An incomplete innomitate osteotomy was followed above to the roof of the acetabulum. A corticotrabecular wedge human bone graft .human in 3 cases or a allograft in 7patients ( 8 hips) were used to reconform the acetabulum.
The type and the location of the fractures of the long bones in children that can be treated by elastic intra-medullary nailing are described in this study. Fourty-one patients (aged from 5–18 years old) were treated in our department with fractures of the long bones located on the metaphysis or diaphysis (5 on the distal third of radious and ulna ,8 diaphyseal fractures of the forearm ,7 diaphyseal fractures of the tibia ,5 of the distal end of tibia ,6 of the femoral diaphysis,7 on the distal end of femur and 3 on the diaphysis of the humerus). All operations were performed under radiological control ,to avoid any damage of the growth plates. Tibial , femoral and humeral fractures were fixed with 2 nails whereas forearm fractures were reducted with one nail. Postoperative immobilization with a long cast was applied in forearm fractures at least for 4 weeks. The follow-up time ranged from 1–3 years. The following clinical findings were noticed at the examination : skin infection at the point of the nail insertion area (3 patients), limitation of the range of movements at the carpal joint (2 patients). Radiological findings showed satisfactory callus formation at an early stage in all cases and rotational deformity in 2 femoral obligue fractures due to insufficient stabilization. According to our clinical and radiological findings the results were excellent in 34 cases and good in 7 cases. Fractures of the diaphysis or metaphysis of the long bones in children are fully indicated for intramedullary nailing with elastic nails and the postoperative complications are minor when the fractures are not close to the growth plates. The method is not indicated for comminuted or oblique fractures and fractures – separations.
The aim of this paper is to present our experience from the surgical treatment of lower limb fractures in the developing skeleton with the use of bio-absorbable PLLA implants as a means of internal fixation. From 1997 until 2002, twenty-three patients (15 boys and 8 girls, ages ranging from 7 to 15 years old, mean of 12 years) who had suffered from 30 lower limb fractures were operated on in our department, with the use of PLLA screws as a means of internal fixation that followed the standard open reduction procedure. We surgically treated 20 tibial fractures (distal metaphysis:1,medial malleolar:6,distal epiphysis lesions:9,tibial spine:2, lateral tibial condyle:1, tibial shaft:1), 8 fibular fractures (distal metaphysis:2, distal epiphysis lesions:5, fibular shaft:1), one transtrochanteric fracture and 1 patellar fracture. All patients were operated on under constant radiographic control. A cast was applied, post-operatively, to all patients, for a period of 3–4 weeks. Gradual and assisted weight-bearing and ambulation, was commencing immediately after the cast removal. All patient’s (with the exception of 1 case of delayed callus formation) post-operative period was completely normal. However, follow-up revealed the development of osteolytic lesions (bone absorption cysts) in 3 of our patients. All lesions were located in the border between epiphysis and metaphysis, at the exact position were the PLLA screws had been placed. The use of PLLA implants in the treatment of fractures renders unnecessary a second operation for the removal of the osteosynthesis’ material. Nevertheless, we should be quite reluctant when deciding to use the PLLA screws in the treatment of these fractures in the developing skeleton, especially of the lower limbs, were the applied weight bearing forces are quite powerful.