RSS-Feed abonnieren
DOI: 10.1055/s-0031-1275390
© Thieme Medical Publishers
The Influence of Material and Design on Total Knee Replacement Wear
Publikationsverlauf
Publikationsdatum:
25. März 2011 (online)
ABSTRACT
It is difficult for surgeons to make the decision on which design or material to use given the different options available. Marketing claims and direct-to-consumer advertising certainly complicate this further. One company may claim a higher percentage of wear reduction with their bearing surfaces compared with those of another manufacturer. If the percentage of wear reduction is lower, it is unclear as to whether this creates a more effective technology for reducing wear in the clinical situation. The relative contribution and relationship of design and materials to wear performance must be considered before making that important judgment. To examine the overall influence of implant design on wear reduction, a knee simulator study was undertaken. This simulator study compared the Oxinium Genesis II system with the Triathlon Conventional and Triathlon X3 knee systems under physiologic stair-climb loading and motion profiles. This allows a similar comparison of material effect within one design but also a global comparison across designs. Test results show the Triathlon Conventional and Triathlon X3 knee systems have superior wear resistance compared with that of the Genesis II Oxinium system under stair-climbing simulation. This finding indicates that implant design plays a more significant role in knee wear reduction than material. Although material technology may improve a given knee system's ability to wear, design geometry has a first-order effect and should be addressed before materials. This study represents an effort to differentiate design effect from two different approaches to material enhancement. The results of this study support the predominance of design in knee replacement wear performance. Ultimately, only clinical evidence such as published studies or outcomes reported in the available joint registries will establish whether any material or design can achieve a 30-year outcome.
KEYWORDS
Total knee arthroplasty - wear or knee wear simulator - in vitro testing - knee design - cross-linked UHMWPE
REFERENCES
- 1 Kurtz S M, Lau E, Ong K, Zhao K, Kelly M, Bozic K J. Future young patient demand for primary and revision joint replacement: National projections from 2010 to 2030. Clin Orthop Relat Res. 2009; 467 2606-2612
-
2 Smith & Nephew. Rediscover your go. 2011 .Available at: http://www.rediscoveryourgo.com/Product.aspx?Product=VERILAST Accessed January 24, 2011
- 3 Smith & Nephew .White Paper using DOF, 30 Year Wear Performance of Legion Primary Knees with Verilast Technology. Smith & Nephew, Memphis, TN
- 4 Laurent M P, Yao J Q, Bhambri S et al.. High cycle wear of highly crosslinked UHMWPE tibial articular surfaces evaluated in a knee wear simulator. 27th Annual Meeting Transactions, Society for Biomaterials. 2002: 712
-
5 Biomet White Paper .FDA Cleared Claim for E1 Knee Bearings – 510(k) K080528. 2010 Available at: http://www.fda.gov
- 6 Tsukamoto R, Williams P A, Shoji H et al.. Wear of sequentially enhanced 9-Mrad polyethylene in 10 million cycle knee simulation study. J Biomed Mater Res B Appl Biomater. 2008; 86 (1) 119-124
- 7 Spector B M, Ries M D, Bourne R B, Sauer W S, Long M, Hunter G. Wear performance of ultra-high molecular weight polyethylene on oxidized zirconium total knee femoral components. J Bone Joint Surg Am. 2001; 83 (Suppl 2 Pt 2) 80-86
- 8 Zeng H, Yau S S, Essner A, Manley M, Dumbleton J. Wear, oxidation and mechanical properties of a sequentially irradiated and annealed UHMWPE in total joint replacement. J Phys D: Appl Phys. 2006; 39 3213-3219
- 9 Riener R, Rabuffetti M, Frigo C. Stair ascent and descent at different inclinations. Gait Posture. 2002; 15 32-44
- 10 Morrison J B. Function of the knee joint in various activities. Biomed Eng. 1969; 4 573-580
- 11 Essner A, Zeng H, Yau S S et al.. Stair climbing knee wear simulation: Sequentially crosslinked and annealed UHMWPE. 30th Annual Meeting of the Society for Bio-materials, Mt. Laurel, NJ. Soc Biomater. 2005; 196
- 12 Wang A, Essner A, Schmidig G. The effects of lubricant composition on in vitro wear testing of polymeric acetabular components. J Biomed Mater Res B Appl Biomater. 2004; 68 45-52
- 13 ASTM F2025 - Standard Practice for Gravimetric Measurement of Polymeric Components for Wear Assessment. West Conshohocken, PA: American Society of Testing of Materials International 2006;
- 14 Wang A, Essner A, Polineni V K, Stark C, Dumbleton J H. Lubrication and wear of UHMWPE in total joint replacements. In: Hutchings I M, ed. New Directions in Tribology. London, UK: Institute of Mechanical Engineers; 1997: 443-457
- 15 Bourne R B, Barrack R, Rorabeck C H, Salehi A, Good V. Arthroplasty options for the young patient: Oxinium on cross-linked polyethylene. Clin Orthop Relat Res. 2005; (441) 159-167
- 16 Wang A, Yau S S, Essner A, Herrera L, Manley M, Dumbleton J. A highly crosslinked UHMWPE for CR and PS total knee arthroplasties. J Arthroplasty. 2008; 23 559-566
- 17 Korduba L, Loving L, Essner A, Kester M. Wear comparison of fixed vs. mobile bearing total and unicompartmental knee replacements [paper no. 238]. Paper presented at: 7th Combined Meeting of the Orthopaedic Research Societies; October 2010; Takaragaike, Sakyo-ku, Kyoto, Japan
- 18 Johnson T S, Laurent M P, Yao J Q, Blanchard C R. Comparison of wear of mobile & fixed bearing knees tested in a knee simulator. Wear. 2003; 255 (7–12) 1107-1112
Aaron EssnerM.S.
Director – Biomechanics & Tribology, Stryker Orthopaedics
325 Corporate Drive, Mahwah, NJ 07430
eMail: Aaron.Essner@stryker.com