Gabriel Curio, Prof. Dr. med.

Affiliations: 
Neurophysics Group, Dept. of Neurology Charité - Universitätsmedizin Berlin, Germany 
Area:
Clinical Neurophysiology, Brain-Computer Interfaces
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"Gabriel Curio"
Mean distance: 14.98 (cluster 17)
 
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Publications

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Teleńczuk B, Kempter R, Curio G, et al. (2017) Refractoriness Accounts for Variable Spike Burst Responses in Somatosensory Cortex. Eneuro. 4
Waterstraat G, Scheuermann M, Curio G. (2015) Non-invasive single-trial detection of variable population spike responses in human somatosensory evoked potentials. Clinical Neurophysiology : Official Journal of the International Federation of Clinical Neurophysiology
Wenzel MA, Schultze-Kraft R, Meinecke FC, et al. (2015) EEG-based usability assessment of 3D shutter glasses. Journal of Neural Engineering. 13: 016003
Sturm I, Dähne S, Blankertz B, et al. (2015) Multi-Variate EEG Analysis as a Novel Tool to Examine Brain Responses to Naturalistic Music Stimuli. Plos One. 10: e0141281
Schaworonkow N, Blythe DA, Kegeles J, et al. (2015) Power-law dynamics in neuronal and behavioral data introduce spurious correlations. Human Brain Mapping. 36: 2901-14
Hohlefeld FU, Ehlen F, Tiedt HO, et al. (2015) Correlation between cortical and subcortical neural dynamics on multiple time scales in Parkinson's disease. Neuroscience. 298: 145-60
Acqualagna L, Bosse S, Porbadnigk AK, et al. (2015) EEG-based classification of video quality perception using steady state visual evoked potentials (SSVEPs). Journal of Neural Engineering. 12: 026012
Götz T, Milde T, Curio G, et al. (2015) Primary somatosensory contextual modulation is encoded by oscillation frequency change. Clinical Neurophysiology : Official Journal of the International Federation of Clinical Neurophysiology
Fedele T, Scheer HJ, Burghoff M, et al. (2015) Ultra-low-noise EEG/MEG systems enable bimodal non-invasive detection of spike-like human somatosensory evoked responses at 1 kHz. Physiological Measurement. 36: 357-68
von Carlowitz-Ghori K, Bayraktaroglu Z, Waterstraat G, et al. (2015) Voluntary control of corticomuscular coherence through neurofeedback: a proof-of-principle study in healthy subjects. Neuroscience. 290: 243-54
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