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Individualized Alpha Neurofeedback for ADHD
Sponsor: The University of Hong Kong
Summary
Attention deficit hyperactivity disorder (ADHD) is one of the most prevalent neurodevelopmental disorders, characterised by inattention, hyperactivity, and impulsivity. Although pharmacotherapy is considered the first-line treatment for ADHD at all ages (at least for severe cases), non-pharmacological therapies might be equally effective without the risk of drug side effects. Some studies have shown that electroencephalographic (EEG) neurofeedback improves parent-rated ADHD symptoms in children and adolescents. However, whether neurofeedback is an effective treatment for ADHD is still under debate. Several issues may hinder the evaluation of the effectiveness of neurofeedback treatment in previous studies. Firstly, previous neurofeedback studies did not utilize effective neurophysiological markers for ADHD. Theta/Beta ratio, the most common neurofeedback marker for treating ADHD in the past two decades, has recently been suggested to be only weakly correlated to individuals' attention. Secondly, previous studies mostly used the norm of the EEG markers in age/gender matched healthy children as the training target for ADHD children, which largely ignored the individual variations in EEG acquisition. Third, most of the previous studies lack a rigorous study design, for comparing neurofeedback with a 'placebo' condition and evaluating its specific and non-specific effects. In the current studies, we propose to conduct a sham-controlled, triple-blind trial to evaluate the effectiveness of an individual-based neurofeedback treatment for ADHD children and adolescents. The EEG marker for neurofeedback in treating ADHD would be the individualized lower/higher alpha band power, based on the recent methodological advances in EEG spectrum processing (1/f model fit and individualized peak alpha frequency modelling) . The training target will be individualized and defined according to the neurophysiological pattern shown in pre-training resting-state conditions, and thus each participant will be trained to achieve their own optimum state of engagement. Sham neurofeedback will be used as a placebo condition, controlling for the non-specific effect of neurofeedback. The study will be triple-blinded (i.e, participants, individuals who administered treatment or intervention, and those who assessed the outcomes were masked).
Official title: Examine the Effectiveness of Individualized Alpha Neurofeedback for Children With ADHD, a Triple-blinded Randomised Control Trial
Key Details
Gender
All
Age Range
5 Years - 13 Years
Study Type
INTERVENTIONAL
Enrollment
60
Start Date
2024-06-01
Completion Date
2026-12-25
Last Updated
2025-07-17
Healthy Volunteers
No
Conditions
Interventions
Enhancing the individualized upper alpha frequency band and suppressing the lower alpha band.
Real time visual feedback will be given the participants, such that as the higher/lower alpha power increases (relative to the mean value in the pre-training resting state EEG recording) a plane on the screen will move horizontally (the movement is correspondent to the magnitude of upper/lower alpha ratio), and the animation will change based on EEG parameter every 2 seconds. EMG-based feedback is also provided, such that if the children's EMG level is too high the plane will drop (vertical movement). Participants are instructed to 'fly' the plane as far as possible.
Sham neurofeedback
The sham neurofeedback protocol was identical to the verum neurofeedback protocol except that the animation (horizontal plane movement) was based on the EEG results of another participant. EMG-based feedback will still be provided for the sham condition
Locations (1)
Li Ka Shing Faculty of Medicine
Hong Kong, Hong Kong, Hong Kong