Biomedical Engineering Reference
In-Depth Information
Wu, C., and Chang, J., 2004. Synthesis and apatite-formation ability of akermanite.
Mater Lett
58: 2415-7.
Wu, C., and Chang, J., 2006. A novel akermanite bioceramic: Preparation and charac-
teristics.
J Biomater Appl
21: 119-29.
Wu, C., and Chang, J., 2007. Degradation, bioactivity, and cytocompatibility of diop-
side, akermanite, and bredigite ceramics.
J Biomed Mater Res B Appl Biomater
83:
153-60.
Wu, C., and Chang, J., 2007. Synthesis and
in vitro
bioactivity of bredigite powders.
J
Biomater Appl
21: 251-63.
Wu, C., and Chang, J., Forthcoming. Silicate bioceramics for bone tissue regeneration.
J Inorg Mater
.
Wu, C., Chang, J., Ni, S., et al., 2006.
In vitro
bioactivity of akermanite ceramics.
J
Biomed Mater Res A
76: 73-80.
Wu, C., Chang, J., Wang, J.,
et al., 2005. Preparation and characteristics of a calcium
magnesium silicate (bredigite) bioactive ceramic.
Biomaterials
26: 2925-31.
Wu, C., Chang, J., and Zhai, W., 2005. A novel hardystonite bioceramic: Preparation
and characteristics.
Ceram Inter
31: 27-31.
Wu, C., Chang, J., Zhai, W.,
et al., 2006. Porous akermanite scaffolds for bone tissue
engineering: Preparation, characterization, and
in vitro
studies.
J Biomed Mater
Res B Appl Biomater
78: 47-55.
Wu, C., Chang, J., Zhai, W.,
et al., 2007. A novel bioactive porous bredigite (Ca(
7
)MgSi
(
4
)O (
16
)) scaffold with biomimetic apatite layer for bone tissue engineering.
J
Mater Sci Mater Med
18: 857-64.
Wu, C., Fan, W., Zhou, Y. H.,
et al., 2012. 3D-printing of highly uniform CaSiO3
ceramic scaffolds: Preparation, characterization and
in vivo
osteogenesis.
J Mater
Chem
22: 12288-95.
Wu, C., Ramaswamy, Y., and Zreiqat, H., 2010. Porous diopside (CaMgSi(2)O(6)) scaf-
fold: A promising bioactive material for bone tissue engineering.
Acta Biomater
6: 2237-45.
Wu, C., Ramaswamy, Y., Boughton, P.,
et al., 2008. Improvement of mechanical and
biological properties of porous CaSiO3 scaffolds by poly(D,L-lactic acid) modi-
fication.
Acta Biomater
4: 343-53.
Wu, C., Ramaswamy, Y., Chang, J.,
et al., 2008. The effect of Zn contents on phase com-
position, chemical stability and cellular bioactivity in Zn-Ca-Si system ceramics.
J Biomed Mater Res B Appl Biomater
87: 346-53.
Wu, C., Ramaswamy, Y., Gale, D., et al., 2008. Novel sphene coatings on Ti-6Al-4V for
orthopedic implants using sol-gel method.
Acta Biomater
4: 569-76.
Wu, C., Ramaswamy, Y., Kwik, D.,
et al., 2007. The effect of strontium incorporation
into CaSiO3 ceramics on their physical and biological properties.
Biomaterials
28: 3171-81.
Wu, C., Ramaswamy, Y., Liu, X.,
et al., 2009. Plasma-sprayed CaTiSiO5 ceramic coat-
ing on Ti-6Al-4V with excellent bonding strength, stability and cellular bioactiv-
ity.
J R Soc Interface
6: 159-68.
Wu, C., Ramaswamy, Y., Soeparto, A.,
et al., 2008. Incorporation of titanium into
calcium silicate improved their chemical stability and biological properties.
J
Biomed Mater Res A
86: 402-10.
Wu, C., and Zreiqat, H., 2010. Porous bioactive diopside (CaMgSi(2)O(6)) ceramic
microspheres for drug delivery.
Acta Biomater
6: 820-9.
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