Biomedical Engineering Reference
In-Depth Information
[24] G.M. Connelly, C.M. Rimnac, T.M. Wright,
R.W. Hertzberg, J.A. Manson, Fatigue crack
propagation behavior of ultrahigh molecular
weight polyethylene, J. Orthop. Res. 2 (2)
(1984) 119
e
125.
[25] C.D. Peterson, B.M. Hillberry, D.A. Heck,
Component wear of total knee prostheses using
Ti-6A
[
-4 V, titanium nitride coated Ti-6A
[
-
4 V, and cobalt
e
chromium
e
molybdenum
femoral components, J. Biomed. Mater. Res. 22
(10) (1988) 887
e
903.
[26] T.M. Wright, C.M. Rimnac, P.M. Faris,
M. Bansal, Analysis of surface damage in
retrieved carbon fiber-reinforced and plain
polyethylene tibial components from poste-
rior stabilized total knee replacements,
J. Bone Joint Surg. Am. 70 (9)
[34] N. Rushton, T. Rae, The intra-articular
response to particulate carbon fibre reinforced
high density polyethylene and its constituents:
an experimental study in mice, Biomaterials 5
(6) (1984) 352
e
356.
[35] W. Rostoker, J.O. Galante, Some new studies of
the wear behavior of ultrahigh molecular
weight polyethylene, J. Biomed. Mater. Res. 10
(2) (1976) 303
e
310.
[36] E. Sclippa, K. Piekarski, Carbon fiber rein-
forced polyethylene for possible orthopedic
uses, J. Biomed. Mater. Res. 7 (1) (1973)
59
e
70.
[37] F. Medel, S.M. Kurtz, G. Klein, H. Levine,
P. Sharkey, M. Austin, et al., Clinical, surface
damage, and oxidative performance of poly II
tibial inserts after long-term implantation, J. Long
TermEff. Med. Implants 18 (2) (2008) 151
e
165.
[38] H. McKellop, I. Clarke, K. Markolf,
H. Amstutz, Friction and wear properties of
polymer, metal and ceramic prosthetic joint
materials evaluated on a multichannel
screening device, J. Biomed. Mater. Res. 15 (5)
(1981) 619
e
653.
[39] X. Dangsheng, Friction and wear properties of
UHMWPE composites reinforced with carbon
fiber, Mater. Lett. 59 (2005) 175
e
179.
[40] S.A. Brown, R.S. Hastings, J.J. Mason,
A. Moet, Characterization of short-fibre rein-
forced thermoplastics for fracture fixation
devices, Biomaterials 11 (8) (1990) 541
e
547.
[41] E. Jones, A. Wang, R. Streicher, Validating the
limits for a PEEK composite as an acetabular
wear surface, Society for Biomaterials Annual
Meeting (2001) 27.
[42] I.C. Clarke, M. Manaka, D.D. Green,
P.Williams, G. Pezzotti, Y.H. Kim, et al., Current
status of zirconia used in total hip implants, J.
Bone Joint Surg. 85-A (Suppl. 4) (2003) 73
e
84.
[43] P.A. Lilley, G.W. Blunn, P.S. Walker. Wear
performance of PEEK as a potential prosthetic
knee joint material, ln: 7th International
Conference on Polymers in Medicine and
Surgery, Noordwijkerhout, Netherlands, 1993,
pp. 320
e
326.
[44] G. Maharaj, S. Bleser, K. Albert, R. Lambert,
S. Jani, R. Jamison, Characterization of wear in
composite material orthopaedic implants. Part I:
The composite trunnion/ceramic head interface,
Biomed. Mater. Eng. 4 (3) (1994) 193
e
198.
(1988)
1312
e
1319.
[27] T.M. Wright, D.J. Astion, M. Bansal,
C.M. Rimnac, T. Green, J.N. Insall, et al.,
Failure of carbon fiber-reinforced polyethylene
total knee-replacement components. A report
of two cases, J. Bone Joint Surg. Am. 70 (6)
(1988) 926
e
932.
[28] L. Busanelli, S. Squarzoni, L. Brizio, D. Tigani,
A. Sudanese, Wear in carbon fiber-reinforced
polyethylene (poly-two) knee prostheses, Chir.
Organi. Mov. 81 (3) (1996) 263
e
267.
[29] J.O. Galante, W. Rostoker, Wear in total hip
prostheses. An experimental evaluation of
candidate materials, Acta Orthop Scand.
(Suppl. 145) (1973) 1
e
46.
[30] W. Rostoker, J.O. Galante, Indentation creep of
polymers for human joint applications,
J. Biomed. Mater. Res. 13 (5) (1979) 825
e
828.
[31] T.M. Wright, T. Fukubayashi, A.H. Burstein,
The effect of carbon fiber reinforcement on
contact area, contact pressure, and time-
dependent deformation in polyethylene tibial
components, J. Biomed. Mater. Res. 15 (5)
(1981) 719
e
730.
[32] R.D. Tetik, J.O. Galante, W. Rostoker, A wear
resistant material for total joint replace-
ment
d
tissue biocompatibility of an ultra-high
molecular weight (UHMW) polyethylene
e
graphite composite, J. Biomed. Mater. Res. 8
(5) (1974) 231
e
250.
[33] H.E. Groth, J.M. Shilling, Tissue response to
carbon-reinforced polyethylene, J. Orthop. Res.
1 (2) (1983) 129
e
135.
