The intelligent flatfoot detection device (3D foot scanner) offers the following significant advantages in hospital settings:
- Accurate Diagnosis and Quantitative Assessment
Millimeter-Level 3D Modeling: Using non-contact laser/optical scanning technology, it accurately captures key parameters such as arch height and plantar contact area, eliminating the subjective errors associated with traditional visual inspection or footprint analysis.
Dynamic Structural Analysis: Generates a 3D foot model in real time, visually demonstrating the degree of arch collapse and varus/valgus angle, providing physicians with a visual basis for diagnosis.
- Efficient Process and Non-Invasive Experience
5-20 Second Fast Scan: Complete foot data collection while the patient is standing, significantly reducing testing time and improving clinic efficiency.
Effortless Operation: Supports full and partial weight-bearing modes, reproducing the foot’s true gait, making it particularly suitable for children and the elderly.
- Clinical Decision Support
Personalized Corrective Solutions: Scan data directly generates STL files, seamlessly integrating with 3D printing technology to create custom-fitted corrective insoles or orthotics.
Complication Screening: Simultaneously assesses complications such as inversion and pronation, abnormal plantar pressure distribution, and more, enabling comprehensive foot health management.
IV. Long-Term Efficacy Tracking
Dynamic Comparison Database: Stores historical scan data to quantitatively track children’s arch development progress or postoperative rehabilitation outcomes, assisting with efficacy assessment and treatment plan adjustments.
Patient-Doctor Collaboration Tools: 3D model visualization reports enhance patient understanding and treatment compliance.
V. Multi-Department Collaboration Value
Orthopedics/Rehabilitation: Accurately identify flatfoot types and guide step-by-step treatment (from insole intervention to surgical planning).
Sports Medicine: Analyze the biomechanical characteristics of athletes’ feet to optimize training programs and prevent injuries.
Technical Breakthrough: Compared to traditional methods, its objective data output and repeatable verification capabilities have made it the gold standard for modern foot and ankle diagnosis and treatment.
