Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology
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There is a growing interest in brain-computer interfaces (BCI) based on invasive technologies. fMRI is exceptionally suited for selecting implant sites since BOLD signals has been shown to correlate well spatially with electric potentials recorded from the brain surface. Previous studies show that it is possible to decode covertly directed visuospatial attention using fMRI. In the present study we increase the relevance of the fMRI analysis for surface-electrodes by only allowing voxels at the surface of the brain. ⋯ Visuospatial attention promises to be an effective target for implanted BCI systems.
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The purpose of this study was to investigate cortical lateralization of event-related (de)synchronization during left and right foot motor imagery tasks and to determine classification accuracy of the two imaginary movements in a brain-computer interface (BCI) paradigm. ⋯ By combining conventional discrimination techniques, the left-right discrimination of unilateral foot motor imagery provides a novel BCI system that could control a foot neuroprosthesis or a robotic foot.
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Contact heat evoked potentials (CHEPs) mediated by primary afferent Aδ-fibers can be recorded at the vertex. CHEPs are reduced in small fibre neuropathy and considered as a noninvasive measure of small fibre function. As long-term stability of CHEPs has not been examined, it is presently not clear if CHEPs may also be useful for following the course of small fibre neuropathy. ⋯ CHEP areas seem to be more stable over time than amplitudes or latencies, however, it remains to be determined if CHEP areas differentiate between subjects with lesions of the nociceptive system and healthy controls as reliably as CHEP amplitudes.
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When hearing perturbations in voice auditory feedback, people produce responses that mostly oppose the perturbation direction, whereas a few responses follow the direction of feedback perturbation. The causes of opposing and following responses, however, remain poorly understood. The present event-related potential (ERP) study sought to examine the neurophysiological processing of opposing and following responses to pitch feedback perturbations during self-monitoring of vocal production. ⋯ Different neural mechanisms are involved in the production of opposing and following responses to feedback perturbations during self-monitoring of vocal production.