Journal of orthopaedic science : official journal of the Japanese Orthopaedic Association
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The thrust plate prosthesis (TPP) is a hip prosthesis with metaphyseal fixation to the femur. Because the bone quality is reduced in patients with rheumatoid arthritis, this kind of fixation may have a higher failure rate than conventional stemmed endoprostheses in these patients. The aim of this investigation was to analyze the long-term results obtained with the TPP in patients with rheumatoid arthritis. ⋯ The failure rate of the TPP was distinctly higher than that for conventional stemmed endoprostheses regarding aseptic and septic revisions. In cases with loosening of the TPP the preservation of the diaphyseal bone of the femur is poor and the TPP mostly needs a revision to a cemented stem. Thus, the estimated advantage of the TPP versus cementless stemmed prostheses for patients with rheumatoid arthritis is not evident. In conclusion, there is no evidence form this study to support the use of the TPP in this group of patients.
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It has been reported that rat L5/6 lumbar discs are innervated mainly by L2 dorsal root ganglion neurons. We previously reported that L2 spinal nerve infiltration was effective for discogenic low back pain (DLBP) patients, although the diagnosis was based only on the results of physical examination, plain films, and magnetic resonance imaging (MRI). The purpose of the current study was to evaluate L2 spinal nerve block for DLBP patients retrospectively based on MRI findings and surgical results. ⋯ In the current study, L2 spinal nerve infiltration was effective in 84% of selected DLBP patients and is thought to be a useful tool for diagnosing DLBP. However, we should take into consideration that the L2 spinal nerve infiltration was effective in 40% of non-DLBP patients as well.
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There have been no standardized surgical options for severe scoliotic curvatures ≥100°. Halo-gravity traction is a viable option for surgical treatment of severe scoliosis. The aim of this study was to evaluate the efficacy and safety of perioperative halo-gravity traction for scoliosis curves ≥100° with respect to radiographic outcomes and clinical complications. ⋯ Scoliosis patients with ≥100° curves can be managed successfully by corrective fusion surgery concomitant with perioperative halo-gravity traction without significant complications.