitations and potential complementary use of SUA and HFOs for decoding of general image properties. CONCLUSION: The dynamics of SUA and HFOs can be used to explore a wide range of neuronal assembly activities engaged in human memory processing. SIGNIFICANCE: Hybrid electrodes provide a technological bridge for exploring multiscale activity, spanning individual neurons, their assemblies, and large-scale population activity reflected in local field potentials. Analysis of SUA and HFO dynamics as point processes provides a potentially useful signal processing method for exploring the neuronal correlates operating at different spatial scales.

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Authors (7)

  • Photo of dr Michał Tomasz Kucewicz

    Michał Tomasz Kucewicz dr

    • Mayo Clinic Department of Neurology
  • Photo of  Brent M. Berry

    Brent M. Berry

    • Mayo Clinic Department of Neurology
  • Photo of  Mark R. Bower

    Mark R. Bower

    • Mayo Clinic Department of Neurology
  • Photo of  Jan Cymbalnik

    Jan Cymbalnik

    • University Hospital, Brno International Clinical Research Center
  • Photo of  Vojtech Svehlik

    Vojtech Svehlik

    • University Hospital, Brno International Clinical Research Center
  • Photo of  S. Matthew Stead

    S. Matthew Stead

    • Mayo Clinic Department of Neurology
  • Photo of  Gregory A. Worrell

    Gregory A. Worrell

    • Mayo Clinic Department of Neurology

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Details

Category:
Articles
Type:
artykuł w czasopiśmie wyróżnionym w JCR
Published in:
IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING no. 63, pages 67 - 75,
ISSN: 0018-9294
Language:
English
Publication year:
2016
Bibliographic description:
Kucewicz M., Berry B., Bower M., Cymbalnik J., Svehlik V., Stead S., Worrell G.: Combined Single Neuron Unit Activity and Local Field Potential Oscillations in a Human Visual Recognition Memory Task// IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING. -Vol. 63, nr. 1 (2016), s.67-75
DOI:
Digital Object Identifier (open in new tab) 10.1109/tbme.2015.2451596
Verified by:
Gdańsk University of Technology

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