MindMuscle combines wireless neurofeedback and adaptive AI to support measurable focus and emotional regulation in children with ADHD and autism — built for pediatric therapy environments and designed to extend beyond them.
MindMuscle is a clinical-grade neurofeedback platform that uses wireless EEG sensors, computer vision, and AI-driven behavioral analysis to support self-regulation training in children ages 4–12 with ADHD and autism spectrum disorders. The system delivers real-time feedback during therapy sessions to reinforce attention, posture, and engagement patterns.
Four integrated layers working together to deliver structured neurofeedback
Four integrated layers working together to deliver structured neurofeedback
EEG sensors monitor neural activity patterns. Camera-based tracking captures posture and engagement.
Machine learning models process neural and behavioral signals to assess regulation state.
Visual and auditory cues provide immediate positive reinforcement when targets are met.
Automated session logs and longitudinal analytics support treatment documentation.
A typical MindMuscle session follows a structured five-step workflow
Clinician places wireless EEG sensors on the child and positions the camera. System calibrates baseline signals in under 60 seconds. Clinician selects session goals and feedback sensitivity.
Child begins therapy activity (play, task-based work, or structured interaction). The system runs in the background without requiring active attention to a screen.
AI models continuously analyze neural activity, gaze direction, posture, and movement to identify patterns indicating focused attention and regulation.
When regulation targets are met, the system delivers gentle visual or auditory cues (e.g., chime, animation, positive sound) to reinforce the behavior.
Session data is automatically logged. Clinician reviews summary metrics, observes patterns over time, and adjusts treatment plans accordingly.
How MindMuscle compares to traditional neurofeedback platforms
Sensors connected by cables limit natural movement
Clinician adjusts thresholds and interprets signals manually
15-20 minutes to prepare sensors and calibrate system
Designed for single-room, single-patient use
$5,000–$15,000 upfront hardware investment
Cable-free design supports natural movement during therapy
Automated pattern recognition and adaptive feedback
Sessions begin in under 60 seconds with automatic calibration
Run concurrent sessions across multiple therapy rooms
Software licensing with included hardware — no capital outlay
Designed to complement existing therapy practices without disruption
Runs alongside existing therapy activities. No need to change treatment structure or introduce new protocols.
Cloud-based architecture allows multiple clinicians to run sessions simultaneously across different therapy rooms.
Automated progress dashboards support treatment documentation and enable data-driven adjustments.
MindMuscle was developed in partnership with pediatric occupational therapists, speech-language pathologists, and behavioral specialists. The system integrates with sensory integration therapy, structured play, and behavioral intervention protocols.
Built to meet the highest standards for pediatric healthcare technology
All hardware components meet FDA safety standards for pediatric medical devices. Sensors use medical-grade materials and are tested for comfort and durability with children ages 4–12.
All patient data is encrypted at rest and in transit. MindMuscle is HIPAA-compliant and follows pediatric data protection guidelines under COPPA regulations.
Developed in collaboration with pediatric clinicians and validated through clinical pilots. Adheres to evidence-based neurofeedback protocols.
AI models are trained on de-identified data with explicit consent. Algorithm decisions remain interpretable and clinician oversight is maintained at all times.
MindMuscle brings together expertise in pediatric therapy, neuroscience, and artificial intelligence to build structured neuro-regulation systems for children with ADHD and autism.
