Dominant frequencies of resting human neocortical ...dgroppe/PUBLICATIONS/groppe_sfn2011.pdfof the...
Transcript of Dominant frequencies of resting human neocortical ...dgroppe/PUBLICATIONS/groppe_sfn2011.pdfof the...
D.M. Groppe1,2,3, S. Bickel4, C. Keller1,2,3,4, L. Entz5,6, A.D. Mehta1,2,3
1Departments of Neurology and Neurosurgery, North Shore Long Island Jewish Health System; 2Feinstein Institute for Medical Research, Hofstra University School of Medicine; 3Harvey Cushing
Institutes of Neuroscience; 4Albert Einstein College of Medicine; 5Institute for Psychology of the Hungarian Academy of Sciences; 6Hungarian National Institute of Neuroscience
Questions•What are the dominant frequencies of oscillatory resting activity of different human neocortical areas as measured by the electrocorticogram (ECoG)?
•How reliable are such dominant frequencies within an individual?
Participants & Procedure•11 subjects with pharmacologically intractable epilepsy (5 female)
•Mean subject age: 32 (SD=14) years
•Two clips of ECoG recordings were taken from 24 hour clinical
recordings of each patient based on video footage of the subjects
•During each clip, patients were awake and resting, passively
watching TV, or potentially listening to the conversations of others
•Mean clip duration: 6.2 (SD=1.7) minutes
•Median time between clips: 33.8 (SIQR=25.3) hours
•~7 Hz oscillations, are generally the dominant mode of sub-13
Hz activity of the cortical areas sampled. This contradicts previous
estimates from scalp EEG the scalp which generally found
predominant ~10 Hz activity1,2 and muddies the conventional
distinction between theta and alpha bands.
•Theta peaks most reliably found in fusiform, inferior-middle temporal,
parahippocampal, lateral orbitofrontal cortex.
•Beta peaks found most reliably in middle temporal, parsopercularis,
parstriangularis, pre & post central cortex. It is not clear to what extent
these peaks are harmonics of lower frequencies
•Gamma peaks found in entorhinal cortex. May be related to
pathology
•Peaks reproduce across days and are evident in .5 min of data.
But reproducibility might be improved by better control of subject state
and environment.
Dominant frequencies of resting human neocortical oscillations as measured
by the electrocorticogram
Introduction Methods Results
Conclusions
BackgroundNeocortical electromagnetic activity often exhibits oscillations at
different frequencies. These oscillations are apparent in the activity
of the resting brain and are modulated by sensory stimulation,
behavior, and cognitive state. Previous research on humans has
found that the most dominant frequencies of these oscillations tend
varies across neocortical areas. For example, using EEG
recordings of the resting brain, Nunez et al. have found alpha
activity (8-12 Hz) to be widespread and theta activity (4-7 Hz) to be
somewhat frontally distributed1,2. Such systematic differences in
neural dynamics likely reflect differences in connectivity between
brain areas and resting function and may be a useful biomarker of
neural disorders3. However characterizing the dominant
frequencies of neocortical areas in humans has been difficult due
the poor spatial resolution of noninvasive measures of brain
electromagnetic activity.
Our StudyWe measured magnitude of neocortical oscillatory activity in the
resting brain using ECoG recordings obtained via intracranial
electrodes implanted on the surface of the brain in patients with
pharmacologically intractable epilepsy undergoing evaluation for
surgery.
ECoG Recording & Preprocessing•On average 109 (SD=10) subdural electrodes were implanted in
each subject
•ECoG recorded at 500-2000 Hz using an XLtek clinical system
•ECoG referenced to electrodes over interhemispheric fissure and
re-referenced to average reference after electrodes over ictal onset
regions or with poor contacts were rejected (leaving a mean of 88,
SD=10, usable electrodes per subject)
•Time periods in which the patient moved or that contained interictal
spikes were manually identified and rejected, leaving a mean of 5.6
(SD=1.1) minutes of data for analysis
•ECoG whitened by taking its temporal derivative to heighten
spectral power peaks
1. P. L. Nunez, B. M. Wingeier, R. B. Silberstein, Spatial-temporal structures of human
alpha rhythms: theory, microcurrent sources, multiscale measurements, and global
binding of local networks, Hum. Brain Mapp. 13, 125 (2001).
2. P. L. Nunez, L. Reid, R. G. Bickford, The relationship of head size to alpha
frequency with implications to a brain wave model, Electroencephalogr. Clin.
Neurophysiol. 44, 344 (1978).
3. D. Zhang, M. E. Raichle, Disease and the brain's dark energy, Nat. Rev. Neurol. 6, 15
(2010).
References
A B C
D E
Spectral Analysis•Segments of data divided into 1 sec epochs with 0.5 sec overlap
•Power spectrum density (PSD) for each epoch estimated with the
mean of two Slepian tapers and discrete Fourier transform
•Mean PSD for each electrode derived by taking the 5% trimmed
mean of all epochs to ignore outliers
•PSD normalized to unit area ignoring line noise frequencies and
frequencies above 164 Hz
MRI Coregistration and Cortical
Parcellation
•(A) Postimplant CT scan, (B) Manual identification of electrodes,
(C) Coregistration of CT scan to preimplant MRI, (D) Coregistration
of electrode locations to FreeSurfer pial surface, (E) Electrode
locations snapped to pial surface
•Cortical areas automatically defined by FreeSurfer using the
Desikan-Killiany atlas
1-12 Hz Peak Frequency
Mean PSD Across Subjects per Cortical Area: Shaded regions represent 95%
confidence intervals. n indicates the number of subjects contributing to each average.
Dashed lines indicate peaks.
Max Power in Bands: Mean frequency of maximal
power value in select
bands. Error bars=95% CI.
Solid lines indicate
frequency range
boundaries. Bars that differ
from boundaries indicate
PSD peaks.
13-30 Hz Peak Frequency
31-127 Hz Peak Frequency
Peak frequencies across all electrodes: Histogram of PSD
peaks across all electrodes. Blank regions indicate frequencies ignored
due to line noise. Uniform predominance of peaks above ~50 Hz reflects
residual 1/f PSD distribution.
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 1600
0.05
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Hz
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7 Hz
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Test-retest peak reliability: Mean
correlation between maximal PSD
frequencies in theta-alpha and beta bands
across the two clips of data for each patient.
Various amounts of the data in the first clip
were used to estimate the amount data
necessary to get reliable estimates.
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