Wear rates of polytetrafluoroethylene (PTFE) and polyethylene cups were compared in 9-channel and 12-channel simulators, using serum lubrication and gravimetric techniques for wear assessment. Cobalt-chromium (CoCr) and alumina ceramic femoral heads in 22-42 mm diameter range were used to validate simulator wear rates against clinical data. This was also the first study of three femoral head sizes evaluated concurrently in a simulator (with three replicate specimens) and also the first report in which any wear experiments were repeated. Fluid absorption artefacts were within ± 1 per cent of wear magnitude for PTFE and ± 8 per cent for polyethylene and were corrected for. Wear rates were linear as a function of test duration. Precision within each set of three cups was within ±6 per cent. The wear rates from experiments repeated over 15 months were reproducible to within ± 24 per cent. However, the magnitudes of the simulator wear rates were not clinically accurate, the PTFE wear rates (2843 mm3/106 cycles; 22 mm diameter) were over three times higher than in vivo, the polyethylene 30 to 50 per cent on the low side (23 mm3/106 cycles; 22 mm diameter). Volumetric wear rate increased with respect to size of femoral head and a linearly increasing relationship of 7-8 per cent/mm was evident with respect to femoral head diameter for both PTFE and polyethylene. These data compared well with the clinical data.
SwansonA.Limitations of joint simulators In Evaluation of Artificial Joints (Eds DowsonD.WrightV.) 1977 (Biological Engineering Society, London).
2.
DuV-BarclayI.SpillmanD. T.Total human hip joint prostheses-a laboratory study of friction and wearProc. Instn Mech. Engrs, 1966, 181 (3), 90–103.
3.
WrightK. W.J.ScalesJ. T.The use of hip joint simulators for the evaluation of wear of total hip pros-theses In Evaluation of Biomaterials (Eds WinterG. D.LerayJ. L.de GrootK.), 1980, pp. 135–146 (John Wiley and Sons).
4.
NusbaumH. J.RoseR. M.PaulI. L.CrugnolaA. M.RadinE. L.Wear mechanisms for ultra-high molecular weight polyethylene in the total hip prosthesis. J. Appl. Polymer Sci., 1979, 23, 777–789.
5.
McKellopH. A.ClarkeI. C.Evolution and evaluation of materials-screening machines and joint simulators in predictingin vivo wear phenomena. In Functional Behavior of Orthopedic Biomaterials (Eds DucheyneP.HastingsG. W.), 1983, Vol. 2 (CRC Press).
6.
ClarkeI. C.FujisawaA.JungH.Influence of ball diameter on polyethylene wear rates In 19th Annual Meeting of the Society for Biomaterials, 1993, p. 57 (Society for Biomaterials).
7.
CharnleyJ.KamangerA.LongfellowThe optimum size of prosthetic heads in relation to the wear of plastic sockets in total replacement of the hipMed. Biol. Engng., 1969, 7, 31–39.
8.
ClarkeI. C.DaiQ. G.BrahmA.GustafsonG.Effects of serum and water lubrication on PTFE/CoCr implants. InTrans. 2nd Combined Orthopaedic Research Society of USA, Japan, Canada and Europe, San Diego, November 1995, p. 204.
9.
McKellopH.ClarkeI.Degradation and wear of ultra-high molecular weight polyethylene. ASTM STP 859, 1985, 351–368 (American Society for Testing and Materials).
10.
ClarkeI. C.Wear of cups: Can we improve on the Charnley? Presented at the 7th Annual Conference onTechniques and Science for Successful Joint Arthroplasty (Eds CollierJ. P.MayorM. B.), Dartmouth Biomedical Engineering Centre, Burlington, Vermont, USA, 1995.
11.
LivermoreJ.MorreyB.Effect of femoral head size on wear of the polyethylene acetabular component. J. Bone Jt Surg., 1990, 72A(4), 518–528.
12.
McKellopH.LuB.BenyaP.Friction lubrication and wear of cobalt-chromium, alumina and zirconia hip prostheses compared on a joint simulator. InTrans. 38th Annual Orthopaedic Research Society, 1992, p. 402.
13.
CampbellP.MaS.YeomB.McKellopH.SchmalzriedT. P.AmstuzH. C.Isolation of predominantly suband micron-sized UHMWPE wear particles from periprosthetic tissuesJ. Biomed. Mater. Res., 1995, 29, 127–131.
14.
AnissianL.YuL.ChingB.FrykmanE.Qualitative analysis of the wear debris recovered from a hip joint simuand lator. To be presented at the 5th Annual Biomaterial Congress, Ontario, Canada, May 1996.
15.
McKellopH.EbramzadehE.LuB.SarmientoA.Effect of ball material, diameter and surface roughness on the wear of polyethylene acetabular cups In 21st Annual Meeting of the Society for Biomaterials, 1995 (Society for Biomaterials).
16.
ClarkeI. C.GustafsonA.JungH.FujisawaA.Hip simulator ranking of polyethylene wear: Comparison between ceramic heads of different sizeActa Orthop. Scand. (to be published).
17.
DerbyshireB.FisherJ.DowsonD.HardakerC.BrummittK.Comparative study of the wear of UHMWPE with zirconia ceramic and stainless steel femoral heads in artificial hip jointsMed. Engng Physics, 1994, 16, 229–236.
18.
PappasM. J.MakrisG.BuechelF. F.Titanium nitride ceramic film against polyethyleneClin. Orthop. Rel. Res., 1995, 317, 64–70.
19.
SaikkoV.Wear of the polyethylene acetabular cup. The effect of head material, head diameter and cup thickness studied with a hip simulatorActa Orthop. Scand., 66 (6), 501–506.
20.
CharnleyJ.HalleyD. K.Rate of wear in total hip replacementClin. Orthop., 1975, 112, 170–179.
21.
McCoyT. H.SalvatiE. A.RanawatC. S.WilsonP. D.JrA fifteen-year follow-up study of one hundred Charnley low-friction arthroplastiesOrthop. Clin. N. Am.1988, 19 (3), 467–476.
SchmalzreidT. P.Factors correlating survival of metal/metal bearings In Proc. Metal/Metal Hip Prostheses-Past Performance and Future Directions (Eds AmstutzH. C.SchmalzreidT. P.) 1995 (Joint Replacement Institute Orthopedic Hospital, Los Angeles).
24.
CharnleyJ.Wear of plastics materials in the hip joint In Plastics in Medicine and Surgery, 1975, pp. 3.1–3.10 (Plastics and Rubber Institute).
25.
McKellopH.ClarkeI. C.MarkoldK.AmstutzH. C.Wear characteristics of UHMW polyethylene: A method for accurately measuring extremely low wear ratesJ. Biomed. Mater. Res., 1978, 12, 895–927.
26.
KumarP.OkaM.IkeuchiK.ShimizuK.YamamuroT.OkumuraH.KotouraY.Low wear rate of UHMWPW against zirconia ceramic (Y-PSZ) in comparison to alumina ceramic and SUS 316L alloyJ. Biomed. Mater. Res.1991, 25, 813–828.
27.
SaikkoV.Wear of polyethylene acetabular cups against alumina femoral heads. Five prostheses compared in a hip simulator for 35 million walking cyclesActa Orthop. Scand., 1993, 64 (5), 507–512.
28.
SaikkoV.Wear of polyethylene acetabular cups against polyzirconia femoral heads studied with a hip joint simulatorWear, 1994, 176, 207–212.
29.
McKellopH.ClarkeI. C.MarkoldK.AmstutzH.Friction and wear properties of polymer, metal and ceramic prosthetic joint materials evaluated on a multi-channel screening deviceJ. Biomed. Mater. Res., 1981, 15, 619–653.
ClarkeI. C.Wear of artificial joint materials. IV: Hip joint simulator studiesJ. Engng Medicine, 1981, 10, 189–198.
32.
ClarkeI. C.GustafsonA.Wear simulator data for ceramic/PE: Is there valid data to support clinical usage in USA? In 6th Biomaterial Symposium on Implant Materials in Orthopaedic Surgery (Eds WillertH.BuchhornG.), 1996 (Gottingen University, Germany).
33.
DowsonD.JobbinsB.Seyed-HarrafA.An evalu-ation of the penetration of ceramic femoral heads into polyzirconia ethylene acetabular cupsWear, 1993, 162–164, 880–889.
