Hemodynamic correlates of spontaneous neural activity measured by human whole-head resting state EEG+fNIRS
The brains of awake, resting human subjects display spontaneously occurring neural activity patterns whose magnitude is typically many times greater than those triggered by cognitive or perceptual performance. Evoked and resting state activations affect local cerebral hemodynamic properties through...
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| Published in | NeuroImage (Orlando, Fla.) Vol. 138; pp. 76 - 87 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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United States
Elsevier Inc
01.09.2016
Elsevier Limited |
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| Abstract | The brains of awake, resting human subjects display spontaneously occurring neural activity patterns whose magnitude is typically many times greater than those triggered by cognitive or perceptual performance. Evoked and resting state activations affect local cerebral hemodynamic properties through processes collectively referred to as neurovascular coupling. Its investigation calls for an ability to track both the neural and vascular aspects of brain function. We used scalp electroencephalography (EEG), which provided a measure of the electrical potentials generated by cortical postsynaptic currents. Simultaneously we utilized functional near-infrared spectroscopy (NIRS) to continuously monitor hemoglobin concentration changes in superficial cortical layers. The multi-modal signal from 18 healthy adult subjects allowed us to investigate the association of neural activity in a range of frequencies over the whole-head to local changes in hemoglobin concentrations. Our results verified the delayed alpha (8–16Hz) modulation of hemodynamics in posterior areas known from the literature. They also indicated strong beta (16–32Hz) modulation of hemodynamics. Analysis revealed, however, that beta modulation was likely generated by the alpha–beta coupling in EEG. Signals from the inferior electrode sites were dominated by scalp muscle related activity. Our study aimed to characterize the phenomena related to neurovascular coupling observable by practical, cost-effective, and non-invasive multi-modal techniques.
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| AbstractList | The brains of awake, resting human subjects display spontaneously occurring neural activity patterns whose magnitude is typically many times greater than those triggered by cognitive or perceptual performance. Evoked and resting state activations affect local cerebral hemodynamic properties through processes collectively referred to as neurovascular coupling. Its investigation calls for an ability to track both the neural and vascular aspects of brain function. We used scalp electroencephalography (EEG), which provided a measure of the electrical potentials generated by cortical postsynaptic currents. Simultaneously we utilized functional near-infrared spectroscopy (NIRS) to continuously monitor hemoglobin concentration changes in superficial cortical layers. The multi-modal signal from 18 healthy adult subjects allowed us to investigate the association of neural activity in a range of frequencies over the whole-head to local changes in hemoglobin concentrations. Our results verified the delayed alpha (8–16Hz) modulation of hemodynamics in posterior areas known from the literature. They also indicated strong beta (16–32Hz) modulation of hemodynamics. Analysis revealed, however, that beta modulation was likely generated by the alpha–beta coupling in EEG. Signals from the inferior electrode sites were dominated by scalp muscle related activity. Our study aimed to characterize the phenomena related to neurovascular coupling observable by practical, cost-effective, and non-invasive multi-modal techniques.
[Display omitted] The brains of awake, resting human subjects display spontaneously occurring neural activity patterns whose magnitude is typically many times greater than those triggered by cognitive or perceptual performance. Evoked and resting state activations affect local cerebral hemodynamic properties through processes collectively referred to as neurovascular coupling. Its investigation calls for an ability to track both the neural and vascular aspects of brain function. We used scalp electroencephalography (EEG), which provided a measure of the electrical potentials generated by cortical postsynaptic currents. Simultaneously we utilized functional near-infrared spectroscopy (NIRS) to continuously monitor hemoglobin concentration changes in superficial cortical layers. The multi-modal signal from 18 healthy adult subjects allowed us to investigate the association of neural activity in a range of frequencies over the whole-head to local changes in hemoglobin concentrations. Our results verified the delayed alpha (8-16Hz) modulation of hemodynamics in posterior areas known from the literature. They also indicated strong beta (16-32Hz) modulation of hemodynamics. Analysis revealed, however, that beta modulation was likely generated by the alpha-beta coupling in EEG. Signals from the inferior electrode sites were dominated by scalp muscle related activity. Our study aimed to characterize the phenomena related to neurovascular coupling observable by practical, cost-effective, and non-invasive multi-modal techniques. The brains of awake, resting human subjects display spontaneously occurring neural activity patterns whose magnitude is typically many times greater than those triggered by cognitive or perceptual performance. Evoked and resting state activations affect local cerebral hemodynamic properties through processes collectively referred to as neurovascular coupling. Its investigation calls for an ability to track both the neural and vascular aspects of brain function. We used scalp electroencephalography (EEG), which provided a measure of the electrical potentials generated by cortical postsynaptic currents. Simultaneously we utilized functional near-infrared spectroscopy (NIRS) to continuously monitor hemoglobin concentration changes in superficial cortical layers. The multi-modal signal from 18 healthy adult subjects allowed us to investigate the association of neural activity in a range of frequencies over the whole-head to local changes in hemoglobin concentrations. Our results verified the delayed alpha (8-16Hz) modulation of hemodynamics in posterior areas known from the literature. They also indicated strong beta (16-32Hz) modulation of hemodynamics. Analysis revealed, however, that beta modulation was likely generated by the alpha-beta coupling in EEG. Signals from the inferior electrode sites were dominated by scalp muscle related activity. Our study aimed to characterize the phenomena related to neurovascular coupling observable by practical, cost-effective, and non-invasive multi-modal techniques.The brains of awake, resting human subjects display spontaneously occurring neural activity patterns whose magnitude is typically many times greater than those triggered by cognitive or perceptual performance. Evoked and resting state activations affect local cerebral hemodynamic properties through processes collectively referred to as neurovascular coupling. Its investigation calls for an ability to track both the neural and vascular aspects of brain function. We used scalp electroencephalography (EEG), which provided a measure of the electrical potentials generated by cortical postsynaptic currents. Simultaneously we utilized functional near-infrared spectroscopy (NIRS) to continuously monitor hemoglobin concentration changes in superficial cortical layers. The multi-modal signal from 18 healthy adult subjects allowed us to investigate the association of neural activity in a range of frequencies over the whole-head to local changes in hemoglobin concentrations. Our results verified the delayed alpha (8-16Hz) modulation of hemodynamics in posterior areas known from the literature. They also indicated strong beta (16-32Hz) modulation of hemodynamics. Analysis revealed, however, that beta modulation was likely generated by the alpha-beta coupling in EEG. Signals from the inferior electrode sites were dominated by scalp muscle related activity. Our study aimed to characterize the phenomena related to neurovascular coupling observable by practical, cost-effective, and non-invasive multi-modal techniques. |
| Author | Omurtag, Ahmet Barbour, Randall L. Keles, Hasan Onur |
| Author_xml | – sequence: 1 givenname: Hasan Onur surname: Keles fullname: Keles, Hasan Onur organization: Department of Psychiatry, Massachusetts General Hospital, Harvard Medical School, Boston, MA 02114, United States – sequence: 2 givenname: Randall L. surname: Barbour fullname: Barbour, Randall L. organization: Department of Pathology, Optical Tomography Group, State University of New York, NY, 11203, United States – sequence: 3 givenname: Ahmet orcidid: 0000-0002-3773-8506 surname: Omurtag fullname: Omurtag, Ahmet email: aomurtag@uh.edu organization: Department of Biomedical Engineering, University of Houston, Houston, TX 77204, United States |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/27236081$$D View this record in MEDLINE/PubMed |
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| Copyright | 2016 Elsevier Inc. Copyright © 2016 Elsevier Inc. All rights reserved. Copyright Elsevier Limited Sep 1, 2016 |
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| Keywords | Simultaneous EEG+fNIRS Resting state Neurovascular coupling |
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| SubjectTerms | Action Potentials - physiology Adult Blood Flow Velocity - physiology Brain - physiology Brain Mapping - methods Brain research Brain Waves - physiology Cerebrovascular Circulation - physiology Electroencephalography Electroencephalography - methods Humans Male Nerve Net - physiology Neurovascular coupling Oxygen - metabolism Reproducibility of Results Researchers Rest - physiology Resting state Sensitivity and Specificity Simultaneous EEG + fNIRS Spectroscopy, Near-Infrared - methods Studies Topography |
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| Title | Hemodynamic correlates of spontaneous neural activity measured by human whole-head resting state EEG+fNIRS |
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