Injury
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Most surgeons feel that angular stable implants have improve the ability to obtain reliable fixation of an osteoporotic fracture of the proximal humerus fracture, but complications such as varus fracture collapse and screw penetration of the articular surface remain problematic. The use of limited drilling, blunt tipped locking bolts and routine incorporation of the rotator cuff into the internal fixation construct may help limit these complications. It may be of benefit to replace the concept of standard screw fixation of the osteoporotic proximal humerus with a concept of an angular stable scaffold support of the subchondral bone combined with fixation that does not rely on bone quality and utilizes the more predictable fixation of sutures through the rotator cuff attachments.
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The treatment of complex non-unions may be lengthy and very expensive. The majority of aseptic non-union cases require a variable degree of biological enhancement. ⋯ However, other means of biological stimulation are currently available in the armamentarium of the treating physician. This review article reports on the different available biological treatment options for the management of complex aseptic bone non-unions.
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Demineralised bone matrix (DBM), a form of allograft, possesses the properties of osteoinductivity and osteoconductivity. A large body of data obtained from extensive preclinical studies have clearly supported the utility of DBM in human clinical settings. However, it is now recognized that various DBM configurations may differ considerably with regard to their bone inductive activity. ⋯ The differing efficacy of DBM products may also depend on differences in particle size and shape, donor selection criteria, protocols for collection and storage, as well as DBM carrier materials. Several comparative studies have confirmed the differences in the osteoinductive potential of various DBM preparations. The purpose of the present review is to provide a critical overview of the current applications of DBM in a clinical setting.
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Still a major problem in orthopedic and trauma surgery is the delayed healing or the non-union of long bone fractures. Demographic data reveal that due to the steadily rising age of the population, complications with the musculoskeletal system will increase during the next years. Bone morphogenetic proteins (BMPs) have successfully been applied in clinic for the treatment of delayed healing and non-unions. ⋯ The intramedullary application of BMP in combination with autologous or allogenic bone grafts or bone substitutes after debridement and stabilization with implants seems to be an adequate procedure for treatment of atrophic non-unions. However, the total number of patients is too small to draw final conclusions. Further clinical studies need to be performed in the future.
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Fracture healing is a complex physiological process. With the latest advances made in molecular biology and genetics it is now known that it involves the spatial and temporal coordinated action of several different cell types, proteins and the expression of hundreds of genes working towards restoring its structural integrity without scar formation. ⋯ The available scientific evidence supports the view that all the 4 known factors contributing to bone restoration should be given an equal acknowledgment and recognition. The traditional discussed triangular concept therefore should be reconsidered and be accepted as the 'diamond concept'.