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Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_29 | Pages 22 - 22
1 Aug 2013
Ilg A Becher C Bollars P Uribe J Miniaci A
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Full thickness cartilage defects of the femoral condyles are frequent, can be highly symptomatic, and pose treatment challenges when encountered in middle-aged patients. A history of biological repair procedures is frequent and patient management is complex in order to delay joint replacement procedures in active patients. Focal metallic resurfacing provides a joint preserving bridging procedure with a clinical exit into primary arthroplasty.

Methods.

This study presents a review of several multicenter investigations exploring the clinical benefits and validity of focal resurfacing in 78 patients, ages 35–67, with a follow-up ranging from 2 to 6 years.

All patients were treated with a 15 or 20 mm contoured resurfacing implant on the medial or lateral femoral condyle.

Results.

At 2 years follow up, average scores for WOMAC domains improved by over 100% (40 preop to 86 postop where 100 = best). At 3 year follow-up KOOS scores were within 88 to 102% of a normal aged matched population (domain range 72–91 where 100 = best). At a minimum of 5 years, the KOOS domains were close to normative reference levels on pain relief, symptoms, and activities of daily living (range 83–89% of normal). Radiographic results demonstrated solid fixation, preservation of joint space, and no change in the osteoarthritic stage.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_II | Pages 181 - 181
1 May 2011
Innocenti B Bollars P Luyckx J Labey L Victor J Bellemans J
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Introduction: High-flexion (HF) TKA designs were introduced in order to achieve greater flexion than with conventional TKA designs. Although early clinical results are promising, recent literature raises concerns about fixation and risk for early loosening of the femoral component during high demanding activities. This study’s aim was to measure the loosening force of the femoral component of several PS-TKA designs in a deep flexion configuration.

Methods: The loosening force of the femoral component of ten contemporary PS-TKAs, including five HF and five conventional designs from the major orthopaedic companies were evaluated. To simulate a deep flexion configuration, each TKA was implanted in a femoral bone model and placed in a loading frame in 135° of flexion, with the tibia vertically. Loosening of the femoral component was induced by raising the tibial insert with constant displacement rate, maintaining the same flexion angle. The resisting force was recorded continuously. A stereo-photogrammetric system registered the relative motion between the femoral component and the bone model. The loosening force was determined when a gap of 2 mm was observed. The influence of pegs on the loosening force was also investigated.

Results: Generally, conventional femoral designs required higher forces before loosening occurred compared to HF designs (p< 0.001). In the group of the HF designs there was a statistically significant difference between the designs (p=0.015) due to the shape of the internal box cut. For some designs, the presence of pegs induced a statistically significant change in loosening force.

Discussion and Conclusion: Several design characteristics of the femoral component can alter its resistance to loosening. In this in vitro study, it was shown that the shape of the internal box cut and the presence of pegs, as well as the geometry of the pegs, are important factors for the loosening force. In the group of the HF components there was a statistically significant difference between the designs with an open and a closed box.