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Neurofeedback Training for Autistic Children
Sponsor: Education University of Hong Kong
Summary
The goal of this study is to learn if a new brain training method, called combined electroencephalography (EEG) and functional near-infrared spectroscopy (fNIRS) neurofeedback, can improve thinking, emotions, and social functioning in children with autism spectrum disorder (ASD). It will also learn if this training is practical and safe to use with children in Hong Kong. The main questions this study aims to answer are: * Does combined EEG-fNIRS neurofeedback improve attention, emotion regulation, and social skills in children with ASD? * Is this type of neurofeedback training feasible and well-tolerated by children? Researchers will compare the new combined EEG-fNIRS training with single EEG or fNIRS training to see if it provides additional benefits. Participants will: .Receive sessions of EEG-fNIRS neurofeedback training. .Complete assessments of thinking skills, emotional regulation, and social functioning before and after training.
Official title: Developing an EEG-fNIRS Neurofeedback Application for Brain Training for Autistic Children
Key Details
Gender
All
Age Range
8 Years - 12 Years
Study Type
INTERVENTIONAL
Enrollment
30
Start Date
2025-07-01
Completion Date
2026-01-31
Last Updated
2025-09-08
Healthy Volunteers
No
Interventions
EEG and fNIRS
For EEG and fNIRS, EEG signals will be recorded using the ANT Neuro eego rt 8 amplifier device (ANT Neuro, Hengelo, The Netherlands), with electrodes placed at C3, C4, F3, F4, Fpz, M1, M2, and GND (ground). fNIRS signals will be recorded using the Artinis Brite Lite fNIRS device(Artinis Medical Systems, The Netherlands). The overall channel configuration consists of eight sources and four detectors. Among these, four sources (T2a-d) and four detectors (R1-4) form four short-separation channels, while the remaining four sources and four detectors constitute six long-separation channels (T1-R1, T3-R1, T3-R2, T4-R3, T5-R3, T5-R4). The overall configuration is approximately arranged in two L-shaped layouts surrounding the F3 and F4 regions.
EEG
EEG signals will be recorded using the ANT Neuro eego rt 8 amplifier device (ANT Neuro, Hengelo, The Netherlands), with electrodes placed at C3, C4, F3, F4, Fpz, M1, M2, and GND (ground).
fNIRS
fNIRS signals will be recorded using the Artinis Brite Lite fNIRS device(Artinis Medical Systems, The Netherlands). The overall channel configuration consists of eight sources and four detectors. Among these, four sources (T2a-d) and four detectors (R1-4) form four short-separation channels, while the remaining four sources and four detectors constitute six long-separation channels (T1-R1, T3-R1, T3-R2, T4-R3, T5-R3, T5-R4). The overall configuration is approximately arranged in two L-shaped layouts surrounding the F3 and F4 regions.
Locations (1)
Faculty of Education And Human Development OF The Educational University Of Hong Kong
Hong Kong, Hong Kong, Hong Kong