Binaural sound9/12/2023 A recent approach to non-invasive brain stimulation employs the concept that rhythmic magnetic or electric stimulation could entrain neural oscillations in a specific frequency band, such as gamma oscillations 7, 8.Īs an alternative to electrical stimulation, rhythmic sensory stimulation could entrain neural oscillations. Also, the stimulation may increase synaptic efficacy through stimulus-induced long-term potentiation 6 and thus facilitates neural plasticity underlying learning. It has been suggested that the electric or magnetic stimulation modulates the neural membrane potential 4 and causes inhibitory or excitatory effects depending on stimulus parameters 5. However, the underlying mechanisms are not well understood. Non-invasive brain stimulation using transcranial magnetic stimulation (TMS) and transcranial direct current stimulation (tDCS) has been shown to improve learning and training outcomes 2, 3. ![]() The current study used the attentional blink paradigm to investigate whether auditory stimulation with binaural beats during the training improves the performance in detecting a target within a rapidly presented sequence of visual stimuli. One proposed method to accelerate learning employs non-invasive brain stimulation, paired with a training task 1. Notably, the outcome of rehabilitation training could benefit from new methods for improving the efficacy of learning. However, successful training requires time and effort. Perceptual and motor skills can improve to a certain degree through training. Therefore, auditory beats stimulation is a promising method of non-invasive brain stimulation for enhancing training and learning which is well-suited to rehabilitation training. The improvement becomes evident not immediately, but after consolidation during sleep. Taken together, 40-Hz BB stimulation during training accelerates the training outcome. In contrast, group B gained more from the 40 Hz stimulation on the second day than from 16-Hz stimulation on the first day. Group A improved more after the first day than the second day. However, participants improved between sessions, with overall improvement equal in both groups. The AB performance did not increase within a session. The rhythm of the visual stimulation elicited 10-Hz oscillations in occipital MEG sensors which were of similar magnitude for both BB frequencies. MEG recordings confirmed a strong entrainment of gamma oscillations during 40-Hz BB stimulation and smaller gamma entrainment with 16-Hz BB. Group A was presented with 40-Hz BB during the first day and 16 Hz during the second day, while the order of beat frequencies was reversed in Group B. Participants were assigned into two groups and presented with BB sounds while performing the AB task on three subsequent days in a cross-over design. Binaural beats (BB) are assumed to entrain neural oscillations and support cognitive function. The AB refers to the lapse in detecting a target T2 in rapid serial visual presentation (RSVP) after the identification of a preceding target T1. Our meta-analysis adds to the growing evidence that binaural-beat exposure is an effective way to affect cognition over and above reducing anxiety levels and the perception of pain without prior training, and that the direction and the magnitude of the effect depends upon the frequency used, time under exposure, and the moment in which the exposure takes place.This study investigated whether binaural beat stimulation could accelerate the training outcome in an attentional blink (AB) task. Time under exposure contributed significantly to the model indicating that longer periods are advisable to ensure maximum effectiveness. Moreover, the findings suggest that binaural-beat exposure before, and before and during the task produces superior results than exposure during the task. Meta-regression results indicated that it does not seem to be necessary to mask binaural beats with white noise or pink noise in terms of effectiveness, obtaining similar effects with unmasked binaural beats. The results, based on 35 effect sizes, showed an overall medium, significant, consistent effect size (g = 0.45). ![]() Twenty-two studies met our inclusion criteria for this meta-analysis. ![]() The objective of this meta-analysis was to study the effect of binaural beats on memory, attention, anxiety, and analgesia. It has been suggested that binaural beats can influence cognition and mental states among others. Binaural auditory beats are a perceptual phenomenon that occurs when presenting separately to each ear two tones that slightly differ in their frequency.
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