Resting-state Gamma-band EEG Abnormalities in Autism*

Gamma-band rhythmic abnormalities have been of significant interests in autism spectrum disorders (ASD). Most studies used magnetoencephalography (MEG) due to its advantage in measuring weak gamma signals as compared to electroencephalography (EEG). However, EEG is more accessible, portable, and importantly, more sensitive to cortical sources located at the crowns of gyri, than MEG. Therefore, it is extremely valuable if EEG can be used to detect gamma-band abnormalities in ASD, which could provide complementary insights on pathology of ASD. One challenge in detecting gamma-band neural activities is to remove muscular artifacts, which share the same frequency band. In the present study, we used a previously developed time-frequency independent component analysis (ICA)approach to probe EEG gamma-band abnormalities in ASD. We examined functional connectivity (FC) patterns on intrinsic connectivity networks (ICNs), i.e., the ICs representing distributed neural activities obtained from ICA, using the metrics of spectral power of individual ICNs and coherence between different ICNs. Seven ICNs that reassembled ICNs obtained from EEG data in the band of 2–30 Hz, were successfully identified in the gamma-band (31–50 Hz) data by the approach. Local over-connectivity in the bilateral frontal and left parietal ICNs, as well as long-range under-connectivity between left and right motor ICNs, were observed in ASD. In addition, the age-related effect was identified in the left motor and left parietal ICNs in healthy control, but not in ASD. These findings demonstrated a mixed pattern of gamma-band FC changes in ASD. It further indicated that the developed approach is promising in reconstructing gamma-band patterns from resting-state EEG signals.

[1]  Jean-Lon Chen,et al.  Dynamic changes of ICA‐derived EEG functional connectivity in the resting state , 2013, Human brain mapping.

[2]  John A. Sweeney,et al.  Abnormal Brain Lateralization in High-Functioning Autism , 2003, Journal of autism and developmental disorders.

[3]  Guofa Shou,et al.  Electrophysiological signatures of atypical intrinsic brain connectivity networks in autism , 2017, Journal of neural engineering.

[4]  Margot J. Taylor,et al.  Atypical resting synchrony in autism spectrum disorder , 2014, Human brain mapping.

[5]  J. Sweeney,et al.  Resting state EEG abnormalities in autism spectrum disorders , 2013, Journal of Neurodevelopmental Disorders.

[6]  Yasser Ghanbari,et al.  Joint Analysis of Band-Specific Functional Connectivity and Signal Complexity in Autism , 2015, Journal of autism and developmental disorders.

[7]  M. V. D. Heuvel,et al.  Exploring the brain network: A review on resting-state fMRI functional connectivity , 2010, European Neuropsychopharmacology.

[8]  Lisa B. Wilson,et al.  γ-band abnormalities as markers of autism spectrum disorders. , 2014, Biomarkers in medicine.

[9]  Guofa Shou,et al.  Probing neural activations from continuous EEG in a real-world task: Time-frequency independent component analysis , 2012, Journal of Neuroscience Methods.

[10]  Matti S. Hämäläinen,et al.  Altered Development and Multifaceted Band-Specific Abnormalities of Resting State Networks in Autism , 2015, Biological Psychiatry.

[11]  S. Muthukumaraswamy High-frequency brain activity and muscle artifacts in MEG/EEG: a review and recommendations , 2013, Front. Hum. Neurosci..

[12]  Evan M. Gordon,et al.  Dysmaturation of the default mode network in autism , 2014, Human brain mapping.

[13]  R. B. Reilly,et al.  FASTER: Fully Automated Statistical Thresholding for EEG artifact Rejection , 2010, Journal of Neuroscience Methods.

[14]  Anna-Maria D'Cruz,et al.  Neurobehavioral abnormalities in first-degree relatives of individuals with autism. , 2010, Archives of general psychiatry.

[15]  R. Ilmoniemi,et al.  Magnetoencephalography-theory, instrumentation, and applications to noninvasive studies of the working human brain , 1993 .

[16]  P. Jonas,et al.  Synaptic mechanisms of synchronized gamma oscillations in inhibitory interneuron networks , 2007, Nature Reviews Neuroscience.

[17]  Lei Ding,et al.  Reconstructing Large-Scale Brain Resting-State Networks from High-Resolution EEG: Spatial and Temporal Comparisons with fMRI , 2016, Brain Connect..

[18]  Cathy Craig,et al.  Sensory-motor problems in Autism , 2013, Front. Integr. Neurosci..

[19]  P. Nunez,et al.  EEG and MEG coherence: Measures of functional connectivity at distinct spatial scales of neocortical dynamics , 2007, Journal of Neuroscience Methods.

[20]  Sam Wass,et al.  Distortions and disconnections: Disrupted brain connectivity in autism , 2011, Brain and Cognition.

[21]  J. Edgar,et al.  Resting-State Oscillatory Activity in Autism Spectrum Disorders , 2012, Journal of autism and developmental disorders.

[22]  S. Makeig,et al.  Imaging human EEG dynamics using independent component analysis , 2006, Neuroscience & Biobehavioral Reviews.

[23]  C. Haselgrove,et al.  Connectivity in Autism: A Review of MRI Connectivity Studies , 2015, Harvard review of psychiatry.

[24]  Guofa Shou,et al.  Detection of EEG Spatial–Spectral–Temporal Signatures of Errors: A Comparative Study of ICA-Based and Channel-Based Methods , 2014, Brain Topography.

[25]  Robert T. Schultz,et al.  Atypical Laterality of Resting Gamma Oscillations in Autism Spectrum Disorders , 2015, Journal of autism and developmental disorders.

[26]  Lotfi Senhadji,et al.  Removal of muscle artifact from EEG data: comparison between stochastic (ICA and CCA) and deterministic (EMD and wavelet-based) approaches , 2012, EURASIP J. Adv. Signal Process..

[27]  P. Fries Neuronal gamma-band synchronization as a fundamental process in cortical computation. , 2009, Annual review of neuroscience.

[28]  N. Minshew,et al.  Pursuit eye movement deficits in autism. , 2004, Brain : a journal of neurology.

[29]  Christian O'Reilly,et al.  Is functional brain connectivity atypical in autism? A systematic review of EEG and MEG studies , 2017, PloS one.

[30]  Erol Başar,et al.  A review of gamma oscillations in healthy subjects and in cognitive impairment. , 2013, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[31]  S. Rombouts,et al.  Consistent resting-state networks across healthy subjects , 2006, Proceedings of the National Academy of Sciences.

[32]  Arnaud Delorme,et al.  EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis , 2004, Journal of Neuroscience Methods.

[33]  Tatiana A. Stroganova,et al.  Excess of High Frequency Electroencephalogram Oscillations in Boys with Autism , 2007, Biological Psychiatry.