• PURPOSE
    • Severe Blount's disease results in a multiplanar deformity of the lower limb. The mechanical axis is disrupted, there is a rotational deformity, and also shortening of the limb. A depression of the medial tibial plateau causes joint incongruity and instability. The purpose of this study is to review the results of treatment addressing all the aspects of the deformity.
  • METHODS
    • Four patients were treated for severe Blount's disease. The index procedure consisted of a medial tibial plateau elevating osteotomy, a lateral tibial and proximal fibular epiphysiodesis, a proximal tibial metaphyseal osteotomy, and the application of the Taylor Spatial Frame programmed for correction of varus, rotation and shortening, and preemptive lengthening to compensate for growth arrest.
  • RESULTS
    • Mechanical axis was corrected from a mean 23 degrees (13 degrees -30 degrees ) to 0 degrees in three patients and 6 degrees valgus in 1. Tibias were lengthened by 1-4 cm. At follow-up, the mechanical axis was 0 degrees in two patients and 7 degrees varus in two. The overlengthening was diminishing as planned.
  • CONCLUSIONS
    • The double osteotomy and Taylor Frame correction was found to be accurate, safe, and effective for multiplanar deformity correction in severe Blount's disease.