Representation of steady-state visual evoked potentials elicited by luminance flicker in human occipital cortex: An electrocorticography study
Despite the widespread use of steady-state visual evoked potentials (SSVEPs) elicited by luminance flicker in clinical and research settings, their spatial and temporal representation in the occipital cortex largely remain elusive. We performed intracranial-EEG recordings in response to targets flic...
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| Published in | NeuroImage (Orlando, Fla.) Vol. 175; pp. 315 - 326 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Elsevier Inc
15.07.2018
Elsevier Limited |
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| Online Access | Get full text |
| ISSN | 1053-8119 1095-9572 1095-9572 |
| DOI | 10.1016/j.neuroimage.2018.04.006 |
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| Abstract | Despite the widespread use of steady-state visual evoked potentials (SSVEPs) elicited by luminance flicker in clinical and research settings, their spatial and temporal representation in the occipital cortex largely remain elusive. We performed intracranial-EEG recordings in response to targets flickering at frequencies from 11 to 15 Hz using a subdural electrode grid covering the entire right occipital cortex of a human subject, and we were able to consistently locate the gazed stimulus frequency at the posterior side of the primary visual cortex (V1). Peripheral flickering, undetectable in scalp-EEG, elicited activations in the interhemispheric fissure at locations consistent with retinotopic maps. Both foveal and peripheral activations spatially coincided with activations in the high gamma band. We detected localized alpha synchronization at the lateral edge of V2 during stimulation and transient post-stimulation theta band activations at the posterior part of the occipital cortex. Scalp-EEG exhibited only a minor occipital post-stimulation theta activation, but a strong transient frontal activation.
•The spatiotemporal representation of SSVEP in the occipital cortex is largely unclear.•The fundamental frequency is represented at the posterior part of the primary visual cortex.•The spatial representation of the second harmonic varies with the stimulation frequency.•Simultaneous foveal and peripheral flickering stimuli are processed independently.•SSVEP stimulation elicits localized alpha band activations at the lateral edge of V2. |
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| AbstractList | Despite the widespread use of steady-state visual evoked potentials (SSVEPs) elicited by luminance flicker in clinical and research settings, their spatial and temporal representation in the occipital cortex largely remain elusive. We performed intracranial-EEG recordings in response to targets flickering at frequencies from 11 to 15 Hz using a subdural electrode grid covering the entire right occipital cortex of a human subject, and we were able to consistently locate the gazed stimulus frequency at the posterior side of the primary visual cortex (V1). Peripheral flickering, undetectable in scalp-EEG, elicited activations in the interhemispheric fissure at locations consistent with retinotopic maps. Both foveal and peripheral activations spatially coincided with activations in the high gamma band. We detected localized alpha synchronization at the lateral edge of V2 during stimulation and transient post-stimulation theta band activations at the posterior part of the occipital cortex. Scalp-EEG exhibited only a minor occipital post-stimulation theta activation, but a strong transient frontal activation.Despite the widespread use of steady-state visual evoked potentials (SSVEPs) elicited by luminance flicker in clinical and research settings, their spatial and temporal representation in the occipital cortex largely remain elusive. We performed intracranial-EEG recordings in response to targets flickering at frequencies from 11 to 15 Hz using a subdural electrode grid covering the entire right occipital cortex of a human subject, and we were able to consistently locate the gazed stimulus frequency at the posterior side of the primary visual cortex (V1). Peripheral flickering, undetectable in scalp-EEG, elicited activations in the interhemispheric fissure at locations consistent with retinotopic maps. Both foveal and peripheral activations spatially coincided with activations in the high gamma band. We detected localized alpha synchronization at the lateral edge of V2 during stimulation and transient post-stimulation theta band activations at the posterior part of the occipital cortex. Scalp-EEG exhibited only a minor occipital post-stimulation theta activation, but a strong transient frontal activation. Despite the widespread use of steady-state visual evoked potentials (SSVEPs) elicited by luminance flicker in clinical and research settings, their spatial and temporal representation in the occipital cortex largely remain elusive. We performed intracranial-EEG recordings in response to targets flickering at frequencies from 11 to 15 Hz using a subdural electrode grid covering the entire right occipital cortex of a human subject, and we were able to consistently locate the gazed stimulus frequency at the posterior side of the primary visual cortex (V1). Peripheral flickering, undetectable in scalp-EEG, elicited activations in the interhemispheric fissure at locations consistent with retinotopic maps. Both foveal and peripheral activations spatially coincided with activations in the high gamma band. We detected localized alpha synchronization at the lateral edge of V2 during stimulation and transient post-stimulation theta band activations at the posterior part of the occipital cortex. Scalp-EEG exhibited only a minor occipital post-stimulation theta activation, but a strong transient frontal activation. Despite the widespread use of steady-state visual evoked potentials (SSVEPs) elicited by luminance flicker in clinical and research settings, their spatial and temporal representation in the occipital cortex largely remain elusive. We performed intracranial-EEG recordings in response to targets flickering at frequencies from 11 to 15 Hz using a subdural electrode grid covering the entire right occipital cortex of a human subject, and we were able to consistently locate the gazed stimulus frequency at the posterior side of the primary visual cortex (V1). Peripheral flickering, undetectable in scalp-EEG, elicited activations in the interhemispheric fissure at locations consistent with retinotopic maps. Both foveal and peripheral activations spatially coincided with activations in the high gamma band. We detected localized alpha synchronization at the lateral edge of V2 during stimulation and transient post-stimulation theta band activations at the posterior part of the occipital cortex. Scalp-EEG exhibited only a minor occipital post-stimulation theta activation, but a strong transient frontal activation. •The spatiotemporal representation of SSVEP in the occipital cortex is largely unclear.•The fundamental frequency is represented at the posterior part of the primary visual cortex.•The spatial representation of the second harmonic varies with the stimulation frequency.•Simultaneous foveal and peripheral flickering stimuli are processed independently.•SSVEP stimulation elicits localized alpha band activations at the lateral edge of V2. |
| Author | Van Roost, Dirk Boon, Paul De Taeye, Leen Meurs, Alfred Van Hulle, Marc M. Carrette, Evelien Wittevrongel, Benjamin Khachatryan, Elvira Fahimi Hnazaee, Mansoureh |
| Author_xml | – sequence: 1 givenname: Benjamin surname: Wittevrongel fullname: Wittevrongel, Benjamin email: benjamin.wittevrongel@kuleuven.be organization: Laboratory for Neuro- and Psychophysiology, Department of Neurosciences, KU Leuven, Leuven, Belgium – sequence: 2 givenname: Elvira surname: Khachatryan fullname: Khachatryan, Elvira organization: Laboratory for Neuro- and Psychophysiology, Department of Neurosciences, KU Leuven, Leuven, Belgium – sequence: 3 givenname: Mansoureh surname: Fahimi Hnazaee fullname: Fahimi Hnazaee, Mansoureh organization: Laboratory for Neuro- and Psychophysiology, Department of Neurosciences, KU Leuven, Leuven, Belgium – sequence: 4 givenname: Evelien surname: Carrette fullname: Carrette, Evelien organization: Laboratory of Clinical and Experimental Neurophysiology, Neurology Department, Ghent University Hospital, Ghent, Belgium – sequence: 5 givenname: Leen surname: De Taeye fullname: De Taeye, Leen organization: Laboratory of Clinical and Experimental Neurophysiology, Neurology Department, Ghent University Hospital, Ghent, Belgium – sequence: 6 givenname: Alfred surname: Meurs fullname: Meurs, Alfred organization: Laboratory of Clinical and Experimental Neurophysiology, Neurology Department, Ghent University Hospital, Ghent, Belgium – sequence: 7 givenname: Paul surname: Boon fullname: Boon, Paul organization: Laboratory of Clinical and Experimental Neurophysiology, Neurology Department, Ghent University Hospital, Ghent, Belgium – sequence: 8 givenname: Dirk surname: Van Roost fullname: Van Roost, Dirk organization: Department of Neurosurgery, Ghent University Hospital, Ghent, Belgium – sequence: 9 givenname: Marc M. surname: Van Hulle fullname: Van Hulle, Marc M. organization: Laboratory for Neuro- and Psychophysiology, Department of Neurosciences, KU Leuven, Leuven, Belgium |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29630994$$D View this record in MEDLINE/PubMed |
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| Keywords | Harmonic Gamma Fundamental ECoG Alpha SSVEP Theta |
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