● Correction of Adolescent Idiopathic Scoliosis: Customized lightweight, breathable orthopedic braces based on 3D scans of the patient’s torso, replacing traditional plaster molding methods.

● Postoperative Rehabilitation Support:
Provides personalized fixation and protection tailored to the patient’s anatomical structure after spinal surgery, accelerating recovery and reducing complications.

● Custom Prosthetic Socket Fabrication: 
Uses 3D scanning of the residual limb and pressure distribution analysis to create precisely fitting sockets that disperse force, improve breathability, and enhance comfort and functionality.

● Integration with Smart Prosthetics:
Enables lightweight, integrated interface solutions for bionic prosthetics through embedded sensors or flexible structural designs.

● Fixation for Complex Fractures: 
Provides patient-specific external fixation frames for irregular bone areas such as the pelvis or maxillofacial region, enabling minimally invasive and precise stabilization.

● Deformity Correction Therapy:
Used in gradual distraction osteogenesis techniques (e.g., Ilizarov method) to create lightweight, adjustable, and personalized external fixators for limb lengthening or angular correction.

● Precision Osteotomy/Implant Positioning:  
Custom surgical guides based on patient imaging data assist surgeons in achieving submillimeter accuracy during procedures such as joint replacement or spinal fusion.

● Tumor Resection Boundary Planning:
Provides visual guides for complex tumor resections, defining safe excision margins and minimizing damage to healthy tissue.

● Preoperative Simulation and Rehearsal:  
Replicates detailed anatomical structures of patient-specific organs or bones, allowing surgeons to practice and optimize surgical plans (particularly valuable for complex cardiovascular or craniomaxillofacial surgeries).

● Doctor-Patient Communication and Training:
Serves as intuitive tools for explaining pathological structures to patients and for anatomy education and surgical skill training of medical residents.

● Rehabilitation for Foot Disorders: 
Addresses conditions such as flat feet, diabetic foot, and plantar fasciitis by creating functional insoles that provide precise support and cushioning based on gait analysis and foot pressure mapping.

● Sports Performance Optimization:
Custom sports insoles tailored to the athlete’s arch morphology improve force transmission efficiency and help prevent sports-related injuries.