par Chéron, Guy 
;Ristori, Dominique ;Petieau, Mathieu ;Simar, Cédric ;Zarka, David ;Cebolla Alvarez, Ana Maria
Référence Frontiers in Psychology, 13, 792872
Publication Publié, 2022-03
;Ristori, Dominique ;Petieau, Mathieu ;Simar, Cédric ;Zarka, David ;Cebolla Alvarez, Ana Maria Référence Frontiers in Psychology, 13, 792872
Publication Publié, 2022-03
Article révisé par les pairs
| Résumé : | The search for the best wellness practice has promoted the development of devices integrating different technologies and guided meditation. However, the final effects on the electrical activity of the brain remain relatively sparse. Here, we have analyzed of the alpha and theta electroencephalographic oscillations during the realization of the arrest reaction (AR; eyes close/eyes open transition) when a chromotherapy session performed in a dedicated room [Rebalance (RB) device], with an ergonomic bed integrating pulsed-wave light (PWL) stimulation, guided breathing, and body scan exercises. We demonstrated that the PWL induced an evoked-related potential characterized by the N2-P3 components maximally recorded on the fronto-central areas and accompanied by an event-related synchronization (ERS) of the delta–theta–alpha oscillations. The power of the alpha and theta oscillations was analyzed during repeated ARs testing realized along with the whole RB session. We showed that the power of the alpha and theta oscillations was significantly increased during the session in comparison to their values recorded before. Of the 14 participants, 11 and 6 showed a significant power increase of the alpha and theta oscillations, respectively. These increased powers were not observed in two different control groups (n = 28) who stayed passively outside or inside the RB room but without any type of stimulation. These preliminary results suggest that PWL chromotherapy and guided relaxation induce measurable electrical brain changes that could be beneficial under neuropsychiatric perspectives. |
