Biomedical Engineering Reference
In-Depth Information
667. Yang, S., Leong, K. F., Du, Z., and Chua, C. K. (2001) The design of
scaffolds for use in tissue engineering. Part I. Traditional factors,
Tissue
, 679-689.
668. Hutmacher, D. W. (2000) Scaffolds in tissue engineering bone and
cartilage,
Eng.
,
7
, 2529-2543.
669. Ma, P. X. (2004) Scaffolds for tissue fabrication,
Biomaterials
,
21
Mater. Today
,
7
, 30-
40.
670. Yasuhiko, T. (2009) Biomaterial technology for tissue engineering
applications,
, S311-S324.
671. Ma, P. X., and Elisseeff, J. (eds.) (2006)
J. R. Soc. Interface
,
6
Scaffolding in Tissue Engineering
,
CRC Press, Boca Raton, p. 638.
672. Schieker, M., Seitz, H., Drosse, I., Seitz, S., and Mutschler, W. (2006)
Biomaterials as scaffold for bone tissue engineering,
Eur. J. Trauma
,
, 114-124.
673. Okumura, M., Ohgushi, H., Dohi, Y., Katuda, T., Tamai, S., Koerten, H. K.,
and Tabata, S. (1997) Osteoblastic phenotype expression on the surface
of hydroxyapatite ceramics,
32
, 122-129.
674. Service, R. F. (2000) Tissue engineers build new bone,
J. Biomed. Mater. Res.
,
37
Science
,
289
,
1498-1500.
675. Fini, M., Giardino, R., Borsari, V., Torricelli, P., Rimondini, L., Giavaresi,
G., and Aldini, N. N. (2003)
behaviour of osteoblasts cultured
on orthopaedic biomaterials with different surface roughness,
uncoated and fluorohydroxyapatite-coated, relative to the
In vitro
in vivo
, 520-528.
676. Sato, M., and Webster, T. J. (2006) Designing orthopedic implant
surfaces: harmonization of nanotopographical and chemical aspects,
Nanomed.
osteointegration rate,
Int. J. Artif. Organs
,
26
, 351-354.
677. Annaz, B., Hing, K. A., Kayser, M., Buckland, T., and di Silvio, L. (2004)
Porosity in phase-pure hydroxyapatite,
,
1
, 97-109.
678. Li, S., de Wijn, J. R., Li, J., Layrolle, P., and de Groot, K. (2003) Macroporous
biphasic calcium phosphate scaffold with high permeability/porosity
ratio,
J. Microscopy
,
216
, 535-548.
679. Ebaretonbofa, E., and Evans, J. R. (2002) High porosity hydroxyapatite
foam scaffolds for bone substitute,
Tissue Eng.
,
9
, 257-263.
680. Specchia, N., Pagnotta, A., Cappella, M., Tampieri, A., and Greco, F.
(2002) Effect of hydroxyapatite porosity on growth and differentiation
of human osteoblast-like cells,
J. Porous Mater.
,
9
, 577-584.
681. Malmström, J., Adolfsson, E., Arvidsson, A., and Thomsen, P. (2007) Bone
response inside free-form fabricated macroporous hydroxyapatite
J. Mater. Sci.
,
37
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