EEG Source Connectivity Analysis: From Dense Array Recordings to Brain Networks

Hassan, Mahmoud; Dufor, Olivier; Merlet, Isabelle; Berrou, Claude; Wendling, Fabrice

doi:10.1371/journal.pone.0105041

Cited by 196 publications

(174 citation statements)

References 91 publications

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“…As the dependent variable we took the imaginary part of the complex-valued coherence in order to minimize the effect of volume conduction on the estimation of true functional connectivity (Nolte et al, 2004;Mehrkanoon et al, 2014a). Using only the imaginary part reduces the effect of source leakage on functional connectivity, as volume conduction (and hence source leakage) results in spurious correlations with a zero time (and phase) lag (see also Nolte et al (2004);Hassan et al (2014)). …”

Section: Discussionmentioning

confidence: 99%

“…In addition, the distance between voxels located in the cerebellum and the closest EEG electrodes is between 1−7 cm, which is similar to the distance between voxels in the occipital cortex and EEG sensors and not as deep as many other subcortical structures. Future work could employ higher-density EEG (128-256 channel caps) together with a realistic head model derived from individual MRIs in order to more accurately identify the cerebellar contributions to cortico-cerebellar functional connectivity in motor learning (Hassan et al, 2014). Indeed, several studies have revealed oscillatory MEG activity originating from the cerebellum in the theta, alpha and beta bands (Gross et al, 2002;Pollok et al, 2009;Jerbi et al, 2007;Fujioka et al, 2012;Dalal et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

“…Given that both the spatial and spectral pattern of increased connectivity observed in this study is consistent with existing literature, these findings confirm the ability to measure cerebellar connectivity using source-reconstructed EEG. To improve electric source imaging analyses, it is hence suggested to use high-density EEG (128-256 channel caps) with realistic head models derived from individual MRIs (Hassan et al, 2014). We examined the PSDs of occipital EEG signals and voxels' signals in the cerebellum to clarify the specificity of the results against the potential effects of muscu-lar artifacts on the observed changes in functional connectivity (see supplementary material).…”

Section: Discussionmentioning

confidence: 99%

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Upregulation of cortico-cerebellar functional connectivity after motor learning

et al. 2016

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Interactions between the cerebellum and primary motor cortex are crucial for the acquisition of new motor skills. Recent neuroimaging studies indicate that learning motor skills is associated with subsequent modulation of resting-state functional connectivity in the cerebellar and cerebral cortices. The neuronal processes underlying the motor-learning induced plasticity are not well understood. Here, we investigate changes in functional connectivity in source-reconstructed electroencephalography (EEG) following the performance of a single session of a dynamic force task in twenty young adults. Source activity was reconstructed in 112 regions of interest (ROIs) and the functional connectivity between all ROIs was estimated using imaginary part of the coherence. Significant changes in resting-state connectivity were assessed using partial least squares (PLS). We found that subjects adapted their motor performance during the training session and showed improved accuracy but with slower movement times. A number of connections were significantly upregulated after motor training, principally involving connections within the cerebellum and between the cerebellum and motor cortex. Increased connectivity was confined to specific frequency ranges in the mu and beta bands. Post-hoc analysis of the phase spectra of these cerebellar and corticocerebellar connections revealed an increased phase-lag between motor cortical and cerebellar activity following motor practice. These findings show a reorganization of intrinsic corticocerebellar connectivity related to motor adaption and demonstrate the potential of EEG connectivity analysis in source-space to reveal the neuronal processes that underpin neural plasticity.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Upregulation of cortico-cerebellar functional connectivity after motor learning

et al. 2016

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“…Functional connectivity matrices were calculated using method called 'EEG source connectivity' [13,14]. It includes two main steps: i) solving the EEG inverse problem to reconstruct regional time series and ii) measuring the statistical couplings, functional connectivity, between these reconstructed regional time series.…”

Section: B Functional Networkmentioning

confidence: 99%

Brain network modules of meaningful and meaningless objects

Rizkallah

Benquet

Wendling

et al. 2016

2016 3rd Middle East Conference on Biomedical Engineering (MECBME)

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Abstract-Network modularity is a key feature for efficient information processing in the human brain. This information processing is however dynamic and networks can reconfigure at very short time period (few hundreds of millisecond). This requires neuroimaging techniques with sufficient time resolution. Here we use the dense electroencephalography (EEG) source connectivity methods to identify cortical networks with excellent time resolution (in the order of millisecond). We identify functional networks during picture naming task. Two categories of visual stimuli were presented: meaningful (tools, animals…) and meaningless (scrambled) objects.In this paper, we report the reconfiguration of brain network modularity for meaningful and meaningless objects. Results showed mainly that networks of meaningful objects were more modular than those of meaningless objects. Networks of the ventral visual pathway were activated in both cases; however a strong occipito-temporal functional connectivity appeared for meaningful object but not for meaningless object. We believe that this approach will give new insights into the dynamic behavior of the brain networks during fast information processing.

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“…Potentials of these experimental and theoretical approaches still remain elusive. Some recent studies [13][14][15] imply that EEG imaging supplemented by proper nonlinear analysis can detect changes in the emotional states of the brain that play an important role in traversing from the social brain functions to social networking [16].…”

Section: Introductionmentioning

confidence: 99%

Origin of Hyperbolicity in Brain-to-Brain Coordination Networks

Tadić¹,

Andjelković²,

Šuvakov³

2018

Front. Phys.

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Hyperbolicity or negative curvature of complex networks is the intrinsic geometric proximity of nodes in the graph metric space, which implies an improved network function. Here, we investigate hidden combinatorial geometries in brain-to-brain coordination networks arising through social communications. The networks originate from correlations among EEG signals previously recorded during spoken communications comprising of 14 individuals with 24 speaker-listener pairs. We find that the corresponding networks are δ-hyperbolic with δ max = 1 and the graph diameter D = 3 in each brain. While the emergent hyperbolicity in the two-brain networks varies satisfying δ max /D/2 ≤ 1 and can be attributed to the topology of the subgraph formed around the cross-brains linking channels. We identify these subgraphs in each studied two-brain network and decompose their structure into simple geometric descriptors (triangles, tetrahedra and cliques of higher orders) that contribute to hyperbolicity. Considering topologies that exceed two separate brain networks as a measure of coordination synergy between the brains, we identify different neural correlation patterns ranging from weak coordination to super-brain structure. These topology features are in qualitative agreement with the listener's self-reported ratings of own experience and quality of the speaker, suggesting that studies of the cross-brain connector networks can reveal new insight into the neural mechanisms underlying human social behavior.

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EEG Source Connectivity Analysis: From Dense Array Recordings to Brain Networks

Cited by 196 publications

References 91 publications

Upregulation of cortico-cerebellar functional connectivity after motor learning

Upregulation of cortico-cerebellar functional connectivity after motor learning

Brain network modules of meaningful and meaningless objects

Origin of Hyperbolicity in Brain-to-Brain Coordination Networks

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