Biomedical Engineering Reference
In-Depth Information
30. Anaheim and Calif. Rosemont, Polyethylene: the past, present and future. In: ortho-
paedic proceedings, 66th Annual Meeting, American Academy of Orthopaedic
Surgeons . Academy of Orthopaedic Surgeons, 2001 , 445 - 468 .
31. Gutwein , L. G. and Webster , T. J. , Increased viable osteoblast density in the presence
of nanophase compared to conventional alumina and titania particles,
Biomaterials
,
volume: 25 , number: 18 , 2004 , pp. 4175 - 4183 .
32. Gutwein , L. G. and Webster , T. J. , Osteoblast and chrondrocyte proliferation in
the presence of alumina and titania nanoparticles,
Journal of Nanoparticle Research
,
volume: 4 , 2002 , pp. 231 - 238 .
33. Tamura , K. , Takashi , N. and Akasaka , T. , et al., Effects of micro/nano particle size on
cell function and morphology,
Key Engr. Mat.
, 2004 , 254 - 256 , 919 - 922 .
34. Warheit , D. B. , Nanoparticles: health impacts?
Materials Today
, 2004 , pp. 32 - 35 .
35. Sato , M. and Webster , T. J. , Nanobiotechnology: implications for the future of nano-
technology in orthopedic applications,
Expert Rev. Medical Devices
, volume: 1 , num-
ber: 1 , 2004 , pp. 105 - 114 .
36. Lindahl , H. , Garellick , G. , Regn é r , H. , Herberts , P. and Malchau , H. , Three hundred
and twenty-one periprosthetic femoral fractures,
J. Bone Joint Surg. Am.
, volume: 88 ,
2006 , pp. 1215 - 1222 .
37. Implant wear in total joint replacement: clinical and biologic issues, material and de-
sign considerations , edited by T. M. Wright and S. B. Goodman . Chapter 22: what are
the wear mechanisms and What control them? ( 2001 ) ISBN number 0 - 89203 - 261 - 8.
Available
online:
http://www4.aaos.org/product/details_page.cfm?code=02522
&dlink=ImpWear.cfm
38. Bethea , J. S. , Deandrade , J. R. , Fleming , L. L. , Lindenbaum , S. D. and Welch , R. B. ,
Proximal femoral fractures following total hip arthroplasty,
Clin. Orthop. Relat. Res.
,
volume: 170 , 1982 , pp. 95 - 106 .
39. Beals , R. K. and Tower , S. S. , Periprosthetic fractures of the femur. An analysis of 93
fractures .
Clin. Orthop. Relat. Res.
, volume: 327 , 1996 , pp. 238 - 246 .
40. Learmonth , I. D. , The management of periprosthetic fractures around the femoral
stem ,
J. Bone Joint Surg. Br.
, volume: 86 , 2004 , pp. 13 - 19 .
41. Herberts , P. and Malchau , H. , Long - term registration has improved the quality of hip
replacement: a review of the Swedish THR Register comparing 160,000 cases,
Acta
Orthop Scand.
, volume: 71 , 2000 , pp. 111 - 121 .
42. Siegel , R. W. and Fougere , G. E. , Mechanical properties of nanophase metals ,
Nano-
struct. Mater.
, volume: 6 , 1995 , pp. 205 - 216 .
43. Lemons , J. E. , Bioceramics: is there a difference?
Clinical Orthopedics and Related
Research
, volume: 261 , 1990 , pp: 153 - 158 .
44. Webster , T. J. , Ergun , C. , Doremus , R. H. , Seigel , R.W. and Bizios , R. , Enhanced
functions of osteoblasts on nanophase ceramics,
Biomaterials
, volume: 21 , 2000 , pp.
1803 - 1810 .
45. Webster , T. J. , Siegel , R. W. and Bizios , R. , Nanoceramic surface roughness enhances
osteoblast and osteoclast functions for improved orthopedic/dental implant effi cacy,
Scripta Mater.
, volume: 44 , 2001 , pp. 1639 - 1642 .
46. Webster , T. J. , Ergun , C. , Doremus , R. H. , Seigel , R. W. and Bizios , R. , Enhanced
osteoclast-like functions on nanophase ceramics,
Biomaterials
, volume: 22 , 2001 , pp.
1327 - 1333 .
Search WWH ::
Custom Search