The efficacy of guided growth as an initial strategy for Blount disease treatment

The classic treatment of pathological angular deformities of the extremities is corrective osteotomy; however, osteotomies require hospitalization, pain management, immobilization, and delayed weight bearing. The associated risks, inconvenience, and cost of osteotomy make hemiepiphysiodesis or guided growth an attractive option. Although stapling has a long and proven track record, reported drawbacks related to implant failure, including migration or breakage of staples, have led some to abandon this technique. This report describes a prospective series of 34 consecutive patients who presented with a total of 65 deformities (femur and/or tibia) due to a variety of pathological conditions and who underwent guided growth using a nonlocking extraperiosteal 2-hole plate and screws. This technique relies upon the tension band principle rather than physeal compression. With follow-up ranging from 14 to 26 months (from implantation) in this series, 32 of 34 patients (63 deformity levels) have corrected to neutral at a mean of 11 months and the hardware has been removed. The observed rate of correction was approximately 30% more rapid than noted with stapling, and there have been no permanent growth arrests. Four patients with bilateral idiopathic genu valgum experienced rebound deformity and have since undergone repeat guided growth using the same technique. Only 2 patients with adolescent Blount disease have experienced insufficient correction; each may need a corrective osteotomy of the tibia. Having prevented 63 (97%) of 65 osteotomies in this series of patients, it is evident that guided growth holds promise for postponing if not preventing more invasive surgery.These patients will be observed up to maturity to support my conclusion that the concept of osteotomy as a first resort and criterion standard has become outdated.

Angular deformities of the tibia or femur in the frontal plane lead to mechanical axis deviation of the lower limb and malorientation of the joints above and below the level of deformity. Accurate correction of the malalignment and of the joint orientation is important for function and to prevent joint degeneration. An accurate yet simple method to determine the apex of deformity and the type of correction required is based on the joint reference lines of the hip, knee, and ankle, and the individual mechanical axis lines of each bone segment. If the osteotomy is performed at the level of the apex of the deformity, then the only correction needed is angulation. If the osteotomy is performed at a level proximal or distal to the apex, then translation in addition to angulation is necessary to accurately correct the deformity.

Hemiepiphysiodesis is a well-established treatment option for angular deformities of the knee. Recently, our institution began using the eight-Plate tension band device by Orthofix (McKinney, Tex) as an alternative to staples. However, several patients have returned with broken screws necessitating revision surgery. Charts and radiographs of all patients who were treated with the eight-Plate (Orthofix) at our institution were reviewed. The diagnosis, age, amount of angular deformity, weight, and body mass index were analyzed with respect to eventual implant failure. Implant failure occurred in 8 (26%) of 31 proximal tibia constructs. All 8 failures occurred in patients with Blount disease and involved breakage of the tibial metaphyseal screw. The mean time to failure was 13.6 months. Eight hardware failures in 18 Blount disease extremities represent a failure rate of 44%. No implant failures occurred in the remaining diagnoses. Neither age nor degree of deformity correlated with implant failure. The failure group was significantly heavier than the nonfailure group, and the patients with Blount disease were found to be heavier than the other patients. However, no significant difference in weight was found within the Blount group regarding implant failure. In all patients whose plates did not fail, rate of correction was equal to or better than previously reported hemiepiphysiodesis studies. The eight-Plate (Orthofix) is a reasonable option for hemiepiphysiodesis but has an unacceptable failure rate in Blount disease (44%). There were no instances of failure in patients with other diagnoses. In Blount disease, stronger implants should be considered. Future implant designs should include stronger screws to decrease implant failure complications.