Neurofeedback training is a relatively well-known procedure for enhancing cognitive functions and alleviating neuro-psychological disorders. However, its efficacy as stress self-management therapy remains unexplored. In this work, we evaluated the effect of melomindTM, a portable, user-friendly neurofeedback system on the perceived stress of 8 subjects in their work context.
The program included 8 neurofeeedback sessions of 21 minutes each for 1 month (2 per week). Neurofeedback exercises consisted in hearing natural landscape sounds with a superimposed sound modulated in real-time by user's alpha waves. For each session, two-channel electroencephalography (EEG) from parietal positions and stress auto-evaluation questionnaires were collected.
EEG signals were band-pass filtered between 2 and 30 Hz and segmented in 1-second windows. Artefactual segments were identified and automatically removed using a machine learning patented algorithm by myBrain Technologies, that was trained using a database containing thousands of examples of contaminated EEG. Several features, aiming at characterizing changes after the neurofeedback program, were then extracted from clean segments [1, 2].
Perceived stress was assessed by a numeric scale between 0 (full-relaxed) and 10 (full-stressed). This perceived stress was significantly lower both after each session and at the end of the program (51% of decrease in average). Furthermore, the analysis of EEG revealed significant changes regarding certain features in theta (4-8 Hz), alpha1 (7-10 Hz), alpha2 (10-13 Hz) and beta1 (13-18 Hz) bands.
These results suggest that a low-cost portable neurofeedback system as melomindTM can be successfully used for stress self-management in any environment.
References:
[1] Moura, A., Lopez, S., Obeid, I., & Picone, J. (2015, December). A comparison of feature extraction methods for EEG signals. In Signal Processing in Medicine and Biology Symposium (SPMB), 2015 IEEE (pp. 1-2). IEEE.
[2] Temko, A., Nadeu, C., Marnane, W., Boylan, G., & Lightbody, G. (2011, June). EEG Signal Description with Spectral-Envelope-Based Speech Recognition Features for Detection of Neonatal Seizures. In Transactions on Information Technology in Biomedicine: A Publication of the IEEE Engineering in Medicine and Biology Society, 15(6), 839–847.
| Subject : | : | poster |
| Topics | : | |
| Keywords | : | EEG ; neurofeedback ; stress ; signal processing ; melomindTM |
| PDF version | : |  PDF version |
