Abstract
Introduction
Total knee arthroplasty (TKA) is a successful procedure for end stage arthritis of the knee that is being performed on an exponential basis year after year. Most surgeons agree that soft tissue balancing of the TKA is a paramount to provide a successful TKA. We utilized a set of retrieved lower extremities with an existing TKA to measure the laxity of the knee in all three planes to see if wear scores of the implants correlated to the laxity measured. This data has never been reported in the literature.
Methods
IRB approval was obtained for the local retrieval program. Each specimen was retrieved after removing the skin, subcutaneous tissue and muscle from mid thigh to mid tibia. The femur, tibia and fibula were then transversely cut to remove the specimen for testing. Each specimen was then imaged using a flouroscopic imaging unit (OEC, Inc) in the AP, Lateral and sunrise views. These images were used to analyze whether there were any signs of osteolysis. Each specimen was mounted into a custom knee testing machine (Little Rock AR). Each specimen then was tested at full extension, 30, 60, and 90 degrees of flexion. At each flexion angle the specimen was subjected to a 10Nm varus and valgus torque, a 1.5Nm internal and external rotational torque and a 35N anterior and posterior directed force. Each specimen's implants were removed to record manufacturer and lot numbers. Polyethylene damage scores (Hood et al. JBMR 1983) were then calculated in the medial, lateral and backside of the polyethylene insert as well as on the medial and lateral femoral condyle. (Figure 1) Correlation coefficients were then calculated to show any relationship with soft tissue balancing in all three planes and wear scores.
Results
No correlation > 0.4 existed for any surface damage on the polyethylene or femoral condyle to laxity in any plane (Figure 2). The highest correlations were found with backside wear (0.5) to internal and external rotational laxity. Two thirds of the specimens had more varus than valgus laxity in the coronal plane (p=0.03).
Discussion/Conclusion
This is the first report of necropsy obtained retrievals where the soft tissue laxity of the knee was recorded. Although small numbers with different implant types the data shows that limited correlation exists between implant surface damage and increased laxity. The strongest correlation we found was backside wear to transverse plane laxity in flexion and extension, but this most likely is related to locking mechanism design. It seems in this set of implants that the soft tissue laxity did not affect implant bone interfaces as all were over 10 years from surgery.
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