Patients with above knee amputation (AKA) often experience poor socket fit exacerbated by minor weight changes, sweating, and skin problems. A transcutaneous, press-fit distal femoral intra-medullary device was designed in 1999, such that the distal external aspect serves as a hard point for AKA prosthesis attachment. The implant is placed in a retrograde fashion, followed 6-8 weeks later by stomatisation and connected via direct extention to an AKA prosthesis. Thirty-seven patients with 39 limbs (30 males, 7 females) underwent two-stage prosthesis implantation with the Endo-Exo Femurprosthesis (EEFP) in Germany between 1999 and January 2008. Their indications for surgery were persistent AKA prosthesis socket difficulties with absence of major comorbid physical or mental illnesses. The patients were followed clinically and radiographically for a minimum of 2 years. Assessments included patient satisfaction ratings, functional surveys, pain scores, and oxygen consumption. Fifty-four percent of patients needed at least one revision (20/37); 80% were minor (16/20) and 20% were major (4/20). Most of the minor revisions were due to soft tissue stomal irritation and occurred prior to a design change in the prosthesis. 2 patients sustained traumatic, peri-trochanteric fractures that were treated operatively proximal to the implant, with retention of the implant. 4 implants were explanted due to infection or prosthesis fracture and 2 of these (50%) were later reimplanted successfully. Overall, 94.9% (37/39) limbs had ultimate EEFP implant success. All functional assessments showed statistically significant improvement over baseline except oxygen consumption, which trended toward improvement. This procedure demonstrated a high degree of functional improvement for the majority of AKA patients treated. Despite an initially high revision rate, the EEFP prosthesis achieves an extremely high rate of successful reconstruction for trans-femoral amputees when more traditional options have failed and therefore warrants further scientific study.
Open femoral fractures are uncommon, and there are very few reports in the literature which refer specifically to their management. The results of the treatment of 31 open femoral fractures with significant bone loss in 29 patients treated in a single Orthopaedic Trauma Unit were reviewed. All fractures underwent wound and bony debridement before skeletal stabilisation at restored femoral length, using primary locked intramedullary nailing or dynamic condylar screw fixation for diaphyseal or metaphyseal fractures respectively. Soft tissue closure was performed at 48 hours in the majority of cases, followed by elective bone grafting procedures for 13 of the fractures. All fractures achieved bony union at an average of 51 weeks (range 20-156 weeks). The time to fracture union and subsequent functional outcome were largely dependent upon the location, type and extent of the bone loss. Union was achieved more rapidly in fractures associated with wedge defects than those with segmental bone loss, and fractures with metaphyseal defects healed more rapidly than those of comparable size in the diaphysis. Metaphyseal wedge fractures did not require any further procedures to achieve union. Complications were more common in the fractures with greater bone loss, which included knee stiffness, delay to union, malunion and leg length discrepancy. One patient had a deep infection, treated by debridement. We have produced an algorithm for the treatment of these injuries, based upon our findings. We feel that satisfactory results can be achieved in most femoral fractures with bone loss, using appropriate initial debridement and modern methods of primary skeletal fixation at a restored femoral length, followed by soft tissue coverage procedures and elective bone grafting, as required.