See Joint Damage Before It Becomes Pain
JointX is an advanced diagnostic tool that measures high-frequency joint micro-motion (2–300 Hz) to detect ligament laxity, joint instability, and early degenerative changes. Unlike traditional imaging or manual assessment, JointX focuses on functional motion, revealing subtle biomechanical abnormalities before structural damage occurs.
By quantifying joint micro-movements, JointX empowers clinicians to monitor rehabilitation, assess sports injuries, and track therapy progress with precision.
How It Works
JointX captures microscopic oscillations in ligaments and joints across a frequency range of 2–300 Hz, detecting even minor deviations from normal biomechanical behavior.
The system converts these micro-motions into quantitative data, enabling early detection of instability and functional impairment that often precedes pain or structural degeneration.
Clinical Applications
JointX provides actionable insights for a variety of musculoskeletal scenarios, including:
- Rehabilitation monitoring — track progress and optimize therapy plans
- Sports injury assessment — detect ligament or joint compromise early
- Post-surgical evaluation — monitor recovery and stability after procedures
- AI-guided therapy tracking — leverage quantitative data for personalized rehabilitation
By identifying subtle dysfunctions early, JointX helps prevent long-term joint damage and supports evidence-based treatment decisions.
Applications & Settings
JointX is ideal for:
- Orthopedic and sports medicine clinics
- Rehabilitation centers
- Post-operative follow-up
- Athletic performance monitoring
Its non-invasive, motion-based assessment makes it suitable for routine evaluations, injury prevention programs, and advanced therapeutic tracking.
Key Advantages
| Feature | Benefit |
|---|---|
| High-frequency micro-motion detection (2–300 Hz) | Reveals ligament and joint instability before structural damage |
| Quantitative motion analysis | Objective, reproducible data for therapy tracking |
| Early detection of degeneration | Enables proactive intervention and injury prevention |
| Portable and software-driven | Integrates seamlessly into clinical workflows |
| AI-powered analytics | Supports personalized rehabilitation and monitoring |