Personalized Theta and Beta Binaural Beats for Brain Entrainment: An Electroencephalographic Analysis

César E Corona-González; Luz María Alonso-Valerdi; David I Ibarra-Zarate

doi:10.3389/fpsyg.2021.764068

Personalized Theta and Beta Binaural Beats for Brain Entrainment: An Electroencephalographic Analysis

Front Psychol. 2021 Nov 11:12:764068. doi: 10.3389/fpsyg.2021.764068. eCollection 2021.

Authors

César E Corona-González¹, Luz María Alonso-Valerdi¹, David I Ibarra-Zarate¹

Affiliation

¹ Escuela de Ingeniería y Ciencias, Tecnológico de Monterrey, Monterrey, Mexico.

Abstract

Binaural beats (BB) consist of two slightly distinct auditory frequencies (one in each ear), which are differentiated with clinical electroencephalographic (EEG) bandwidths, namely, delta, theta, alpha, beta, or gamma. This auditory stimulation has been widely used to module brain rhythms and thus inducing the mental condition associated with the EEG bandwidth in use. The aim of this research was to investigate whether personalized BB (specifically those within theta and beta EEG bands) improve brain entrainment. Personalized BB consisted of pure tones with a carrier tone of 500 Hz in the left ear together with an adjustable frequency in the right ear that was defined for theta BB (since f _c for theta EEG band was 4.60 Hz ± 0.70 SD) and beta BB (since f _c for beta EEG band was 18.42 Hz ± 2.82 SD). The adjustable frequencies were estimated for each participant in accordance with their heart rate by applying the Brain-Body Coupling Theorem postulated by Klimesch. To achieve this aim, 20 healthy volunteers were stimulated with their personalized theta and beta BB for 20 min and their EEG signals were collected with 22 channels. EEG analysis was based on the comparison of power spectral density among three mental conditions: (1) theta BB stimulation, (2) beta BB stimulation, and (3) resting state. Results showed larger absolute power differences for both BB stimulation sessions than resting state on bilateral temporal and parietal regions. This power change seems to be related to auditory perception and sound location. However, no significant differences were found between theta and beta BB sessions when it was expected to achieve different brain entrainments, since theta and beta BB induce relaxation and readiness, respectively. In addition, relative power analysis (theta BB/resting state) revealed alpha band desynchronization in the parieto-occipital region when volunteers listened to theta BB, suggesting that participants felt uncomfortable. In conclusion, neural resynchronization was met with both personalized theta and beta BB, but no different mental conditions seemed to be achieved.

Keywords: EEG; beta; binaural beats; brain entrainment; theta.