Evelyn Eger scite author profile

We assessed the relation between hemodynamic and electrical indices of brain function by performing simultaneous functional MRI (fMRI) and electroencephalography (EEG) in awake subjects at rest with eyes closed. Spontaneous power fluctuations of electrical rhythms were determined for multiple discrete frequency bands, and associated fMRI signal modulations were mapped on a voxelby-voxel basis. There was little positive correlation of localized brain activity with alpha power (8 -12 Hz), but strong and widespread negative correlation in lateral frontal and parietal cortices that are known to support attentional processes. Power in a 17-23 Hz range of beta activity was positively correlated with activity in retrosplenial, temporo-parietal, and dorsomedial prefrontal cortices. This set of areas has previously been characterized by high but coupled metabolism and blood flow at rest that decrease whenever subjects engage in explicit perception or action. The distributed patterns of fMRI activity that were correlated with power in different EEG bands overlapped strongly with those of functional connectivity, i.e., intrinsic covariations of regional activity at rest. This result indicates that, during resting wakefulness, and hence the absence of a task, these areas constitute separable and dynamic functional networks, and that activity in these networks is associated with distinct EEG signatures. Taken together with studies that have explicitly characterized the response properties of these distributed cortical systems, our findings may suggest that alpha oscillations signal a neural baseline with ''inattention'' whereas beta rhythms index spontaneous cognitive operations during conscious rest.electroencephalography ͉ human brain ͉ spontaneous activity ͉ functional magnetic resonance imaging ͉ blood oxygenation-leveldependent contrast

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EEG-correlated fMRI of human alpha activity

Laufs

et al. 2003

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A Supramodal Number Representation in Human Intraparietal Cortex

Eger

Sterzer

Russ

et al. 2003

Neuron

400

336

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The triple-code theory of numerical processing postulates an abstract-semantic "number sense." Neuropsychology points to intraparietal cortex as a potential substrate, but previous functional neuroimaging studies did not dissociate the representation of numerical magnitude from task-driven effects on intraparietal activation. In an event-related fMRI study, we presented numbers, letters, and colors in the visual and auditory modality, asking subjects to respond to target items within each category. In the absence of explicit magnitude processing, numbers compared with letters and colors across modalities activated a bilateral region in the horizontal intraparietal sulcus. This stimulus-driven number-specific intraparietal response supports the idea of a supramodal number representation that is automatically accessed by presentation of numbers and may code magnitude information.

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Deciphering Cortical Number Coding from Human Brain Activity Patterns

Eger¹,

Michel²,

Thirion³

et al. 2009

Current Biology

205

233

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Our findings demonstrate partial format invariance of individual number codes that is compatible with more numerous but more broadly tuned populations for nonsymbolic than for symbolic numbers, as postulated by recent computational models. In more general terms, our results illustrate the potential of functional magnetic resonance imaging pattern recognition to understand the detailed format of representations within a single semantic category, and beyond sensory cortical areas for which columnar architectures are well established.

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Evelyn Eger

Electroencephalographic signatures of attentional and cognitive default modes in spontaneous brain activity fluctuations at rest

EEG-correlated fMRI of human alpha activity

A Supramodal Number Representation in Human Intraparietal Cortex

Deciphering Cortical Number Coding from Human Brain Activity Patterns

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