Abstract
Introduction: Periprosthetic femoral fractures (PPFs) associated at or near a well-fixed femoral prostheses (Vancouver type-B1) present a clinical challenge due to the quality of the bone stock and instability of the fracture. Combining closed reduction techniques with minimally invasive plate osteosynthesis (MIPO) or intramedullary nailing is a technically challenging procedure, especially when dealing with complex femoral fractures such as periprosthetic fractures. Cerclage wiring is a well known adjunct for fracture reduction and fixation. However, it is usually performed by open reduction, requiring wide surgical exposures, that results in soft tissue stripping. Materials and Methods: In our original study 18 patients with periprosthetic femoral shaft fracture (mean age, seventy-four years; range, forty-seven to eighty-four years) were treated with the described percutaneous cerclage wire and MIPO techniques. One patient died two months postsurgery, leaving seventeen patients who were followed for a mean of 13.2 months. Results and Discussion: Four patients sustained a spiral fracture pattern; three, an oblique fracture; and two, a wedge fracture. Closed reduction was successful in all but one case, and took a mean of 24.4 minutes (range, seven to forty-five minutes). The mean total operative time was 103 minutes (range, seventy-five to 140 minutes). Blood loss was <100 ml in all cases. All fractures united at a mean of eighteen weeks (range, sixteen to twenty weeks). No hardware failures were observed; one plate bent 100, but the bending did not progress and the fracture healed uneventfully at sixteen weeks. Seven of the nine patients were able to return to their previous level of mobility. During the application of the percutaneous cerclage wires, there were no vascular or nerve injuries and none of the patients returned with any wound complications.
Highlights
Periprosthetic femoral fractures (PPFs) associated at or near a well-fixed femoral prostheses (Vancouver type-B1) present a clinical challenge due to the quality of the bone stock and instability of the fracture
Cerclage wiring is a well known adjunct for fracture reduction and fixation. It is usually performed by open reduction, requiring wide surgical exposures, that results in soft tissue stripping
We describe percutaneous cerclage wiring and minimally invasive plate osteosynthesis (MIPO) for periprosthetic femoral shaft fractures
Summary
We describe percutaneous cerclage wiring and minimally invasive plate osteosynthesis (MIPO) for periprosthetic femoral shaft fractures. With the posterior portion of the cerclage passer held steady, insert the anterior part of the forceps, applying slight pressure to maintain contact between the passer and the anterior surface of the femur The use of this cerclage technique can help in two ways. After all desired cerclage wire loops have been screws Make longitudinal incisions both proximal and rotation of the extremity and confirm that there distal to the fracture site on the basis of the is no gapping or overlap at the fracture site with templating with the image intensifier, and the image intensifier. This can be performed as dissect down to the lateral cortex of the femur. Increase the weightbearing status during weeks six to twelve and allow full weightbearing after three months of recovery
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