Beware: Recruitment of Muscle Activity by the EEG-Neurofeedback Trainings of High Frequencies

Beware: Recruitment of Muscle Activity by the EEG-Neurofeedback Trainings of High Frequencies

EEG-neurofeedback (NFB) became a very popular method aimed at improving cognitive and behavioral performance. However, the EMG frequency spectrum overlies the higher EEG oscillations and the NFB trainings focusing on these frequencies is hindered by the problem of EMG load in the information fed bac...

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Published in:Frontiers in human neuroscience Vol. 11; p. 119
Main Authors: Paluch, Katarzyna, Jurewicz, Katarzyna, Rogala, Jacek, Krauz, Rafał, Szczypińska, Marta, Mikicin, Mirosław, Wróbel, Andrzej, Kublik, Ewa
Format: Journal Article
Language:English
Published: Switzerland Frontiers Research Foundation 20-03-2017
Frontiers Media S.A
Subjects:
Attention deficit hyperactivity disorder
Biofeedback
Brain research
Cognitive ability
Control algorithms
EEG
Electroencephalography
Electromyography
Feedback
Lewis, T
Muscle function
Neuroscience
Operant conditioning
Oscillations
Physical education
Physiology
Schizophrenia
Training
Traumatic brain injury
Poland
biofeedback
attention
muscle control
beta rhythm
placebo
artifacts
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Summary:EEG-neurofeedback (NFB) became a very popular method aimed at improving cognitive and behavioral performance. However, the EMG frequency spectrum overlies the higher EEG oscillations and the NFB trainings focusing on these frequencies is hindered by the problem of EMG load in the information fed back to the subjects. In such a complex signal, it is highly probable that the most controllable component will form the basis for operant conditioning. This might cause different effects in the case of various training protocols and therefore needs to be carefully assessed before designing training protocols and algorithms. In the current experiment a group of healthy adults ( = 14) was trained by professional trainers to up-regulate their beta1 (15-22 Hz) band for eight sessions. The control group ( = 18) underwent the same training regime but without rewards for increasing beta. In half of the participants trained to up-regulate beta1 band ( = 7) a systematic increase in tonic EMG activity was identified offline, implying that muscle activity became a foundation for reinforcement in the trainings. The remaining participants did not present any specific increase of the trained beta1 band amplitude. The training was perceived effective by both trainers and the trainees in all groups. These results indicate the necessity of proper control of muscle activity as a requirement for the genuine EEG-NFB training, especially in protocols that do not aim at the participants' relaxation. The specificity of the information fed back to the participants should be of highest interest to all therapists and researchers, as it might irreversibly alter the results of the training.
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Reviewed by: Felix Darvas, University of Washington, USA; José Luis Ulloa, Ghent University, Belgium
Edited by: Soledad Ballesteros, National University of Distance Education, Spain
These authors have contributed equally to this work.
ISSN:1662-5161
1662-5161
DOI:10.3389/fnhum.2017.00119