Journal of orthopaedic trauma
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Insertion of rigid uniplane bent femoral nails through the piriform fossa has been reported to cause neurovascular complications. New nails were designed for more lateral entry points. However, these may be associated with a higher risk of iatrogenic fractures. This study investigated if two differently bent nails with more lateral entry points induce higher cortical bone strains than a uniplane bent nail introduced through the piriform fossa. ⋯ Bone strains at the medial impingement location were low for all nails. Entry portals with thin cortical walls due to, for example, larger reamer diameters and a small greater trochanter seem to be more susceptible to insertion accuracy, which may influence strain and fissure or fracture occurrence. Furthermore, we do not recommend determination of the entry point of laterally inserted nails based solely on anatomic landmarks of the greater trochanter because this may influence insertion accuracy. This implies that biplanar imaging is important for accurate and safe insertion of laterally started nails.
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External fixation is frequently used for provisional and/or definitive stabilization of open and closed fractures and dislocations involving the lower extremity. There is some concern, however, that application of an external fixator with subsequent reduction of the fractures with distraction may precipitate the development of compartment syndrome. The hypothesis of this study was that application of external fixation and restoration of limb length would have no effect on the compartment pressures. ⋯ Application of knee-spanning external fixation as a temporary measure for stabilization of high-energy proximal tibial fractures and dislocations may result in transient elevation of intracompartmental pressure of the leg. Although DeltaP may fall below the threshold of 30 mm Hg, this does not appear to lead to compartment syndrome.
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To define the unique clinical and radiographic features, operative treatment, and complications of irreducible femoral head fracture-dislocation without associated posterior wall fracture. ⋯ Irreducible femoral head fracture-dislocations without associated posterior wall fractures occur rarely, but are heralded by unique clinical and radiographic features. These patients warrant special consideration in terms of recognition and management. The physical examination findings and specific radiographic markers should alert the surgeon to this injury pattern and its related complications. Closed reduction of this fracture-dislocation should not be attempted. Delayed operative management may be related to femoral head aseptic necrosis. Accurate reduction and stable fixation can successfully be performed through a Smith-Petersen surgical exposure using small or miniature fragment cortical screws alone.
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To evaluate fracture patterns in bicondylar tibial plateau fractures and their impact on treatment strategy. ⋯ Complex bicondylar tibial plateau fractures follow a regular pattern, which is not represented in existing 2-dimensional fracture classifications. A 2-incision technique starting with the reduction of the posteromedial edge results in accurate fracture reduction with low complication rates and excellent knee function.
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The purpose of this study was to compare the fixation afforded by a dorsal nonlocking plate with a volar locking plate in a fracture model simulating an extra-articular distal radius fracture with dorsal comminution (OTA [Orthopaedic Trauma Association] type 23-A3.2). ⋯ This study suggests that the fixation obtained with volar locking plates is as stable as fixation with a dorsal plate in acute healing period and can withstand the functional demands of the immediate postoperative period in dorsally comminuted unstable extra-articular distal radius fractures. Elimination of dorsal tendinopathy by using volar locking plates may lead to fewer long-term complications. Locking plates provided better stability in specimens with osteoporosis.