Journal of orthopaedic trauma
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To determine the clinical effectiveness of precontoured parallel plating for the management of Orthopaedic Trauma Association (OTA) type C distal humerus fractures. ⋯ Open reduction and internal fixation with a precontoured parallel plating system is an effective treatment method for OTA type C distal humerus fractures. Despite this, the fact that over half of the patients had a significant complication will require utmost vigilance on the part of the surgeon to avoid intraoperative complications. Patient counseling is paramount.
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Compartment syndrome is a devastating complication of tibial fractures. The purpose of this study was to investigate the rate of clinically determined compartment syndrome requiring surgical intervention in tibial fractures by anatomical region and to identify the associated patient and injury factors. ⋯ Tibial fractures of the diaphysis are more frequently associated with development of compartment syndrome than proximal or distal tibial fractures. More specifically, young patients with diaphyseal fractures are at risk for developing this complication and warrant increased vigilance and suspicion for compartment syndrome. A prospective study with sufficient power is needed to further identify risk factors associated with compartment syndrome in tibial fractures.
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Comparative Study
Intramedullary nailing versus percutaneous locked plating of extra-articular proximal tibial fractures: comparison of 56 cases.
To compare extra-articular proximal tibial fractures treated with intramedullary nailing (IMN) or percutaneous locked plating (PLP) and assess the ability of each technique to obtain and maintain fracture reduction. ⋯ Neither IMN or PLP showed a distinct advantage in the treatment of proximal extra-articular tibial fractures. Apex anterior malreduction however was the most prevalent form of malreduction in both groups. Additional surgical reduction techniques were frequently needed with IMN, whereas removal of implants seems to be more commonly needed with PLP.
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Bicondylar tibial plateau fracture with metaphyseal-diaphyseal dissociation. Schatzker VI and medial plateau fracture-dislocations are commonly treated with initial external fixation until the soft tissues allow for more definitive internal fixation. The purpose of this study was to review the incidence of compartment syndrome (CS) in these injuries and the timing of their occurrence in relation to placement of the external fixator. ⋯ The incidence of CS for Schatzker type VI (18%) and medial plateau fracture-dislocations (53%) is high. When compared with the Schatzker type VI injuries, our data suggest that medial plateau fracture-dislocations may be at increased risk of developing CS after placement of spanning external fixation. We recommend careful monitoring of Schatzker type VI fractures and especially medial plateau fracture-dislocations after placement of spanning external fixators.
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Comparative Study
Biomechanical comparison of polyaxial and uniaxial locking plate fixation in a proximal tibial gap model.
Lateral locked plating for proximal tibial fractures with metaphyseal disruption provides a biomechanically stable and biologically favorable alternative to conventional medial/lateral plate fixation. New polyaxial screw technology incorporates expanding screw bushings, allowing variable angle screw placement, while providing angular stability. We hypothesize that polyaxial locking plates will exhibit comparable stiffness, strength to failure, and resistance to plastic deformation to conventional locking plates in a proximal tibial gap model. ⋯ This study demonstrates that this unique polyaxial locking plate mechanism, when tested in various constructs, exhibits similar biomechanical performance regarding stiffness, strength to failure, and resistance to plastic deformation when compared with uniaxial locking plates. The polyaxial locking plate with an angled screw was stiffest and had the greatest load to failure. The polyaxial locking plate alone tested similar to the LISS. In addition, the benefit of the angled screw for biomechanical stability is demonstrated.