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General Orthopaedics

CONGENITAL PSEUDARTHROSIS OF THE TIBIA – RESULTS AT SKELETAL MATURITY FOLLOWING ONLAY CORTICAL BONE GRAFTING AND INTRAMEDULLARY RODDING

Australian Orthopaedic Association Limited (AOA)



Abstract

It is generally accepted that children treated for congenital pseudarthrosis of the tibia (CPT) should be followed-up until skeletal maturity, before drawing conclusions about the efficacy of treatment. We undertook this study in order to evaluate the long-term results of treatment of CPT by excision of the pseudarthrosis, intramedullary rodding and onlay cortical bone grafting.

Among a total of 46 children with CPT treated by a single surgeon during a 20-year period, 38 had been treated by this technique and 11 of these children have reached skeletal maturity. These eleven cases (nine boys and two girls) formed the basis for this study.

The mean age at presentation was 3.1 years (range 0.4–7 years); the mean age at index surgery was 3.2 years (range 0.7–7 years). The mean age at follow-up was 18.4 years (range 16–21.6 years) with a mean interval between surgery and final follow-up of 15.2 years (range 12.8–17.4 years).

In all 11 children bone graft was harvested from the contralateral tibial diaphysis. Rods passed from the heel were used in nine children and in two Sheffield telescopic rods were passed from the ankle into the tibia. The fibula was divided in three children to ensure that the tibial fragments were in good contact before placing the graft astride them; the fibula was not touched in the remaining eight instances. To ensure that the intramedullary rod supported the pseudarthrosis site till skeletal maturity, revision rodding was performed as needed when the tip of the rod receded into the distal third. A thermoplastic clamshell orthosis was used till skeletal maturity.

At final follow-up the union at the pseudarthrosis site was deemed to be ‘sound’ only if two independent observers concurred that there was definite bony continuity of the cortices on both the anteroposterior and lateral radiographs. Deformities of the tibia and ankle and ranges of motion of the knee, ankle and subtalar joints were noted. The limb lengths were measured with scanograms. The morbidity at the bone graft donor site was recorded. The function of the ankle was assessed by applying the American Orthopaedic Foot and Ankle Society (AOFAS) Ankle-Hind foot Score.

Primary union of the tibial pseudarthrosis was achieved in nine of 11 cases with a mean time to union of 6.1 months. Secondary union was achieved in the remaining two cases following further intervention. At final follow-up sound union of the tibial pseudarthrosis was noted in all eleven patients but persistent pseudarthrosis of the fibula was present in 10 of 11 cases. The lateral malleolus was proximally situated in six cases.

Ten of eleven children underwent a total of 21 secondary operations on an average of 2.6 years (range 0.5–5.1 years) after initial union was achieved. Six re-fractures were encountered in five patients at a mean of 6.1 years after index surgery. All the re-fractures united following the single episode of intervention. The overall mean shortening at final follow-up was 2.6 cm. At final follow-up, five patients had ankle valgus greater than 10 degrees. All the 11 patients walked without pain. Only two patients had significant motion at the ankle. Despite the ankle stiffness in the remaining children the AOFAS ankle-hindfoot scores ranged between 70 and 98 (mean 83.3).

Our long-term results are comparable to the results of other studies in terms of the rate of union, the re-fracture rate, limb length discrepancy, residual deformity and the frequency of surgery.