Aim. The first osseointegrated transfemoral amputation prosthesis operation was performed in Gothenburg in 1990. The aim is improving quality of life for patients who cannot use conventional socket prosthesis. In 1999 the prospective OPRA-study (Osseointegrated Prosthesis for Rehabiliation of Amputees) was initiated with standardized surgery, equipment and rehabilitation program. Method. The surgery consists of a two-stage procedure. At the primary surgery (S1), a titanium screw (the fixture) is inserted into the remaining diaphyseal bone. The fixture is 80 mm long with a diameter of 16–20 mm (+0.5 mm increments). The patient is hospitalized 5-7 days. At the secondary surgery (S2), six months later, an abutment is inserted into the fixture. The abutment has a hexagonal press-fitting into the fixture and is secured by an abutment screw. The patient remains hospitalized 10–12 days. Gradual increase of load and activity is initiated over a 6 month period. Results. The OPRA study includes 51 patients with 55 implants. Follow-up time has been set to minimum 2 years. The OPRA study will be evaluated in June 2010. 32 of the 51 patients have been followed for 2 years or more. Four implants have been removed due to loosening/infection. No patient has been lost to follow-up. Preliminary data shows that the success rate so far is 93% (51/55). Conclusion. Development of this new concept has to be carefully monitored and controlled. Once a standard technique was developed a drop in the complication rate was noted. Although deep infection and fixture loosening is the most feared complication, so far the most encountered one is late deformation of the abutment due to overload since the
We retrospectively evaluated 18 patients with a mean age of 37.3 years (14 to 72) who had undergone pelvic reconstruction stabilised with a non-vascularised fibular graft after resection of a primary bone tumour. The mean follow-up was 10.14 years (2.4 to 15.7). The mean Musculoskeletal Tumor Society Score was 76.5% (50% to 100%). Primary union was achieved in the majority of reconstructions within a mean of 22.9 weeks (7 to 60.6). The three patients with delayed or nonunion all received additional therapy (chemotherapy/radiation) (p = 0.0162). The complication rate was comparable to that of other techniques described in the literature. Non-vascularised fibular transfer to the pelvis is a simpler, cheaper and quicker procedure than other currently described techniques. It is a biological reconstruction with good results and a relatively low donor site complication rate. However, adjuvant therapy can negatively affect the outcome of such grafts.
We report our experience of treating 17 patients with benign lesions of the proximal femur with non-vascularised, autologous fibular strut grafts, without osteosynthesis. The mean age of the patients at presentation was 16.5 years (5 to 33) and they were followed up for a mean of 2.9 years (0.4 to 19.5). Histological diagnoses included simple bone cyst, fibrous dysplasia, aneurysmal bone cysts and giant cell tumour. Local recurrence occurred in two patients (11.7%) and superficial wound infection, chronic hip pain and deep venous thrombosis occurred in three. Pathological fracture did not occur in any patient following the procedure. We conclude that non-vascularised fibular strut grafts are a safe and satisfactory method of treating benign lesions of the proximal femur.
