A supplemental screw enhances the biomechanical stability in medial open-wedge high tibial osteotomy
Jesse Chieh-Szu Yang, P. Lobenhoffer, Chia‐Ming Chang, Cheng‐Fong Chen, Hsiu-Chen Lin, Hsuan-Hsiao Ma, Pei‐Yuan Lee, Oscar Kuang-Sheng Lee
Abstract
BACKGROUND: The supplemental screw technique was introduced for salvage of lateral hinge fracture in medial open-wedge high tibial osteotomy (owHTO). The efficacy of its use in protection of lateral hinge fracture and corresponding biomechanical behaviors remained unclear. The current study was aimed to clarify if a supplemental screw can provide better protection to lateral hinge in biomechanical perspective. MATERIALS: An in vitro biomechanical test was conducted. Tibial sawbones, commercial owHTO plates and a cannulated screw were utilized for preparing the intact, owHTO, and owHTO with cannulated screw insertion specimens. A "staircase" dynamic load protocol was adopted for axial compressive test with increasing load levels to determine structural strength and durability by using a material testing system, while a motion capture system was applied for determining the dynamic changes in varus angle and posterior slope of the tibia plateau with various specimen preparation conditions. RESULTS: Type II lateral hinge fracture were the major failure pattern in all specimens prepared with owHTO. The insertion of a supplemental cannulated screw in medial owHTO specimens reinforced structural stability and durability in dynamic cyclic loading tests: the compressive stiffness increased to 58.9-62.2% of an intact specimen, whereas the owHTO specimens provided only 23.7-29.2% of stiffness of an intact specimen. In view of tibial plateau alignment, the insertion of a supplemental screw improved the structural deficiency caused by owHTO, and reduced the posterior slope increase and excessive varus deformity by 81.8% and 83.2%, respectively. CONCLUSION: The current study revealed that supplemental screw insertion is a simple and effective technique to improve the structural stability and durability in medial owHTO.