The effects of different hinge positions on posterior tibial slope in medial open-wedge high tibial osteotomy

Abstract

The purpose of this study was to determine the standard hinge position to minimize effects from medial open-wedge high tibial osteotomy (HTO) on the posterior tibial slope. Sixteen cadaveric knees underwent medial open-wedge osteotomy using either the standard or the low hinge position. To define the standard hinge position, a line 3cm inferior to the medial tibial plateau towards the fibular head and located its intersection with a longitudinal line 1cm medial to the fibular shaft was drawn. Low hinge position was defined as the point 1cm inferior to the standard position. After tibial osteotomy, computed tomography scans of each knee were taken and three-dimensional models were constructed to characterize hinge position orientation and measure the osteotomy site effects on posterior tibial slope, medial proximal tibial angle, and gap ratio (the ratio of the anterior to posterior gap in the opened wedge). In two low hinge position specimens, the tibial lateral cortex hinge fracture occurred. Osteotomy through the low hinge position resulted in significantly greater posterior tibial slope compared to the standard hinge position (mean±standard deviation) (11.2±3.0° and 5.6±2.5°, respectively; p<0.001). Medial proximal tibial angle was also significantly greater for low compared to standard hinge position (95.4±3.5° and 88.0±3.5°, respectively; p<0.001). Gap ratio was not significantly different between the two groups. Hinge position significantly affects the posterior tibial slope and medial proximal tibial angle following medial open-wedge HTO. Accurate hinge position is crucial to prevent complications from changes in posterior tibial slope and medial proximal tibial angle after surgery.