Stefan Schroeder1, Steffen Braun2, Ulrike Mueller3, Matthias Vogel4, Robert Sonntag5, Sebastian Jaeger6, Jan Philippe Kretzer7. 1. Laboratory of Biomechanics and Implant Research, Clinic for Orthopaedics and Trauma Surgery, Heidelberg University Hospital, Schlierbacher Landstraße 200A, 69118, Heidelberg, Germany. Electronic address: Stefan.Schroeder@med.uni-heidelberg.de. 2. Laboratory of Biomechanics and Implant Research, Clinic for Orthopaedics and Trauma Surgery, Heidelberg University Hospital, Schlierbacher Landstraße 200A, 69118, Heidelberg, Germany. Electronic address: Steffen.Braun@med.uni-heidelberg.de. 3. Laboratory of Biomechanics and Implant Research, Clinic for Orthopaedics and Trauma Surgery, Heidelberg University Hospital, Schlierbacher Landstraße 200A, 69118, Heidelberg, Germany. Electronic address: Ulrike1.Mueller@med.uni-heidelberg.de. 4. Laboratory of Biomechanics and Implant Research, Clinic for Orthopaedics and Trauma Surgery, Heidelberg University Hospital, Schlierbacher Landstraße 200A, 69118, Heidelberg, Germany. Electronic address: matthias.v@mail.de. 5. Laboratory of Biomechanics and Implant Research, Clinic for Orthopaedics and Trauma Surgery, Heidelberg University Hospital, Schlierbacher Landstraße 200A, 69118, Heidelberg, Germany. Electronic address: Robert.Sonntag@med.uni-heidelberg.de. 6. Laboratory of Biomechanics and Implant Research, Clinic for Orthopaedics and Trauma Surgery, Heidelberg University Hospital, Schlierbacher Landstraße 200A, 69118, Heidelberg, Germany. Electronic address: Sebastian.Jaeger@med.uni-heidelberg.de. 7. Laboratory of Biomechanics and Implant Research, Clinic for Orthopaedics and Trauma Surgery, Heidelberg University Hospital, Schlierbacher Landstraße 200A, 69118, Heidelberg, Germany. Electronic address: Philippe.Kretzer@med.uni-heidelberg.de.
Abstract
BACKGROUND: For prosthetic knee joints of the hinged type, typically polyethylene (PE) flexion bushings are used between axis and femoral component to prevent metallic wear. Nevertheless, PE-wear can lead to periprosthetic osteolysis followed by aseptic loosening of the implant. Based on high creep and wear resistance carbon-fibre-reinforced polyether ether ketones (CFR-PEEKs) could provide an alternative material to ultra-high-molecular-weight polyethylene (UHMWPE) for this bearing type. METHODS: Flexion bushings of four different materials were investigated (CFR-PEEK pitch fibres, CFR-PEEK PAN fibres, virgin PEEK without carbon fibres and UHMWPE) using a bushing tester. For determination of the polymeric and metallic wear, gravimetric measurements and particle analyses were performed. RESULTS: The polymeric wear rates of CFR-PEEK PAN (6.657 ± 0.714 mg/106 cycles) and CFR-PEEK pitch (32.085 ± 2.748 mg/106 cycles) were significantly higher compared to the polymeric wear rates of virgin PEEK (0.764 ± 0.283 mg/106 cycles) or UHMWPE (-0.015 ± 0.011 mg/106 cycles) (p < .001). In addition, the metallic wear rates were significantly higher when using bushings made of CFR-PEEK PAN (3.373 ± 0.214 mg/106 cycles) and CFR-PEEK pitch (3.604 ± 0.355 mg/106 cycles), than when using bushings made of virgin PEEK (0.177 ± 0.049 mg/106 cycles) or UHMWPE (0.031 ± 0.011 mg/106 cycles) (p < .001). The mean particle size of the two CFR-PEEK groups was significantly smaller compared to the virgin PEEK and UHMWPE group (p < .001). CONCLUSION: According to these results, the clinical use of CFR-PEEK in combination with CoCr could lead to higher wear rates and this should be avoided. Virgin PEEK may still be considered as an alternative to UHMWPE to use it for flexion bushings in a hinged knee joint.
BACKGROUND: For prosthetic knee joints of the hinged type, typically polyethylene (PE) flexion bushings are used between axis and femoral component to prevent metallic wear. Nevertheless, PE-wear can lead to periprosthetic osteolysis followed by aseptic loosening of the implant. Based on high creep and wear resistance carbon-fibre-reinforced polyether ether ketones (CFR-PEEKs) could provide an alternative material to ultra-high-molecular-weight polyethylene (UHMWPE) for this bearing type. METHODS: Flexion bushings of four different materials were investigated (CFR-PEEK pitch fibres, CFR-PEEK PAN fibres, virgin PEEK without carbon fibres and UHMWPE) using a bushing tester. For determination of the polymeric and metallic wear, gravimetric measurements and particle analyses were performed. RESULTS: The polymeric wear rates of CFR-PEEK PAN (6.657 ± 0.714 mg/106 cycles) and CFR-PEEK pitch (32.085 ± 2.748 mg/106 cycles) were significantly higher compared to the polymeric wear rates of virgin PEEK (0.764 ± 0.283 mg/106 cycles) or UHMWPE (-0.015 ± 0.011 mg/106 cycles) (p < .001). In addition, the metallic wear rates were significantly higher when using bushings made of CFR-PEEK PAN (3.373 ± 0.214 mg/106 cycles) and CFR-PEEK pitch (3.604 ± 0.355 mg/106 cycles), than when using bushings made of virgin PEEK (0.177 ± 0.049 mg/106 cycles) or UHMWPE (0.031 ± 0.011 mg/106 cycles) (p < .001). The mean particle size of the two CFR-PEEK groups was significantly smaller compared to the virgin PEEK and UHMWPE group (p < .001). CONCLUSION: According to these results, the clinical use of CFR-PEEK in combination with CoCr could lead to higher wear rates and this should be avoided. Virgin PEEK may still be considered as an alternative to UHMWPE to use it for flexion bushings in a hinged knee joint.