Clinical orthopaedics and related research
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Clin. Orthop. Relat. Res. · Oct 2004
ReviewLocal antibiotic therapy in the treatment of open fractures and osteomyelitis.
Local antibiotic therapy is part of the treatment protocol of open fractures and osteomyelitis. However, there are limitations in the literature evaluating the efficacy of the technique and controversies remain. Polymethylmethacrylate cement commonly is used as a delivery vehicle, but bioabsorbable vehicles are being investigated. ⋯ Local antibiotics effectively have controlled infection in animal models and, despite limitations of the existing literature, seem to be useful in the clinical setting. The length of implantation and the need for removal of the delivery vehicle remain controversial. Nonabsorbable vehicles may eliminate the need for reoperation and removal.
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Clin. Orthop. Relat. Res. · Oct 2004
ReviewPractical applications of antibiotic-loaded bone cement for treatment of infected joint replacements.
The use of antibiotic-loaded bone cement is an accepted treatment method for infected joint arthroplasties. It is helpful to separate the use of antibiotic-loaded bone cement as a method of prophylaxis as compared with the treatment of an established infection. A low dose of antibiotic-loaded bone cement (< or = 1 g of antibiotic per batch of cement) should be used for prophylaxis, and high-dose antibiotic-loaded bone cement (> 1 g antibiotic per batch of cement) is indicated for treatment. ⋯ High-dose antibiotic-loaded bone cement requires hand mixing by the surgeon to facilitate the use of high dosages and choices of multiple antibiotics. Treatment of infected hip and knee arthroplasties with high-dose antibiotic-loaded bone cement is aided by the use of spacers of various shapes and sizes. These spacers, whether they are static or articulating (mobile), are meant to provide local delivery of antibiotics, stabilization of soft tissues, facilitation of an easier reimplantation, and improved clinical outcomes.
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Clin. Orthop. Relat. Res. · Oct 2004
Dose-responsiveness of electrophysiologic change in a new model of acute carpal tunnel syndrome.
This study was done to determine the dose-responsiveness during the development of acute pressure-induced median neuropathy in rabbits and to develop a new animal model of acute carpal tunnel syndrome. Twenty-three rabbits were used. Carpal tunnel syndrome was induced by infusing a controlled saline solution into the carpal tunnel of rabbits using a 21-gauge needle under general anesthesia to elevate the carpal tunnel pressure. ⋯ Complete conduction block occurred between 40 and 50 minutes at a pressure of 100 mm Hg. The degree of recovery after a conduction block was related inversely to the pressure-time integrals. Our animal model reflects the pathophysiology of acute carpal tunnel syndrome and shows a regular dose-responsiveness during the development of acute pressure-induced neuropathy.