Autologous segmental tibia bone transfer in the treatment of distal tibia Gustilo-Anderson type-III open fracture: A case report

Twenty-five patients aged 19-62 years were treated for tibial nonunions (22 atrophic, three hypertrophic) with bone loss (1-23 cm, mean 6.2 cm) by the Ilizarov technique and fixator. Thirteen had chronic osteomyelitis, 19 had a limb-length discrepancy (2-11 cm), 12 had a bony defect (1-16 cm), and 13 had a deformity. Six had a bone defect with no shortening, 13 had shortening with no defect, and six had both a bone defect and shortening. Nonunion, bone defects, limb shortening, and deformity can all be addressed simultaneously with the Ilizarov apparatus. Bone defects were closed from within without bone grafts by the Ilizarov bone transport technique of sliding a bone fragment internally, producing distraction osteogenesis behind it until the defect is bridged (internal lengthening). Length was reestablished by distraction of a percutaneous corticotomy or through compression and subsequent distraction of the pseudarthrosis site (external lengthening). Distraction osteogenesis resulting from both processes obviated the need for a bone graft in every case. Deformity was corrected by means of hinges on the apparatus. Infection was treated by radical resection of the necrotic bone and internal lengthening to regenerate the excised bone. Union was achieved in all cases. The mean time to union was 13.6 months, but it was only 10.6 months if the time taken for unsuccessful compression-distraction of the nonunion is eliminated from the calculation. The bone results were excellent in 18 cases, good in five, and fair in two based on union in all cases, persistent infection in three, deformity in four, and limb shortening in one. The functional results were excellent in 16 cases, good in seven, fair in one, and poor in one based on return to work and daily activities in all cases, limp in four cases, equinus deformity in five cases, dystrophy in four cases, pain in four cases, and voluntary amputation for neurogenic pain in one case.

To evaluate the results and complications of Ilizarov bone transport in the treatment of tibial bone defects. Retrospectively reviewed consecutive series. Nineteen patients with tibial bone defects were treated by the Ilizarov bone transport method. The mean bone defect was ten centimeters, and there were eight soft-tissue defects. The mean external fixation time was sixteen months. Ten patients required debridement of the bone ends and/or bone grafting of the docking site at the end of transport. Union was achieved in all cases. One refracture of the docking site required retreatment with the Ilizarov apparatus to achieve union. There was one residual leg length discrepancy greater than 2.5 centimeters and two angular deformities greater than 5 degrees. There were no recurrent or residual infections. Seven of the eight soft-tissue defects were closed by soft-tissue transport; the eighth required a free-vascularized flap. The bone results were graded as fifteen excellent, three good, and one fair. The functional results were graded as twelve excellent, six good, and one poor. There were twenty-two minor complications, sixteen major complications without residual sequelae, and three major complications with residual sequelae. To treat the bone defect and the complications, a mean of 2.9 operations per patient was required. Our results compare favorably with those for other methods of bone grafting as well as with those from other published accounts of the Ilizarov method, especially considering the large defect size in this series. The main disadvantage of the Ilizarov method is the lengthy external fixation time.

We have managed 21 patients with a fracture of the tibia complicated by bone and soft-tissue loss as a result of an open fracture in 10, or following debridement of an infected nonunion in 11, by resection of all the devitalised tissues, acute limb shortening to close the defect, application of an external fixator and metaphyseal osteotomy for re-lengthening. The mean bone loss was 4.7 cm (3 to 11). The mean age of the patients was 28.8 years (12 to 54) and the mean follow-up was 34.8 months (24 to 75). All the fractures united with a well-aligned limb. The mean duration of treatment for the ten grade-III A+B open fractures (according to the Gustilo-Anderson classification) was 5.7 months (4.5 to 8) and for the nonunions, 7.6 months (5.5 to 12.5). Complications included one refracture, one transient palsy of the peroneal nerve and one equinus contracture of 10 degrees .