首页 /研究 /Biomechanics Following Isolated Posterolateral Corner Reconstruction Comparing a Fibular‐Based Docking Technique With a Tibia and Fibular–Based Anatomic Technique Show Either Technique is Acceptable
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Biomechanics Following Isolated Posterolateral Corner Reconstruction Comparing a Fibular‐Based Docking Technique With a Tibia and Fibular–Based Anatomic Technique Show Either Technique is Acceptable

Peter S. Vezeridis, Ian D. Engler, Matthew J. Salzler, Ali Hosseini, F. Winston Gwathmey, Guoan Li

发表年份
2019
引用次数
17

摘要

PURPOSE: To analyze the biomechanical integrity of 2 posterolateral corner (PLC) reconstruction techniques using a sophisticated robotic biomechanical system that enables analysis of joint kinematics under dynamic external loads. METHODS: Eight cadaveric human knee specimens were tested. Five N·m external torque followed by 5 N·m varus torque was dynamically applied to each specimen. The 6 degrees of freedom kinematics of the joint were measured in 4 states (intact, PLC-deficient, fibular-based docking, and anatomic PLC reconstructed) at 30°, 60°, and 90° of flexion. Tibial external rotation (ER) and varus rotation (VR) were compared. RESULTS: Under external torque, ER significantly increased from the intact state to the PLC-deficient state across all flexion angles. At 30° of flexion, ER was not significantly different between the intact state (19.9°) and fibular-based (18.7°, P = .336) and anatomic reconstructions (14.9°, P = .0977). At 60°, ER was not significantly different between the intact state and fibular-based reconstruction (22.4°, compared with 19.8° in intact; P = .152) but showed overconstraint after anatomic reconstruction (15.7°; P = .0315). At 90°, ER was not significantly different between the intact state and anatomic reconstruction (15.4°, compared with 19.7° in intact; P = .386) but was with the fibular-based technique (23.5°; P = .0125). CONCLUSION: Both a fibular-based docking technique and an anatomic technique for isolated PLC reconstruction provided appropriate constraint through most tested knee range of motion, yet the fibular-based docking technique underconstrained the knee at 90°, and the anatomic reconstruction overconstrained the knee at 60°. Biomechanically, either technique may be considered for surgical treatment of high-grade isolated PLC injuries. CLINICAL RELEVANCE: This biomechanical study utilizing clinically-relevant dynamic forces on the knee shows that either a simplified fibular-based docking technique or a more complex anatomic technique may be considered for surgical treatment of high-grade isolated PLC injuries.

关键词

Cadaveric spasmKinematicsBiomechanicsFibulaAnatomyTibiaKnee JointTorqueDocking (animal)External rotation

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