Detect Eye Disease Before Vision Fails
EyeX is a next-generation corneal micro-vibration scanner that evaluates the biomechanical health of the cornea by detecting subtle oscillations invisible to conventional eye exams. Unlike traditional tonometry or slit-lamp examinations that focus on static structure, EyeX analyzes micro-motion patterns to reveal early signs of disease, ocular fatigue, or neuromuscular irregularities.
By focusing on motion rather than anatomy alone, EyeX empowers clinicians to detect corneal and ocular disorders before structural damage occurs, enabling earlier intervention and improved patient outcomes.
How It Works
EyeX detects corneal micro-vibrations in the 30–150 Hz range, capturing fine oscillatory movements of the cornea that reflect biomechanical stability, neuromuscular control, and tear-film dynamics.
These micro-motions provide insights into functional ocular health, highlighting early or subclinical abnormalities that remain invisible to standard ophthalmic tools. By quantifying subtle motion, EyeX transforms corneal evaluation from a qualitative assessment into a precise, data-driven diagnostic science.
Clinical Applications
EyeX helps detect a range of corneal and ocular conditions, including:
- Keratoconus pre-symptoms — early detection of corneal thinning or instability
- Dry-eye instability — subtle tear-film and blinking irregularities
- Neurological disorders affecting ocular mechanics — early detection of motor control issues
- Early glaucoma indicators — functional changes before pressure or structural damage is evident
By identifying abnormalities before visual impairment occurs, EyeX allows clinicians to initiate preventive or therapeutic interventions earlier, improving long-term ocular health.
Applications & Settings
EyeX is designed for use in:
- Ophthalmology clinics
- Optometry practices
- Tele-ophthalmology and remote screening
- Research and clinical studies
Its non-contact, motion-based evaluation makes it suitable for routine eye exams, early disease screening, and specialized ophthalmic care.
Key Advantages
| Feature | Benefit |
|---|---|
| Corneal micro-vibration detection (30–150 Hz) | Reveals functional changes invisible to tonometry or slit-lamp exams |
| Motion-based analysis | Detects fatigue, instability, and subclinical pathology |
| Early disease detection | Enables proactive intervention for keratoconus, glaucoma, and dry-eye disease |
| Quantitative, non-invasive | Safe, patient-friendly, and reproducible diagnostics |
| Functional insight | Assesses neuromuscular control and tear-film dynamics |