Biomedical Engineering Reference
In-Depth Information
83. McManus, A.J., Doremus, R.H., Siegel, R.W., and Bizios, R. (2005).
Evaluation of cytocompatibility and bending modulus of nanoceramic/
polymer composites,
J
.
Biomed
.
Mater
.
Res
.
A
,
72
, pp. 98-106.
84. Maeno, S., Niki, Y., Matsumoto, H., Morioka, H., Yatabe, T., Funayama,
A.,Toyama, Y., Taguchi, T., and Tanaka, J. (2005). The effect of calcium ion
concentration on osteoblast viability proliferation and differentiation
in monolayer and 3D culture,
Biomaterials
,
26
, pp. 4847-4855.
85. Martínez, E., Lagunas, A., Mills, C.A., Rodríguez-Seguí, S., Estévez,
M., Oberhansl, S., Comelles, J., and Samitier, J. (2009). Stem cell
differentiation by functionalized micro- and nanostructured surfaces,
Nanomedicine (Lond)
.,
4
, pp. 65-82.
86. Martinez, E., Engel, E., Planell, J.A., and Samitier, J. (2009). Effects of
artiicial micro-and nano-structured surfaces on cell behavior,
Ann
.
Anat
.,
191
, pp. 126−135.
87. Meirelles, L., Arvidsson, A., Albrektsson, T., and Wennerberg, A. (2007).
Increased bone formation to unstable nano rough titanium implants,
Clin
.
Oral Implants Res
.,
18
, pp. 326-332.
88. Meirelles, L. (2007). On nano size structures for enhanced early bone
formation (PhD, Gothenburg University).
89. Mendonça, G., Mendonça, D.B.S., Araga˜o, F.J.L., and Cooper, L.F. (2008).
Advancing dental implant surface technology — from micron to
nanotopography, Review,
Biomaterials
29
, pp. 3822-3835.
90. Miller, D.C., Haberstroh, K.M., and Webster, T.J. (2005). Mechanism(s)
of increased vascular cell adhesion on nanostructured poly(lactic-co-
glycolic acid) ilms,
J
.
Biomed
.
Mater
.
Res
.
A
,
73
, pp. 476-484.
91. Nagano, M., Nakamura, T., Kokubo, T., Tanahashi, M., and Ogawa, M.
(1996). Differences of bone bonding ability and degradation behaviour
in vivo
between amorphous calcium phosphate and highly crystalline
hydroxyapatite coating,
Biomaterials
,
17
, pp. 1771-1777.
92. Nanci, A., Wuest, J.D., Peru, L., Brunet, P., Sharma, V., Zalzal, S., and
McKee, M.D. (1998). Chemical modiication of titanium surfaces for
covalent attachment of biological molecules,
J
.
Biomed
.
Mater
.
Res
.,
40
,
pp. 324-335.
93. Niespodziana, K., Jurczyk, K., and Jurczyk M. (2006). The manufacturing
of Ti-hydroxyapatite nanocomposites for bone implant applications,
Nanopages
,
1
, pp. 219−229.
94. Niespodziana, K., Jurczyk, K., and Jurczyk, M. (2007). Titanium-ceramic
nanocomposite materials,
Adv
.
Mater
.
Sci
.,
7
, pp. 103−107.
95. Niespodziana, K., Jurczyk, K., and Jurczyk, M. (2009). Mechanical and
corrosion properties of titanium hydroxyapatite nanocomposites,
Solid State Phenomena
,
151
, pp. 217−221.
