View clinical trials related to Bone Defects.
Filter by:The clinical diagnosis and treatment of lower limb bone defect is a difficult problem in orthopedics. The traditional treatment has the shortcomings of long treatment period, no weight bearing in the early stage of the limb, weak mechanical strength, many complications, and difficulty in repairing deformed and large segment bone defects around the joint. The Orthopedics Department of Peking University Third Hospital, the lead unit of this study, developed the TCBridge system based on three-dimensional (3D) printing technology in the early stage, which is the first approved 3D printing lower limb long bone defect repair system in China. The system can achieve personalized and accurate repair of lower limb bone defects, and ensure patients to carry out limb weight and functional exercise safely in the early stage after surgery. On this basis, this study will establish a multi-center clinical case cohort to achieve accurate comprehensive diagnosis and treatment of lower limb bone defects, benefiting patients and contributing to society.
This is an observational, prospective, non-randomised, post market clinical follow-up study to compile clinical data on performance and safety of the synthetic bone graft substitute and to assess that the performance and safety of the device are maintained until the reaching of its intended use in a commercial clinical setting in long bone and extremity defects.
This is a retrospective post market clinical follow-up study to compile real world clinical data on safety and efficacy of the synthetic bone graft substitutes in a commercial clinical setting in long bone and extremity defects and in spinal fusion procedures.
The purpose of this study is to evaluate the clinical and radiographic results after surgical treatment with implant-free allograft in the treatment of Anterior Shoulder Dislocation and to assess the safety of the surgery.
This study investigates safety and efficacy of traumatic bone defects treatment with use of 3D tissue engineered bone equivalent (3D-TEBE). The aim of this study is to evaluate 3D-TEBE transplantation as a safe and efficient treatment for patients with traumatic long bone defects of critical size.