Brainwave Entrainment Research Articles

Analysis of EEG activity in response to binaural beats with different frequencies

When two coherent sounds with nearly similar frequencies are presented to each ear respectively with stereo headphones, the brain integrates the two signals and produces a sensation of a third sound called binaural beat (BB). Although earlier studies showed that BB could influence behavior and cognition, common agreement on the mechanism of BB has not been reached yet. In this work, we employed Relative Power (RP), Phase Locking Value (PLV) and Cross-Mutual Information (CMI) to track EEG changes during BB stimulations. EEG signals were acquired from 13 healthy subjects. Five-minute BBs with four different frequencies were tested: delta band (1Hz), theta band (5Hz), alpha band (10Hz) and beta band (20Hz). We observed RP increase in theta and alpha bands and decrease in beta band during delta and alpha BB stimulations. RP decreased in beta band during theta BB, while RP decreased in theta band during beta BB. However, no clear brainwave entrainment effect was identified. Connectivity changes were detected following the variation of RP during BB stimulations. Our observation supports the hypothesis that BBs could affect functional brain connectivity, suggesting that the mechanism of BB–brain interaction is worth further study.

Efficiency of brainwave entrainment by binaural beats in reducing anxiety

Background: Anxiety is a fundamental phenomenon that is a common symptom in all mental disorders. The aim of the present study was to assess the effect of brainwave entrainment on anxiety reduction using binaural beats. Methods: In this experimental double-blind study, 30 employees were selected from an engineering research firm through random sampling and replacement and divided into two groups: control group and experimental group. All participants completed the Spielberger’s State-Trait Anxiety Inventory (STAI). Then, the experimental group listened to binaural beats which was recorded on a non-vocal piece of music for 4 weeks, 3 sessions each week. Each session lasted about 20 minutes. At the same time, the control group listened to the background music without any entrainment sound. At the end, both groups completed the anxiety questionnaire and the anxiety scores of both groups obtained before and after intervention were analyzed by ANCOVA. Results: The findings showed that the brainwave entrainment using binaural beats led to the significant reduction of state anxiety (P<0.001) and trait anxiety (P<0.018). Conclusion: Brainwave entrainment using binaural beats is an effective factor in decreasing state and trait anxiety; so, it can be used to reduce anxiety in mental health centers.

An Electro-Acoustic Implementation of Tibetan Bowls: Acoustics and Perception

Tibetan singing bowls are employed worldwide for meditation, music, relaxation, personal wellbeing, and religious practices. Each Tibetan bowl can produce a limited number of sounds, defined by the size and material of the bowl, and the actuator device used. Usually, there is a need for a second person to actuate the bowl. Addressing these limitations, we built an electronic device, named eBowl, which can mimic the acoustics of Tibetan bowls, and beyond that, can produce a wide range of other sounds. Furthermore, it can be used for relaxation and sound massage without the need for a second person. The eBowl generates auditory beats that are in EEG alpha frequency range, which can cause brainwave entrainment and lead to relaxation. User tests measuring physiological parameters revealed the eBowl's effectiveness for relaxation, showing that eBowl influences skin conductance, heart rate, and respiration rate and induces relaxation.

A Fast Fourier Transform Analysis of Time Series Data of Heart Rate Variability During Alfa-Rhythm Stimulation in Brain Entrainment

It is well known that the decrease of the Heart Rate Variability (HRV) is related to a number of important pathologies involving cardiovascular system as well as psychological and psychiatric disorders. In such case a prompt recover of HRV and, in particular, of parasympathetic modulation is required in the ANS (Autonomic Nervous System). In order to pursue this objective in the present paper. The physical technique of the brain entrainment has been used. We have recorded R-R time intervals estimated from the QRS complex in the ECG. One time the R-R signal has been recorded during rest condition of the subject and the second time during alpha brain stimulation. The following step has been to analyze the data performing the Fast Fourier Analysis that is able to quantify the ANS activity of modulation on heart rhythm. We have found that, respect to the rest case, alpha brain stimulation induces a constant improvement in the total power spectral density (and thus induces an increase in total heart rhythm variability) and in particular in the parasympathetic (HF) band spectrum. The result is of interest for further consideration by clinicians and researchers of brainwave entrainment (BWE) as basic therapeutic tool in a so serious field of neurology and related pathologies. NeuroQuantology | September 2013 | Volume 11 | Issue 3 | Page 410-415

Brainwave entrainment for better sleep and post-sleep state of young elite soccer players – A pilot study

The effect of sleep deprivation on psychophysical performance and well-being is comprehensively investigated. Research investigating the effect of improved sleep is rare. Just as little exists about attempts to support athletic mental state and performance by improving sleep quality. This study aims to investigate whether sleep quality of top athletes can be improved by auditory brainwave entrainment and whether this leads to enhancements of post-sleep psychophysical states. In a pilot study, 15 young elite soccer players were stimulated for eight weeks during sleep with binaural beats around 2–8 Hz. Once a week after wake-up, participants completed three different questionnaires: a sleep diary, an adjective list for psychophysical and motivational state, and a self-assessment questionnaire for sleep and awakening quality. Fifteen sport students executed the same protocol sleeping on the same pillow, but without stimulation. Subjective ratings of sleep and awakening quality, sleepiness and motivational state were significantly improved only in the intervention group, but did not impact their perceived physical state. In summary, eight weeks of auditory stimulation with binaural beats improved perceived sleep quality and the post-sleep state of athletes, whereas the effect on physical level is assumed to occur in a time-delayed fashion. It seems to be worthwhile – to further elaborate long-time effects and consequences on physical and mental performance.

Entrainment and the Motor System

What is Entrainment?In 1666, the Dutch physicist Christian Huygens, the inventor of the pendulum clock, discovered that the pendulum frequencies of two clocks mounted on the same wall or board became synchronized to each other. He surmised that the vibrations of air molecules would transmit small amounts of energy from one pendulum to the other and synchronize them to a common frequency. However, when set on different surfaces, the synchronization effect disappeared. As it turned out, the transmitting medium was actually the vibrating board or wall. For air molecule vibrations there would have been too much dampening of the energy transmission, as was later discovered. The effect he observed was subsequently confirmed by many other experiments and was called entrainment. In entrainment the different amounts of energy transferred between the moving bodies due to the asynchronous movement periods cause negative feedback. This feedback drives an adjustment process in which the energy is gradually eliminated to zero until both moving bodies move in resonant frequency or synchrony. The stronger 'oscillator' locks the weaker into its frequency. When both are equally strong, the faster system slows down and the slower system speeds up until they lock into a common movement period (Pantaleone, 2002).Technically, entrainment in physics refers to the frequency locking of two oscillating bodies, that is, bodies that can move in stable periodic or rhythmic cycles. They have different frequencies or movement periods when moving independently, but when interacting they assume a common period. Incidentally, Huygens' pendulums assumed a common period 180 degrees out of phase, which he humorously called 'odd sympathy.' It is now known that entrainment can occur in various phase relationships of the movement onsets of the oscillating bodies-often one can observe a stable phase relationship between the two bodies. A stable phase relationship is achieved when both bodies start and stop their movement period at the same time. However, this is not a necessary prerequisite for entrainment to occur. The deciding factor for entrainment is the common period of the oscillating movements of the two bodies. This phenomenon is of considerable importance for clinical applications of rhythmic entrainment in motor rehabilitation (Kugler & Turvey, 1987; Thaut, Bin, & Azimi-Sadjadi, 1998).Entrainment is a common phenomenon in the physical world-for example, coupled oscillators, fluid waves, and so on. Entrainment also occurs in nature, for example, fireflies flashing their light signal, or circadian rhythms entraining to light-dark cycle within the 24-hour day period. Unfortunately, the term entrainment is often also used loosely connected to many unrelated claims-usually in the context of claims for health or healing-with little or no scientific evidence, for example, brain wave entrainment, altered states of consciousness, trance, drum circles, or binaural beat entrainment. Therefore, it is important for the clinician who follows an evidence-based intervention model to check the scientific validity for therapeutic claims.The Auditory System and Rhythm PerceptionThe ability of the auditory system to rapidly construct stable temporal templates is well known (Thaut & Kenyon, 2003). The auditory system is superbly constructed to detect temporal patterns in auditory signals with extreme precision and speed, as required by the nature of sound as only existing in temporal vibration patterns (Moore, 2003). The auditory system is faster and more precise than the visual and tactile systems (Shelton & Kumar, 2010). Since sound waves that are most important for speech and music and other perceptual tasks are based on periodic motions that repeat themselves in regularly recurring cycles, the auditory system is also perceptually geared towards detecting and constructing rhythmic sound patterns. However, the observation of timing in the auditory system does not stop its function there. …

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A High-Density EEG Investigation into Steady State Binaural Beat Stimulation

Binaural beats are an auditory phenomenon that has been suggested to alter physiological and cognitive processes including vigilance and brainwave entrainment. Some personality traits measured by the NEO Five Factor Model have been found to alter entrainment using pulsing light stimuli, but as yet no studies have examined if this occurs using steady state presentation of binaural beats for a relatively short presentation of two minutes. This study aimed to examine if binaural beat stimulation altered vigilance or cortical frequencies and if personality traits were involved. Thirty-one participants were played binaural beat stimuli designed to elicit a response at either the Theta (7 Hz) or Beta (16 Hz) frequency bands while undertaking a zero-back vigilance task. EEG was recorded from a high-density electrode cap. No significant differences were found in vigilance or cortical frequency power during binaural beat stimulation compared to a white noise control period. Furthermore, no significant relationships were detected between the above and the Big Five personality traits. This suggests a short presentation of steady state binaural beats are not sufficient to alter vigilance or entrain cortical frequencies at the two bands examined and that certain personality traits were not more susceptible than others.

Combined Brainwave Synchronizer with Progressive Muscle Relaxation on the Maintained Hemodialysis Patients: A Randomly Controlled Study

Mental problems have profound influence on the development and transfer of illness of the maintained hemodialysis (MHD) patients in the past study. The goal of this pilot study was to explore the effects of psychological intervention which combined brainwave synchronizer with progressive muscle relaxation (PMR) on the mental health, physiological function and quality-of-life (QOL) of MHD patients. Seventy-seven MHD patients were randomly assigned to the intervention group (ITG, 39 patients) or the control group (CTG, 38 patients). The CTG received the conventional therapy which included hemodialysis (HD) 3 times/week and recombinant human erythropoietin (rHuEPO) at dosages of 100 units/(kg·week-1) to 150 unites/(kg·week-1) by i.v or subcutaneous injection. The ITG received the conventional therapy combined with psychological intervention, which included brainwave synchronizer and PMR. Psychological and QOL outcomes in both groups were assessed with The Symptom Checklist 90 (SCL-90) and the Short Form 36 Health survey Questionnaire (SF-36) three days before and after the intervention, respectively. And blood routing and kidney functions indexes were tested with hematic parameter at the same time. Two-tailed independent samplettest andχ2test were performed. Thirty-six patients of the ITG and 34 patients of the CTG completed the study. The patients in the ITG showed better mental state, higher global QOL and higher values of heamoglobin (HB), accounting of red blood cells (RBC), hematocrit (HCT) and serum calcium, lower values of serum phosphor, serum kalium, blood urea nitrogen (BUN) before HD and the ratio of interdialytic weight gain to dry weight (IWGR) than those in the CTG. There is no significant difference in serum creatinine (Scr) before HD between both groups. Psychological intervention seems effective in improving MHD patients’ mental state, increasing their compliance to treatment, and mending their physiological function and QOL.

Classification of patterns of EEG synchronization for seizure prediction

Research in seizure prediction from intracranial EEG has highlighted the usefulness of bivariate measures of brainwave synchronization. Spatio-temporal bivariate features are very high-dimensional and cannot be analyzed with conventional statistical methods. Hence, we propose state-of-the-art machine learning methods that handle high-dimensional inputs. We computed bivariate features of EEG synchronization (cross-correlation, nonlinear interdependence, dynamical entrainment or wavelet synchrony) on the 21-patient Freiburg dataset. Features from all channel pairs and frequencies were aggregated over consecutive time points, to form patterns. Patient-specific machine learning-based classifiers (support vector machines, logistic regression or convolutional neural networks) were trained to discriminate interictal from preictal patterns of features. In this explorative study, we evaluated out-of-sample seizure prediction performance, and compared each combination of feature type and classifier. Among the evaluated methods, convolutional networks combined with wavelet coherence successfully predicted all out-of-sample seizures, without false alarms, on 15 patients, yielding 71% sensitivity and 0 false positives. Our best machine learning technique applied to spatio-temporal patterns of EEG synchronization outperformed previous seizure prediction methods on the Freiburg dataset. By learning spatio-temporal dynamics of EEG synchronization, pattern recognition could capture patient-specific seizure precursors. Further investigation on additional datasets should include the seizure prediction horizon.

Brain wave synchronization and entrainment to periodic acoustic stimuli

As known, different brainwave frequencies show synchronies related to different perceptual, motor or cognitive states. Brainwaves have also been shown to synchronize with external stimuli with repetition rates of ca. 10-40 Hz. However, not much is known about responses to periodic auditory stimuli with periodicities found in human rhythmic behavior (i.e. 0.5-5 Hz). In an EEG study we compared responses to periodic stimulations (drum sounds and clicks with repetition rates of 1-8 Hz), silence, and random noise. Here we report inter-trial coherence measures taken at the Cz-electrode that show a significant increase in brainwave synchronization following periodic stimulation. Specifically, we found (1) a tonic synchronization response in the delta range with a maximum response at 2 Hz, (2) a phasic response covering the theta range, and (3) an augmented phase synchronization throughout the beta/gamma range (13-44 Hz) produced through increased activity in the lower gamma range and modulated by the stimulus periodicity. Periodic auditory stimulation produces a mixture of evoked and induced, rate-specific and rate-independent increases in stimulus related brainwave synchronization that are likely to affect various cognitive functions. The synchronization responses in the delta range may form part of the neurophysiological processes underlying time coupling between rhythmic sensory input and motor output; the tonic 2 Hz maximum corresponds to the optimal tempo identified in listening, tapping synchronization, and event-interval discrimination experiments. In addition, synchronization effects in the beta and gamma range may contribute to the reported influences of rhythmic entrainment on cognitive functions involved in learning and memory tasks.

The Music of the Sphere: An Investigation into Asymptotic Harmonics, Brainwave Entrainment and the Earth as a Giant Bell

The author discusses a conceptual framework for the organization and performance of music that has its basis in the frequency relationships of the Schumann Resonances and in the principle of binaural beats. He describes the steps he took in conceiving the project, the technical issues involved in realizing the goal of live data transmissions from a remote location and the creation of the three-dimensional overtone series that is the project's theoretical centerpiece. He also lays out his philosophy of improvisation and treads lightly into the curious gray areas where science mutates into leaps of faith.

Complementary therapy for addiction: "drumming out drugs".

This article examines drumming activities as complementary addiction treatments and discusses their reported effects. I observed drumming circles for substance abuse (as a participant), interviewed counselors and Internet mailing list participants, initiated a pilot program, and reviewed literature on the effects of drumming. Research reviews indicate that drumming enhances recovery through inducing relaxation and enhancing theta-wave production and brain-wave synchronization. Drumming produces pleasurable experiences, enhanced awareness of preconscious dynamics, release of emotional trauma, and reintegration of self. Drumming alleviates self-centeredness, isolation, and alienation, creating a sense of connectedness with self and others. Drumming provides a secular approach to accessing a higher power and applying spiritual perspectives. Drumming circles have applications as complementary addiction therapy, particularly for repeated relapse and when other counseling modalities have failed.

Epileptic seizure induced by a “brainwave synchronizer”

Epileptic seizure induced by a “brainwave synchronizer”

Brain wave synchronizers: A review of their stress reduction effects and clinical studies assessed by questionnaire, galvanic skin resistance, pulse rate, saliva, and electroencephalograph

AbstractPreviously, stress induced sudden cardiac death (SCD) was discussed along with methods that might help prevent its occurrence. In this article, emphasis is on one aspect of prevention — a recently reintroduced technique to induce the relaxation response: photostimulation dark goggles that purportedly act as a brain wave synchronizer (BWS). Relative to BWS, first a review of the literature is given; then a summary of a recently completed clinical study is presented. Next, the results of an ongoing clinical study are given. Following this, case studies are presented of assessment by galvanic skin resistance, pulse rate, and electroencephalograph. Finally, future directions are discussed.

A test of the effectiveness of intermittent photic stimulation on hypnotic performance

Abstract An attempt was made to confirm the previously reported finding of Hammer and Arkins (1964) of a significantly greater improvement in hypnotic performance as a result of 11 cps intermittent photic stimulation than with frequencies outside the range of EEG alpha activity. Using the Brain Wave Synchronizer, three groups of Ss were given stimulation at 5 cps, 11 cps, and 30 cps. Tests of hypnotic performance were made during stimulation, immediately after stimulation, and a week or more later. No evidence of frequency-specific effect was obtained, and the original finding was considered not confirmed.