Factor structure of the human gamma band oscillatory response to visual (contrast) stimulation
Visual contrast stimulation evokes in man an oscillatory mass response at ∼20.0–35.0 Hz, consistent with stimulus-dependent synchronous oscillations in multiunit animal recordings from visual cortex, but shorter in duration and phase-locked to stimulus. A factor analysis was applied to characterize...
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| Published in | Clinical Neurophysiology Vol. 115; no. 7; pp. 1669 - 1676 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Shannon
Elsevier Ireland Ltd
01.07.2004
Elsevier BV Elsevier Science |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1388-2457 1872-8952 |
| DOI | 10.1016/j.clinph.2004.02.025 |
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| Abstract | Visual contrast stimulation evokes in man an oscillatory mass response at ∼20.0–35.0 Hz, consistent with stimulus-dependent synchronous oscillations in multiunit animal recordings from visual cortex, but shorter in duration and phase-locked to stimulus. A factor analysis was applied to characterize the signal structure under stimulus conditions inducing an oscillatory response and to identify possible subcomponents in normal volunteers.
Contrast stimuli were gratings with a sinusoidal luminance profile (9.0°; 5.0
cycle/degree; 80% contrast; reversal 1.06 Hz). The amplitude spectrum of the signal was computed by Discrete Fourier Transform (DFT) and the oscillatory response was separated from the corresponding visually evoked potential (VEP) by DFT high-pass filter at 19.0 Hz. Nine consecutive waves were identified in all subjects (60 volunteers), with amplitudes/latencies consistent with normative studies. A factor analysis was computed 1- in the frequency domain, on the amplitude values of the signal components (2 Hz resolution), and 2- in the time domain, on the latencies/amplitudes of the averaged VEP and oscillatory responses.
(1) Two non-overlapping factors accounted for the ∼2–20.0 and ∼20.0–40.0 Hz signal components, with separation of the ∼20.0–35.0 Hz oscillatory response from low frequency VEPs. (2) Two factors on latencies and one factor on amplitudes (independent of each other and from those of VEPs) accounted for the average ∼20.0–35.0 Hz oscillatory response.
The factor structure further indicates an oscillatory structure and some independence from conventional VEPs of the human oscillatory response to contrast, with a separation between the oscillatory response early and late waves possibly reflecting functional differences. |
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| AbstractList | Visual contrast stimulation evokes in man an oscillatory mass response at ∼20.0–35.0 Hz, consistent with stimulus-dependent synchronous oscillations in multiunit animal recordings from visual cortex, but shorter in duration and phase-locked to stimulus. A factor analysis was applied to characterize the signal structure under stimulus conditions inducing an oscillatory response and to identify possible subcomponents in normal volunteers.
Contrast stimuli were gratings with a sinusoidal luminance profile (9.0°; 5.0
cycle/degree; 80% contrast; reversal 1.06 Hz). The amplitude spectrum of the signal was computed by Discrete Fourier Transform (DFT) and the oscillatory response was separated from the corresponding visually evoked potential (VEP) by DFT high-pass filter at 19.0 Hz. Nine consecutive waves were identified in all subjects (60 volunteers), with amplitudes/latencies consistent with normative studies. A factor analysis was computed 1- in the frequency domain, on the amplitude values of the signal components (2 Hz resolution), and 2- in the time domain, on the latencies/amplitudes of the averaged VEP and oscillatory responses.
(1) Two non-overlapping factors accounted for the ∼2–20.0 and ∼20.0–40.0 Hz signal components, with separation of the ∼20.0–35.0 Hz oscillatory response from low frequency VEPs. (2) Two factors on latencies and one factor on amplitudes (independent of each other and from those of VEPs) accounted for the average ∼20.0–35.0 Hz oscillatory response.
The factor structure further indicates an oscillatory structure and some independence from conventional VEPs of the human oscillatory response to contrast, with a separation between the oscillatory response early and late waves possibly reflecting functional differences. Visual contrast stimulation evokes in man an oscillatory mass response at approximately 20.0-35.0 Hz, consistent with stimulus-dependent synchronous oscillations in multiunit animal recordings from visual cortex, but shorter in duration and phase-locked to stimulus. A factor analysis was applied to characterize the signal structure under stimulus conditions inducing an oscillatory response and to identify possible subcomponents in normal volunteers. Contrast stimuli were gratings with a sinusoidal luminance profile (9.0 degrees; 5.0 cycle/degree; 80% contrast; reversal 1.06 Hz). The amplitude spectrum of the signal was computed by Discrete Fourier Transform (DFT) and the oscillatory response was separated from the corresponding visually evoked potential (VEP) by DFT high-pass filter at 19.0 Hz. Nine consecutive waves were identified in all subjects (60 volunteers), with amplitudes/latencies consistent with normative studies. A factor analysis was computed 1- in the frequency domain, on the amplitude values of the signal components (2 Hz resolution), and 2- in the time domain, on the latencies/amplitudes of the averaged VEP and oscillatory responses. (1) Two non-overlapping factors accounted for the approximately 2-20.0 and approximately 20.0-40.0 Hz signal components, with separation of the approximately 20.0-35.0 Hz oscillatory response from low frequency VEPs. (2) Two factors on latencies and one factor on amplitudes (independent of each other and from those of VEPs) accounted for the average approximately 20.0-35.0 Hz oscillatory response. The factor structure further indicates an oscillatory structure and some independence from conventional VEPs of the human oscillatory response to contrast, with a separation between the oscillatory response early and late waves possibly reflecting functional differences. OBJECTIVEVisual contrast stimulation evokes in man an oscillatory mass response at approximately 20.0-35.0 Hz, consistent with stimulus-dependent synchronous oscillations in multiunit animal recordings from visual cortex, but shorter in duration and phase-locked to stimulus. A factor analysis was applied to characterize the signal structure under stimulus conditions inducing an oscillatory response and to identify possible subcomponents in normal volunteers.METHODSContrast stimuli were gratings with a sinusoidal luminance profile (9.0 degrees; 5.0 cycle/degree; 80% contrast; reversal 1.06 Hz). The amplitude spectrum of the signal was computed by Discrete Fourier Transform (DFT) and the oscillatory response was separated from the corresponding visually evoked potential (VEP) by DFT high-pass filter at 19.0 Hz. Nine consecutive waves were identified in all subjects (60 volunteers), with amplitudes/latencies consistent with normative studies. A factor analysis was computed 1- in the frequency domain, on the amplitude values of the signal components (2 Hz resolution), and 2- in the time domain, on the latencies/amplitudes of the averaged VEP and oscillatory responses.RESULTS(1) Two non-overlapping factors accounted for the approximately 2-20.0 and approximately 20.0-40.0 Hz signal components, with separation of the approximately 20.0-35.0 Hz oscillatory response from low frequency VEPs. (2) Two factors on latencies and one factor on amplitudes (independent of each other and from those of VEPs) accounted for the average approximately 20.0-35.0 Hz oscillatory response.CONCLUSIONSThe factor structure further indicates an oscillatory structure and some independence from conventional VEPs of the human oscillatory response to contrast, with a separation between the oscillatory response early and late waves possibly reflecting functional differences. |
| Author | Carozzo, Simone De Carli, Fabrizio Garbarino, Sergio Sannita, Walter G Beelke, Manolo Saturno, Moreno Martello, Cristina |
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| CitedBy_id | crossref_primary_10_1007_s10633_023_09921_2 crossref_primary_10_1016_j_yebeh_2008_01_011 crossref_primary_10_1016_j_visres_2009_01_018 crossref_primary_10_1016_j_clinph_2005_02_010 crossref_primary_10_1027_0269_8803_a000110 crossref_primary_10_1111_j_1468_2982_2007_01466_x crossref_primary_10_1177_155005940603700209 crossref_primary_10_1016_j_brainres_2006_04_069 crossref_primary_10_1016_j_ijpsycho_2005_11_002 |
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| Keywords | Oscillatory potentials Pattern VEP Healthy volunteers Factor analysis Gamma band response Vision Contrast stimulation Human Visual cortex Gamma rhythm Central nervous system Electrophysiology Visual evoked potential pattern Synchronization Contrast Encephalon Time resolution Visual stimulus Visual pathway Oscillation |
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| Snippet | Visual contrast stimulation evokes in man an oscillatory mass response at ∼20.0–35.0 Hz, consistent with stimulus-dependent synchronous oscillations in... Visual contrast stimulation evokes in man an oscillatory mass response at approximately 20.0-35.0 Hz, consistent with stimulus-dependent synchronous... OBJECTIVEVisual contrast stimulation evokes in man an oscillatory mass response at approximately 20.0-35.0 Hz, consistent with stimulus-dependent synchronous... |
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| SubjectTerms | Adult Biological and medical sciences Contrast Sensitivity Contrast Sensitivity - physiology Contrast stimulation Electroencephalography Evoked Potentials, Visual Eye and associated structures. Visual pathways and centers. Vision Factor analysis Factor Analysis, Statistical Fourier Analysis Fundamental and applied biological sciences. Psychology Gamma band response Healthy volunteers Humans Oscillatory potentials Oscillometry Pattern VEP Photic Stimulation Photic Stimulation - methods Reaction Time Reference Values Vertebrates: nervous system and sense organs Vision |
| Title | Factor structure of the human gamma band oscillatory response to visual (contrast) stimulation |
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