BACKGROUND: Unicondylar knee arthroplasty is a good alternative for patients in monocompartmental osteoarthritis. The revision rate in unicondylar knee arthroplasty is higher than in total knee arthroplasty. The influence of the tibial slope on wear in unicondylar knee arthroplasty has not been investigated so far. METHODS: The influence of the tibial slope on wear was investigated in mobile bearing unicondylar knee prosthesis. This was positioned with four different tibial slopes (-4°, 0°, 4°, 8°) in a knee wear simulator simulating the human gait in a plane according to ISO 14243-2:2002(E). After this a kinematic analysis was performed and the inlays were observed under reflected-light-microscopy. FINDINGS: Wear was significantly reduced with an increasing tibial slope (0°: 3.46 mg/millioncycles, SD: 0.59, 4° slope: 1.52 mg/millioncycles, SD: 0.06, 8° slope group: 0.99 mg/millioncycles, SD: 0.42). An anterior slope of -4° also reduced wear (2.08 mg/millioncycles, SD: 0.37). Kinematic analysis revealed a reduced translation between the inlay and the tibia with an increasing tibial slope. The backside of the inlays of the 4° and 8° slope group showed less wear pattern when observed under reflected-light microscopy. INTERPRETATION: Increasing the tibial slope led to a reduced translation between the inlay and the prosthesis in the analysed mobile-bearing unicondylar knee arthroplasty and with this to a reduced backside wear. A tibial slope between 4 and 8° can be recommended in mobile UKA to reduce wear, however, the influence on the ligaments has to be considered and needs to be investigated in further studies.
BACKGROUND:Unicondylar knee arthroplasty is a good alternative for patients in monocompartmental osteoarthritis. The revision rate in unicondylar knee arthroplasty is higher than in total knee arthroplasty. The influence of the tibial slope on wear in unicondylar knee arthroplasty has not been investigated so far. METHODS: The influence of the tibial slope on wear was investigated in mobile bearing unicondylar knee prosthesis. This was positioned with four different tibial slopes (-4°, 0°, 4°, 8°) in a knee wear simulator simulating the human gait in a plane according to ISO 14243-2:2002(E). After this a kinematic analysis was performed and the inlays were observed under reflected-light-microscopy. FINDINGS: Wear was significantly reduced with an increasing tibial slope (0°: 3.46 mg/millioncycles, SD: 0.59, 4° slope: 1.52 mg/millioncycles, SD: 0.06, 8° slope group: 0.99 mg/millioncycles, SD: 0.42). An anterior slope of -4° also reduced wear (2.08 mg/millioncycles, SD: 0.37). Kinematic analysis revealed a reduced translation between the inlay and the tibia with an increasing tibial slope. The backside of the inlays of the 4° and 8° slope group showed less wear pattern when observed under reflected-light microscopy. INTERPRETATION: Increasing the tibial slope led to a reduced translation between the inlay and the prosthesis in the analysed mobile-bearing unicondylar knee arthroplasty and with this to a reduced backside wear. A tibial slope between 4 and 8° can be recommended in mobile UKA to reduce wear, however, the influence on the ligaments has to be considered and needs to be investigated in further studies.
Authors: Patrick Weber; Christian Schröder; Jens Schwiesau; Sandra Utzschneider; Arnd Steinbrück; Matthias F Pietschmann; Volkmar Jansson; Peter E Müller Journal: Biomed Res Int Date: 2015-01-15 Impact factor: 3.411
Authors: Patrick Weber; Matthias Woiczinski; Arnd Steinbrück; Florian Schmidutz; Thomas Niethammer; Christian Schröder; Volkmar Jansson; Peter E Müller Journal: Biomed Res Int Date: 2018-07-05 Impact factor: 3.411