Treatment of Posttraumatic Deformities in Children and Adolescents Using the Taylor Spatial Frame

The Taylor Spatial Frame provides outstanding stability and computer accuracy and is a reliable and definite method for posttraumatic deformity correction. Limb deformity may result from various traumatic sequelae. The most common cause is fracture malunion, but in growing children, shortening and angulation secondary to physis injury is also common. Correction of posttraumatic deformities can be done by various approaches. Each method has pros and cons, but a combination of limb shortening and angulation justify external fixator application. Several external fixators are available. They can be divided into 2 groups: monolateral and circular. A monolateral external fixator may be more easily tolerated, but it is less stable and forgiving compared to the circular external fixator. The Ilizarov frame is a classic example of a circular external fixator. This frame allows excellent stability but has some disadvantages, such as a long surgeon learning curve and difficulty with rotational correction. The Taylor Spatial Frame (Smith & Nephew, Memphis, Tennessee) is a computerized external fixator with a virtual hinge and the ability to correct 6-axis deformities simultaneously. In contrast with the Ilizarov frame, there is no need for hinge application, multiple frame adjustments, or change of frame configuration to correct multiple plane deformities. The purpose of this study was to determine the effectiveness of the Taylor Spatial Frame for treatment of complex posttraumatic deformities in children and adolescents.