Operant (biofeedback) Control of Left-Right Frontal Alpha Power Differences: Potential Neurotherapy for Affective Disorders (abs.) by Rosenfeld JP, Cha G, Blair T, Gotlib IH
Two experiments were done with subjects from a paid pool of undergraduates. In each study, there were five 1-hour sessions on each of 5 days: (1) Baseline: Rewards given for randomly selected 20% of the 700-ms sequential epochs; mean and SD of baseline power differences determined. 2) Exploration: Subjects were rewarded when right minus left alpha differences in an epoch were greater than the baseline mean plus about .85 SD (p = .20); subjects told to discover how to generate rewards. (3)-(5).READ FULL TEXT
Neurofeedback Treatment of Depression with the Roshi by Hammond CD, Ph.D.
A patient with severe, medication resistant depression was found to have the frontal alpha asymmetry described in Davidson’s (1998a) research as demonstrating a predisposition to depression. Initial sessions of EEG neurofeedback using Rosenfeld’s (1997) protocol for correcting the alpha asymmetry were discouraging, actually producing slight negative change. Therefore, treatment shifted to using the Roshi, a two channel unit combining neurofeedback and photic stimulation, doing primarily left hemisphere beta training.READ FULL TEXT (PDF)
Preliminary Evidence That Daily Changes in Frontal Alpha Asymmetry Correlate with Changes in Affect in Therapy Sessions (abs.) by Rosenfeld JP, Baehr E, Baehr R, Gotlib IH, Ranganath C.
Frontal EEG alpha asymmetry was recorded from five depressed outpatients during early EEG biofeedback sessions. Mood was assessed prior to and after each session, and affect change scores were also derived by subtracting pre-session from post-session scores. Alpha magnitude was obtained via Fast Fourier Transforms. All scores (EEG alpha asymmetry and affect) were converted to deviation scores by subtracting each patient’s daily score from that patient’s mean across all available sessions for that patient.READ FULL TEXT
Alpha-Theta Brainwave Neurofeedback Training: An Effective Treatment for Male and Female Alcoholics with Depressive Symptoms (abs.) by Saxby E and Peniston EG
Frontal EEG alpha asymmetry was recorded from five depressed outpatients during early EEG biofeedback sessions. Mood was assessed prior to and after each session, and affect change scores were also derived by subtracting pre-session from post-session scores. Alpha magnitude was obtained via Fast Fourier Transforms. All scores (EEG alpha asymmetry and affect) were converted to deviation scores by subtracting each patient’s daily score from that patient’s mean across all available sessions for that patient.READ FULL TEXT
Self-regulation of Slow Cortical Potentials in Psychiatric Patients: Schizophrenia (abs.) by Schneider F, Rockstroh B, Heimann H, Lutzenberger W, Mattes R, Elbert T, Birbaumer N, Bartels M
Slow cortical potentials (SCPs) are considered to reflect the regulation of attention resources and cortical excitability in cortical neuronal networks. Impaired attentional functioning, as found in patients with schizophrenic disorders, may covary with impaired SCP regulation. This hypothesis was tested using a self-regulation paradigm. Twelve medicated male schizophrenic inpatients and 12 healthy male controls received continuous feedback of their SCPs, during intervals of 8 s each, by means of a visual stimulus (a stylized rocket) moving horizontally across a TV screen.READ FULL TEXT
Clinical Use of an Alpha Asymmetry Neurofeedback Protocol in the Treatment of Mood Disorders: Follow-Up Study One to Five Years Post-Therapy (abs., pg. 7) by Baehr E Ph.D., Rosenfeld JP Ph.D., Baehr R Ph.D.
This study reports on three of six patients who have completed an average of 27 neurofeedback sessions using a patented alpha asymmetry protocol for the treatment of depression. The follow-up data, from one to five years post therapy, were derived from a single session re-test using the same alpha asymmetry protocol and the Beck Depression Inventory.READ FULL TEXT (PDF)
Frontal Interhemispheric Asymmetry: Self Regulation and Individual Differences in Humans (abs.) by Hardman E, Gruzelier J, Cheesman K, Jones C, Liddiard D, Schleichert H, Birbaumer N
Sixteen subjects naive to biofeedback learned lateralised interhemispheric control of slow cortical potentials (SCPs) across electrode sites F3-F4 during three sessions of visual electroencephalograph (EEG) biofeedback. Subjects were required to generate slow negativity shifts either towards the left or the right hemisphere in sixty pseudorandomly ordered trials per session. Group 1 (n = 8) were told to use emotional strategies in the task (positive emotions for left hemisphere activation, negative emotion for right hemisphere activation), group 2 received no guidance. READ FULL TEXT
Treatment of a Depressive Disorder Patient with EEG-driven Photic Stimulation (abs.) by Kumano H, Horie H, Shidara T, Kuboki T, Suematsu H, Yasushi M
This study examined the effects of electroencephalographic- (EEG-) driven photic stimulation on a case of depressive disorder, as measured by a psychometric test of mood states, EEG parameters, and several autonomic indices. The EEG-driven photic stimulation enhances the alpha rhythm of brain waves using photic signals, the brightness of which is modulated by a subject’s own alpha rhythm. The patient was a 37-year-old businessman, who was treated for depression with medication during the 13 months prior to his first visit to our hospital.READ FULL TEXT
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