Association of Ilizarov's technique and intramedullary rodding in the treatment of congenital pseudarthrosis of the tibia

Abstract

Purpose: Many surgical techniques have been published on how to treat congenital pseudoarthrosis of the tibia (CPT). We combined Ilizarov's fixator with intramedullary nailing of the tibia and developed a procedure which combines the advantages of both methods: Ilizarov's high fusion rate with alignment control and the protection against refracture provided by the intramedullary nail. The results of this approach are presented and discussed.

Material and methods: Seven boys and three girls aged 3-14 years (mean age 8 years 2 months) were treated using our combined technique. In six cases, the CPT was associated with neurofibromatosis. Two strategies were adopted: in six cases, a compression was applied on the bone defect, and in four cases, segmental bone transportation was performed before the compression procedure. The final follow-up (1.2-6.6 years) included a clinical and radiological examination.

Results: Tibial union was achieved in nine cases without bone grafting. In one case, tibial union still remains uncertain, despite intertibiofibular bone grafting and additional compression procedures. Thirteen overall complications were noted, including three valgus deformity of the ankle. Bone transportation failed to achieve complete limb lengthening in three cases. One deep infection occurred 4 years after removal of the external fixator. The treatment for this included nail removal and antibiotic therapy for 3 months. Despite a permanent protection of orthosis, a refracture occurred 2 years after nail removal, reverting to the initial level of pseudarthrosis. Another surgical attempt using the same method was then performed with a satisfactory result.

Conclusions: The association of Ilizarov's technique and intramedullary nailing achieved and maintained tibial union in nine of ten patients at final follow-up. It also allowed correction of axial deformities and prevented refracture. Despite the short duration of the follow-up and a high rate of complications in our series, this method can be useful in many cases of CPT in which healing has failed to occur despite many previous surgeries.

Figures

Fig. 1

Schematic representation of the two therapeutic strategies. a Dynamic compression and rodding, b dynamic bone transportation and compression, c illustrations of the first strategy (dynamic distal compression) combined with calcaneal fixation

Fig. 2

Initial (a) and final (b) frontal radiographs of a dynamic compression procedure in patient 5

Fig. 3

Preoperative frontal (a) and lateral (b) radiographs in a patient aged 2 years. Initial (c) and final (d) frontal radiographs of a dynamic bone transportation combined with compression procedure in patient 7. The telescopic nail lengthening was obtained first by the Ilizarov apparatus and, after the transportation–compression treatment, by the physiological growth of the tibia

Fig. 4

Four-millimeter diameter titanium nail failure combined with tibial non-union in patient 1

Fig. 5

After a new intramedullary nailing, and compression with Ilizarov’s fixator, the tibial union still remains uncertain in patient 1

Fig. 6

Frontal (a) and lateral (b) initial radiographs in a patient at the age of 3 years. c Result of a compression procedure around a 4-mm titanium nail inserted down to the ankle to avoid distal misalignment of the tibia in a 6-year-old child (Patient 3). d The same patient at the age of 13 years. Note the proximal nail migration due to the growth of the tibia, which is responsible for a distal tibial deformity. e Final result after corrective supramalleolar tibial osteotomy for a 40° ankle valgus