Well-fixed cementless stems are sometimes needed to be extracted in patients with complications including periprosthetic infection, stem-neck breakage or trunnionosis. The purpose of this study was to report the clinical outcome in patients undergoing re-implantation surgery following removal of a well-fixed porous-coated cementless stem by the femoral longitudinal split (FLS) procedure(Fig.1, Fig.2). We conducted a retrospective study and radiographic review of 16 patients who had undergone re-implantation following the FLS procedure to remove a well-fixed stem due to periprosthetic infection, stem-neck breakage or trunnionosis. The study group consisted of 2 men and 14women with an average age of 68.4 years. Mean follow-up was 33.1± 25.0 months. Operation time, intraoperative bleeding, complications, causes of re-operation and clinical score were evaluated and the Kaplan-Meier method was used to evaluate the longevity of the stem.Background
Methods
Various approaches have been reported for the total hip replacement (THR). In recent years, a muscle sparing approach with low postoperative muscle weakness and low dislocation risk has been frequently selected. However, such surgery has a learning curve. Thus, at the time of switching from the conventional approach to such approaches, invasion or infection risk may increase with the operation time extension. The purpose of this study is to clarify the change of invasiveness or latent infection rate with the change in approach in order to select the cases safely at the beginning of introducing a new approach in THR. In facility A, THR was performed with Dall's approach (Dall), but 1 surgeon changed Dall to anterolateral modified Watson-Jones approach (OCM) and another surgeon changed Dall to direct anterior approach (DAA). In facility B, all 3 surgeons changed posterolateral (PL) approach to OCM. The subjects are 150 cases in total, including the each last 25 cases operated with the conventional approach and the each first 25 cases operated with a new approach (Dall to OCM: 25 + 25, Dall to DAA: 25 + 25, PL to OCM: 25 +25 cases). And, differences in operative time, intraoperative bleeding volume, postoperative hospital stay, and postoperative hemoglobin, white blood cell count, lymphocyte count, creatine kinase (CK), C-reactive protein (CRP) were investigated.Purpose
Methods
The purpose of this study was to evaluate the outcome of vascularized iliac bone grafting for idiopathic osteonecrosis of the femoral head. We reviewed the clinical and radiological results of 35 operations performed on 29 patients who had osteonecrosis of the femoral head (ONFH) in which a pedicle iliac bone grafting was performed for minimum follow-up of 10 years. The average age was 35 years (range, 17 to 62 years). According to the Japanese Orthopaedic Association classification for ONFH, there were 28 stage 2, 7 stage 3-A, 17 type C-1 hips, and 18 type C-2 hips. After a bone tunnel of 1.5 × 5 cm was made in the anterior aspect of the femoral head and curettage of necrotic lesion was performed, the pedicle bone with the deep circumflex iliac artery (DCIA) was inserted into the anterolateral portion of the femoral head. The average follow-up period was 13 years and 6 months. Weight bearing was not allowed for 2 months after the operation. Survival rate of the femoral head was calculated by Kaplan-Meier methods, and collapse of the femoral head and configuration of the femoral head was investigated at final follow-up.Introduction
Methods
Although osteonecrosis of the femoral head has been observed in young adult patients with autoimmune diseases such as SLE and MCTD that are treated by corticosteroids, the pathogenesis of the osteonecrosis remains unclear. We established a rat model with osteonecrosis of the femoral head by injecting lipopolysaccharide (LPS) and corticosteroid, and assessed consequences of the histopathological alteration of the femoral head, the systemic immune response, and the lipid synthesis. Male Wistar rats were given 2 mg/kg LPS intravenously on days 0 and 1 and intramuscularly 20 mg/kg methylprednisolone on days 2, 3, and 4. The animals were sacrificed 1, 2, 3, or 4 weeks after the last injection of the methylprednisolone. Histopathological and biochemical analyses were performed every week. The bone samples were then processed for routine hematoxylin and eosin staining to assess the general architecture and injury of the tissue. The triglyceride and the total cholesterol concentrations in the PRP were measured. The levels of various cytokines (IL-1α, IL-1β, IL-2, IL-4, IL-6, IL-10, GM-CSF, IFN-γ, TNF-α) in blood samples were measured.Introduction
Methods
Patients with dislocation, severe subluxation of the hip joints were treated with cementless THA combined with subtrochanteric shortening femoral osteotomy. Total hip arthroplasty (THA) requiring subtrochanteric osteot-omy has been considered to lead to several complications. The aim of this paper is to assess the clinical results and complications of this procedure. An acetabular component was placed into position at the site of the true acetabulum. After femoral corrective shortening osteotomy for dislocation or severe sub-luxation of the hip joints, an AML cementless stem was tightly inserted into the femoral canal to achieve bony union and osteointegration with the implant. Twenty-one patients (23 hips; 2 men, 19 women) treated with cementless THA combined with subtro-chanteric femoral shortening osteotomy were enrolled in this study. The mean age was 55 years and the mean follow-up period was 4.5 years. The average elongation of the limb was 48 mm after subtrochanteric shortening femoral osteotomy. Solid union of the osteotomy was obtained within an average of 5.5 months after surgery. None of these patients developed sciatic nerve palsy. There were 4 cases of non-union of the osteotomy site and 3 of aseptic loosening of the femoral component related to intraoperative femoral fracture. Upward migration of the proximal part of the femur was related to poor preoperative bone quality. In order to diminish these complications, careful patient selection, accurate femoral reaming and suitable methods of bone cutting and augmentation of the oste-otomy site are necessary.
