Advance orthopaedic surgical skills with the Shoulder Surgery Trainer , by SINI in collaboration with T.M.C. This high-fidelity simulator provides a comprehensive platform for developing both open and arthroscopic shoulder surgery techniques within a realistic, procedure-focused training environment.
The model delivers anatomically accurate reproduction of the shoulder joint, including skin, subcutaneous fat, muscle, ligaments, and osseous structures. Each layer is engineered to provide lifelike tactile feedback, closely mimicking tissue resistance during incision, dissection, and suturing. Trainees can practise anterior, lateral, and posterior surgical approaches, gaining a thorough understanding of shoulder anatomy and operative access pathways.
A water-fillable shoulder module enables realistic fluid-filled arthroscopic simulation, allowing users to develop visualisation skills and instrument handling techniques under authentic arthroscopic conditions. The multilayer construction supports a complete procedural workflow, from initial surface incision through to deep joint access and closure.
Students and clinicians can develop essential competencies such as:
- Detailed understanding of shoulder joint anatomy
- Incision, layered dissection, and suturing techniques
- Anterior, lateral, and posterior surgical approaches
- Arthroscopic visualisation and instrument navigation
- Suture handling and operative workflow management
Key specifications:
- Anatomically accurate shoulder bones, ligaments, muscles, and joint structures
- Supports both open and arthroscopic shoulder surgery training
- Water-fillable module for realistic fluid-based arthroscopic simulation
- High-durability, medical-grade silicone for repeated cutting and suturing
- Modular design allowing replacement of shoulder components
Manufactured from high-durability, medical-grade silicone with reinforced composite materials, the trainer maintains structural integrity during repeated use. Its modular shoulder unit can be replaced, ensuring long-term, cost-effective performance for medical schools, orthopaedic training programmes, and surgical training environments.
