Abstract
Introduction: Aseptic loosening due to polyethylene wear is a mode of failure in knee arthroplasty. No study has evaluated the roughness of the articulating surface of retrieved femoral components & its role in creation of polyethylene wear. AIM The aim of our study was to investigate the in-vivo changes in the surface roughness of retrieved femoral components. Our hypothesis was that the surface finish of the femoral components, articulating with the polyethylene inserts deteriorated in accordance with the duration of implantation.
Materials and Methods: 22 femoral components, all Freeman-Samuelson prostheses, were retrieved from 18 male and 4 female patients at revision knee surgery. The mean age at revision was 68.4 years and the mean period of implantation was 55.64 months. 18 implants were retrieved for aseptic loosening and 4 for infection. Firstly, the surfaces of femoral components & polyethylene inserts were visually inspected for modes of damage in the articulating areas. The surface finish measurements were performed with a contact stylus profilometer with a 2-mm-radius stylus tip and a cut-off length of 0.8mm. The surface roughness was characterised by measuring Ra(mm), which is the arithmetic mean of the absolute values of the measured height deviations taken within the evaluation area and measured from the main line or surface. Both condyles were examined as separate areas articulating with the tibial components from 0° to 60° and 61° to 120° of knee flexion. Surface roughness (Ra) measurements from the sides of the patellar groove at the top of the femoral flange, which do not articulate either with the patella or tibia, were taken as control. The Ewald method of assessing the orientation of the components was applied to derive the coronal angle of the knee (CAK).
Results: The mean CAK was 7.2° ± 1°. Dull edged parallel scratching and burnishing were the main modes of damage identified on the surface in the articulating areas. Visual analysis of polyethylene inserts failed to identify embedded Polymethyl-methacrylate debris or any other damage, which matched the location of the altered surface finish of the femoral components. The mean Ra values recorded were: Control: Mean-0.0230 mm, SD- 0.00821. Medial Femoral condyle (0° – 60°) – 0.0225 mm, SD – 0.00797, P=0.832 Medial Femoral Condyle (61° – 120°) – 0.0244 mm, SD – 0.00532, P= 0.189 Lateral Femoral condyle (0° – 60°) – 0.0263 mm, SD – 0.00694, P= 0.078 Lateral Femoral Condyle (61° – 120°) – 0.0253 mm, SD – 0.00758, P= 0.286 No statistically significant difference was seen in the mean roughness (Ra) of the articulating areas when compared to that of the control (P< 0.05).
Conclusion: This study showed that the surface finish of these implants did not deteriorate during the period of implantation. On this basis we believe that a well-aligned and well-fixed femoral component, without any accumulated wear debris beneath it, does not require mandatory exchange if the revision is carried out for isolated failure of the tibial prosthesis even if the femoral component has fine scratching or burnishing on its surface.
Correspondence should be addressed to Dr Carlos Wigderowitz, Honorary Secretary of BORS, Division of Surgery & Oncology, Section of Orthopaedic & Trauma Surgery, Ninewells Hospital & Medical School Tort Centre, Dundee, DD1 9SY.