Near-infrared spectroscopy based neurofeedback training increases specific motor imagery related cortical activation compared to sham feedback

•Implementation of a real-time feedback system based on multichannel NIRS.•NIRS based neurofeedback training increases specific cortical activation.•Long-term effect of NIRS-based NF on motor imagery-related cortical activation.•Amount of benefit achieved with NF is proportional to mental imagery ab...

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Bibliographic Details
Published in:Biological psychology 2014-01, Vol.95, p.21-30
Main Authors: Kober, S.E., Wood, G., Kurzmann, J., Friedrich, E.V.C., Stangl, M., Wippel, T., Väljamäe, A., Neuper, C.
Format: Article
Language:English
Subjects:
Adult
Blood oxygenation level
Female
Humans
Imagination - physiology
Kinesthetic motor imagery
Male
Motor Cortex - physiology
Movement - physiology
Near-infrared spectroscopy
Neurofeedback
Psychomotor Performance - physiology
Spectroscopy, Near-Infrared
Young Adult
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Summary:•Implementation of a real-time feedback system based on multichannel NIRS.•NIRS based neurofeedback training increases specific cortical activation.•Long-term effect of NIRS-based NF on motor imagery-related cortical activation.•Amount of benefit achieved with NF is proportional to mental imagery abilities. In the present study we implemented a real-time feedback system based on multichannel near-infrared spectroscopy (NIRS). Prior studies indicated that NIRS-based neurofeedback can enhance motor imagery related cortical activation. To specify these prior results and to confirm the efficacy of NIRS-based neurofeedback, we examined changes in blood oxygenation level collected in eight training sessions. One group got real feedback about their own brain activity (N=9) and one group saw a playback of another person’s feedback recording (N=8). All participants performed motor imagery of a right hand movement. Real neurofeedback induced specific and focused brain activation over left motor areas. This focal brain activation became even more specific over the eight training sessions. In contrast, sham feedback led to diffuse brain activation patterns over the whole cortex. These findings can be useful when training patients with focal brain lesions to increase activity of specific brain areas for rehabilitation purpose.
ISSN:0301-0511
1873-6246
DOI:10.1016/j.biopsycho.2013.05.005