Biomedical Engineering Reference
In-Depth Information
146. Woo, K.M., Chen, V.J., and Ma, P.X. (2003). Nano-ibrous scaffolding
architecture selectivelyenhances protein adsorption contributing to
cell attachment,
J
.
Biomed
.
Mater
.
Res
.
A
,
67
, pp. 531-537.
147. Xia, Y., Rogers, J.A., Kateri, E.P., and Whitesides, G.M. (1999). Uncon-
ventional methods for fabricating and patterning nanostructures —
review,
Chem
.
Rev
.,
99
, pp. 1823−1848.
148. Yamamoto, A., Kobayashi, T., Maruyama, N., Nakazawa, K., and Sumita,
M. (1995). Fretting fatigue properties of Ti-6Al-4V alloy in pseudo-
body luid and evaluation of biocompatibility by cell culture method,
J
.
Jpn
.
Inst
.
Metals
,
59
, pp. 463−470.
149. Yamamoto, A., Kohyama, Y., Kuroda, D., and Hanawa, T. (2004).
Cytocompatibility evaluation of Ni-free stainless steel manufactured
by nitrogen adsorption treatment,
Mater
.
Sci
.
Eng
.
C
,
24
, pp. 737-743
150. Yang, B., Uchida, M., Kim, H.M., Zhang, X., and Kokubo, T. (2004).
Preparation of bioactive titanium metal via anodic oxidation treatment,
Biomaterials
,
25
, pp. 1003-1010.
151. Yoshinari, M., Oda, Y., Kato, T., and Okuda, K. (2001). Inluence of
surface modiications to titanium on antibacterial activity
in vitro
,
Biomaterials
,
22
, pp. 2043-2048.
152. Zarb, G.A., and Schmitt, A. (1990). The longitudinal clinical
effectiveness of osseointegrated dental implants: the Toronto study.
Part III: problems and complications encountered.
J
.
Prosthet
.
Dent
.,
64
,
pp. 185-194.
153. Zhang, L., and Webster, T.J. (2009). Nanotechnology and nanomaterials:
Promises for improved tissue regeneration — review,
Nano Today
,
4
,
pp. 66−80.
154. Zhang, L., Sirivisoot, S., Balasundaram, G., and Webster, T.J. (2009).
Nanomaterials for Improved Orthopedic and Bone Tissue Engineering
Applications, in
Advanced Biomaterials: Fundamentals
,
Processing and
Applications
(ed. Basu, B., Katti, D., Kumar, A.), John Wiley & Sons, Inc.,
New Jersey, pp. 205−241.
155. Zhao, G., Schwartz, Z., Wieland, M., Rupp, F., Geis-Gerstorfer, J., Cochran,
D.L., and Boyan, B. (2005). High surface energy enhances cell response
to titanium substrate microstructure,
J
.
Biomed
.
Mater
.
Res
.,
74
,
pp. 49−58.
156. Zhao, Y., Zhang, Y., Ning, F., Guo, D., and Xu, Z. (2007). Synthesis and
cellular biocompatibility of two kinds of HAP with different nanocrystal
morphology,
J
.
Biomed
.
Mater
.
Res
.,
B Appl
.
Biomater
,
83
, pp. 121-126.
