Biomedical Engineering Reference
In-Depth Information
632. Riihonen, R., Nielsen, S., Väänänen, H. K., Laitala-Leinonen, T., and
Kwon, T. H. (2010) Degradation of hydroxyapatite
requires osteoclastic sodium-bicarbonate co-transporter NBCn1,
Matrix Biol.
in vivo
and
in vitro
, 287-294.
633. Teitelbaum, S. L. (2000) Bone resorption by osteoclasts,
,
29
Science
,
289
,
1504-1508.
634. Okuda, T., Ioku, K., Yonezawa, I., Minagi, H., Kawachi, G., Gonda, Y.,
Murayama, H., Shibata, Y., Minami, S., Kamihara, S., Kurosawa, H.,
and Ikeda, T. (2007) The effect of the microstructure of β-tricalcium
phosphate on the metabolism of subsequently formed bone tissue,
Biomaterials
, 2612-2621.
635. Orly, I., Gregoire, M., Menanteau, J., Heughebaert, M., and Kerebel, B.
(1989)
,
28
Chemical changes in hydroxyapatite biomaterial under
in vivo
, 20-26.
636. Bertazzo, S., Zambuzzi, W. F., Campos, D. D. P., Ogeda, T. L., Ferreira, C. V.,
and Bertran, C. A. (2010)
and
in vitro
biological conditions,
Calcif. Tissue Int.
,
45
Hydroxyapatite surface solubility and effect
, 177-184.
637. Schwartz, Z., and Boyan, B. D. (1994)
on cell adhesion,
Colloids Surf. B
,
78
Underlying mechanisms at the
bone-biomaterial interface,
J. Cell. Biochem.
,
56
, 340-347.
638. Puleo, D. A., and Nanci, A. (1999)
Understanding and controlling the
, 2311-2321.
639. Xin, R., Leng, Y., Chen, J., and Zhang, Q. (2005)
bone-implant interface,
Biomaterials
,
20
A comparative study
of calcium phosphate formation on bioceramics
in vitro
and
in vivo
,
, 6477-6486.
640. Girija, E. K., Parthiban, S. P., Suganthi, R. V., Elayaraja, K., Joshy, M. I. A.,
Vani, R., Kularia, P., Asokan, K., Kanjilal, D., Yokogawa, Y., and Narayana
Kalkura, S. (2008) High energy irradiation — a tool for enhancing the
bioactivity of hydroxyapatite,
Biomaterials
,
26
, 320-324.
641. Okada, M., Furukawa, K., Serizawa, T., Yanagisawa, Y., Tanaka, H., Kawai,
T., and Furuzono, T. (2009)
J. Ceram. Soc. Jpn.
,
116
Interfacial interactions between calcined
hydroxyapatite nanocrystals and substrates,
Langmuir
,
25
, 6300-
6306.
642. Malik, M. A., Puleo, D. A., Bizios, R., and Doremus, R. H. (1992)
Osteoblasts on hydroxyapatite, alumina and bone surfaces
in vitro
:
morphology during the first 2 h of attachment,
Biomaterials
,
13
, 123-
128.
643. Norman, M. E., Elgendy, H. M., Shors, E. C., El-Amin, S. F., and Laurencin,
C. T. (1994) An in-vitro evaluation of coralline porous hydroxyapatite
as a scaffold for osteoblast growth,
Clin. Mater.
,
17
, 85-91.
Search WWH ::
Custom Search