Problems with Wear in Artificial Orthopaedic Joint Replacements: a Review

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Key Engineering Materials (Volumes 230-232)

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Teresa Vieira

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447-454

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J.D. Bolton, "Problems with Wear in Artificial Orthopaedic Joint Replacements: a Review", Key Engineering Materials, Vols. 230-232, pp. 447-454, 2002

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October 2002

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[1] D. Davis, Proc. Inst. Mech. Engrs. 181, (1967), p.25.

[2] A Review of the UK research base in Biomaterials, Royal Acad. Engrs., London, (1998).

[3] J.H. Dumbleton, Tribology of Natural Joints, Series 3, Elsevier, (1981), p.3.

[4] M.J. Pappas, P.E. Frederick, M.D. Beuchal, Biomechanics and design rationale: New Jersey LCS knee replacement system, Depuy Int, (1993).

[5] Corin Group Ltd, Cirencester, UK.

[6] H.A. Amstutz, P. Grigoris, Clin. Ortho. & Related Research, 329s, (1996), p. S11.

[7] G. Lewis, Biomaterials, 22, (2001), p.371.

[8] B.S. Becker, PhD thesis, The powder metallurgy of surgical implant alloys with reference to corrosion resistance and mechanical properties, University of Bradford, (1996).

[9] W. Rostoker, J.O. Galante, J. Biomec. Eng., 101, (1979), p.2.

[10] J.A. Davidson, Hip Soc. Meeting, Washington DC, (1992), p.2.

[11] J.E. Smeathers, V. Wright, Proc. Inst. Mech Eng., Part H, 204, (1990), p.25.

[12] J.Q. Yao, A. Unsworth, Proc. Inst. Mech. Eng. part H, 207, (19930, p.245.

[13] S.C. Scholes, A. Unsworth , R.M. Hall, R. Scott, Wear 241, (2000), p.209.

[14] D. Dowson, Inst. Mech. Eng. part H, 206, (19920, p.1.

[15] Z.M. Jin, D. Dowson, J. Fisher, Inst. Mech. Eng. part H, 211, (1997), p.247.

[16] A. Wang, C. Stark, J.H. Dumbleton, Proc. Inst. Mech Eng., Part H, 210, (1996), p.137.

[17] S.M. Kurtz, C.M. Rimnac, L. Pruitt, C.W. Walker, A.A. Edidin, Biomaterials 21 (2000), p.283.

[18] J. Fisher, E. Ingham, B.M. Wrobleswki, M. Stone, Polyethylene in Orthopaedics, Inst. of Materials, Oct 1997, London.

[19] B. Weightman, S.A. Swanson, G.H. Isaac, B.M. Wroblewski, J. Bone & Joint Surg., 73-B, (1991), p.806.

[20] J.M. Lee, E.A. Salvati, F. Betts, E.F. DiCarlo, S.B. Doty, P.G. Bullough, J. Bone & Joint Surg., 74-B, (1992), p.380.

[21] B.D. Ratner, A.S. Hoffman, F.J. Schoen, J.E. Lemons, Biomaterials Science, Materials in Medicine, Acad. Press, (1996).

[22] G.W. Blunn, P.S. Walker, C.J. Bell, 42 nd Ann: Meeting, Orthopaedic Res. Soc., (1996), Atlanta, USA.

[23] G. Blunn, C. Bell, P.S. Walker, Polyethylene in Orthopaedics, Inst. of Materials, Oct 1997, London.

[24] L.P. Ward, C. Subramanian, K.N. Strafford, T.P. Wilks, Proc. Inst. Mech. Engnr., Part H, 212, (1998), p.303.

[25] J. Fisher et al, Surface Engineering for Hip prostheses, EPSRC/DTI Medlink Project, 2000, University of Leeds.

[26] A. Unsworth, Proc. Inst. Mech Eng., Part H, 205, (1991), p.259.

[27] J.D. Bolton et al, Development of a new generation of artificial hip joints containing compliant layers, Final Tech Report, EU project BE-4249-90, (1996).