3D printing has completely changed the production logic of traditional rehabilitation equipment by integrating 3D scanning, computer-aided design (CAD), and additive manufacturing technology, with its advantages concentrated in five dimensions.
Accurate adaptation and tailored design: Based on CT, magnetic resonance imaging, or direct 3D scanning data, the anatomical structure of the patient's affected area can be accurately reconstructed, allowing the brace to perfectly fit the limb lines and avoid compression or loosening problems caused by traditional standardized equipment.
Lightweight and comfortable, reducing risks: Using skin friendly polymer materials, through hole design and rod diameter optimization, weight is reduced and breathability is improved while ensuring support strength, effectively reducing complications such as skin ulcers and pressure sores.
Quick response, time-saving and efficiency improvement: Data collection can be completed at the bedside, and model information can be obtained within a few minutes. After digital processing, it can be quickly printed and formed, greatly reducing patient waiting time, especially suitable for immediate postoperative rehabilitation needs.
Scientific and practical, convenient medical care: Following ergonomic design, precise allocation of support strength, while reserving space for dressing changes, avoiding repeated unbinding, and improving follow-up and nursing efficiency.
Personalized customization and flexible adaptation: The design can be adjusted according to the patient's age, disease progression, and living environment, providing targeted solutions for everything from pediatric skull correction to adult joint rehabilitation.
