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Long Bone Non-Union clinical trials

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NCT ID: NCT05065684 Completed - Long Bone Non-union Clinical Trials

Effect of rhBMP-2 or rhBMP-7 on Long Bone Fractures and Non-unions.

Start date: January 2005
Phase:
Study type: Observational

Delayed fracture healing continues to cause significant patient morbidity and economic burden to society. Biological stimulation of acute fractures and non-unions includes application of rhBMP-2 and rhBMP-7. However, BMP use continues to be a matter of controversy as literature shows scarce evidence for treatment effectiveness. The aim of this study is to compare acute fractures and non-unions in the long bones humerus, femur and tibia with and without BMP treatment of acute fractures. Furthermore, the investigators want to identify complications and risk factors on union-rate and time to union.

NCT ID: NCT01756326 Terminated - Long Bone Non-Union Clinical Trials

Study on Autologous Osteoblastic Cells Implantation in Hypotrophic Non-Union Fractures

Start date: June 2012
Phase: Phase 2/Phase 3
Study type: Interventional

Fracture healing is a complex physiological process caused by interaction of cellular elements, cytokines and signaling proteins, which results in the formation of new bone (Gerstenfeld et al., 2003). Depending on fracture site, complexity, co-morbidities and other factors, 10% of all fractures will eventually fail to unite. Non-union fractures are defined as fractures that are at least six to nine months old and in which there have been no signs of healing for the last three months. Various causes have been evoked for impaired healing in hypotrophic (atrophic and oligotrophic) non-unions, including poor fracture stabilization, local infection and failure of the osteoblastic cells to multiply. Currently the treatment of choice for non-unions, particularly atrophic non-unions, is bone autograft (or allograft), combined or not with intramedullary nailing, plating, and external fixation devices (Kanakaris et al., 2007). This procedure produces good results but requires an invasive surgery of several hours under general anesthesia and a few days of hospitalization. Because of this, major complications have been reported in up to 20-30% of patients (Pieske et al., 2009, Zimmerman et al., 2009). This Phase 2b/3 study aims at demonstrating the safety and efficacy of PREOB®, a proprietary population of autologous osteoblastic cells, in the treatment of hypotrophic non-union fractures of long bones. PREOB® will be compared to Bone Autograft in a non-inferiority design.