Develop advanced orthopaedic expertise using the highly realistic Hip Joint Surgery Trainer, by SINI in collaboration with T.M.C. This comprehensive simulator is engineered to support stepwise training in hip joint procedures, providing a controlled environment that closely reflects real operative conditions.
The model features an anatomically accurate multi-layer reconstruction of the hip joint, incorporating skin, subcutaneous fat, muscle, ligaments, joint capsule, cartilage, and the femoral head. Each structure is designed to replicate authentic tactile feedback during incision, layered dissection, resection, and suturing, enabling trainees to build both anatomical understanding and procedural precision.
Supporting anterior, lateral, and posterior surgical approaches, the trainer facilitates practice of total hip arthroplasty (THA) fundamentals as well as partial resection techniques.
Students and clinicians can develop essential competencies such as:
- Hip joint incision and surgical approach techniques
- Resection and total hip arthroplasty (THA) workflow fundamentals
- Understanding hip anatomy and tissue relationships
- Layered tissue dissection and separation
- Precise suturing and closure techniques
Key specifications:
- Multi-layer anatomical structure: skin, fat, muscle, ligaments, capsule, cartilage, and femoral head
- Supports anterior, lateral, and posterior approaches
- Suitable for THA workflow and partial resection training
- High-elasticity medical-grade silicone for realistic tissue response
- Replaceable joint capsule module for extended product lifespan
High-elasticity, medical-grade silicone combined with reinforced materials ensures durability and consistent mechanical response during repeated use. The modular design includes a replaceable joint capsule, delivering long-term, cost-effective performance for medical schools, orthopaedic residency programmes, arthroplasty training centres, and robotic-surgery simulation environments.
