The effect of nanotubular titanium surfaces on osteoblast differentiation

Journal of Nanoscience and Nanotechnology

Volumn 10, Issue 5, 2010, Pages 3581-3585

  Kim, Jae Hyung ^a   Cho, Kwan Pyo ^a   Chung, Young Suk ^a   Kim, Ok Su ^a   Chung, Sung Soo ^a   Lee, Kyung Ku ^a   Lee, Doh Jae ^a   Lee, Kwang Min ^a   Kim, Young Joon ^a  

^a Chonnam National University   (South Korea)

Author keywords

Anodization; Differentiation; Nanotube; Titanium dioxide

Indexed keywords

ALKALINE PHOSPHATASE ACTIVITY; ANODIZATION; ANODIZATIONS; BIOLOGICAL RESPONSE; BONE SIALOPROTEINS; CELL VIABILITY; CELLULAR RESPONSE; DIFFERENTIATION; NANOTUBULAR; OSSEOINTEGRATION; OSTEOBLAST DIFFERENTIATION; OSTEOCALCIN; REVERSE TRANSCRIPTION-POLYMERASE CHAIN REACTION; TIO; TITANIUM SURFACES;

BONE; NANOTUBES; OSTEOBLASTS; OXIDES; PHOSPHATASES; TITANIUM; TITANIUM DIOXIDE;

POLYMERASE CHAIN REACTION;

NANOTUBE; TITANIUM; TITANIUM DIOXIDE;

ANIMAL; ARTICLE; BONE DEVELOPMENT; CELL ADHESION; CELL CULTURE; CELL DIFFERENTIATION; CHEMISTRY; CONFORMATION; CYTOLOGY; MACROMOLECULE; MATERIALS TESTING; OSTEOBLAST; PARTICLE SIZE; PHYSIOLOGY; RAT; SURFACE PROPERTY; ULTRASTRUCTURE;

ANIMALS; CELL ADHESION; CELL DIFFERENTIATION; CELLS, CULTURED; MACROMOLECULAR SUBSTANCES; MATERIALS TESTING; MOLECULAR CONFORMATION; NANOTUBES; OSTEOBLASTS; OSTEOGENESIS; PARTICLE SIZE; RATS; SURFACE PROPERTIES; TITANIUM;

EID: 77952510911     PISSN: 15334880     EISSN: None     Source Type: Journal    
DOI: 10.1166/jnn.2010.2235     Document Type: Conference Paper

References (23)

1. Y. Okazaki, E. Gotoh, T. Manabe, and K. Kobayashi, Biomaterials 25, 5913 (2004).
2. Y. Okazaki and E. Gotoh, Biomaterials 26, 11 (2005).
3. Y. T. Sul, C. B. Johnasson, S. Petronis, A. Krozer, Y. Jeong, A. Wennerberg, and T. Albrektsson, Biomaterials 23, 491 (2002).
4. B. Yang, M. Uchida, H. M. Kim, X. Zhang, and T. Kokubo, Biomaterials 25, 1003 (2004).
5. Y. Chan and T. J. Webster, J. Nanosci. Nanotechnol. 6, 2682 (2006).
6. S. Oh, C. Daraio, L. H. Chen, T. R. Pisanic, R. R. Finones, and S. Jin, J. Biomed. Mater. Res. 78, A97 (2006).
7. A. L. Chun, T. J. Webster, and H. Fenniri, Adv. Sci. Technol. 53, 1 (2006).
8. H. S. Kim, J. Yang, T. Koh, D. J. Lee, K. M. Lee, and S. W. Park, J. Biomed. Mater. Res. 80, B427 (2008).
9. T. L. McCarthy, M. Centrella, and E. Canalis, J. Bone. Miner. Res. 3, 401 (1996).
10. R. Rajaraman, D. E. Rounds, S. P. S. Yen, and A. Rembaum, Exp. Cell. Res. 88, 327 (1974).
11. J. Lincks, B. D. Boyan, and C. R. Blachard, Biomaterials 19, 2219 (1998).
12. H. Kawahara, Y Soeda, K. Niwa, M. Takahashi, D. Kawahara, and N. Araki, J. Mat. Sci. 15, 1297 (2004).
13. B. G. Casey, D. R. S. Cumming, I. I. Khandarker, A. S. G. Curtis, and C. D. W. Wilkinson, Microelectron. Eng. 46, 125 (1999).
14. R. I. Freshney, Culture of Animal Cells: A Manual of Basic Technique, 3rd edn., Wiley-Liss, New York (1994).
15. K. Keiser, C. C. Johnson, and D. A. Tipton, J. Endodont. 26, 288 (2000).
16. R. A. Luben, G. L. Wong, and D. V. Cohn, Endocrinology 99, 526 (1976).
17. L. C. Gerstenfeld, S. D. Chipman, J. Glowacki, and J. B. Lian, Dev. Biol. 122, 49 (1987).
18. G. K. Hunter and H. A. Goldburg, Proc. Natl. Acad. Sci. 90, 8562 (1993).
19. B. Ganss, R. H. Kim, and J. Sodek, Oral. Biol. Med. 10, 79 (1999).
20. R. Paredes, G. Amagada, F. Cruzat, J. Oiate, A. V. Wijnen, J. Lian, G. Stein, J. Stein, and M. Montecino, J. Steroid. Biochem. Mol. Biol. 89-90, 269 (2004).
21. T. Kokubo, Acta. Mater. 46, 2519 (1998).
22. T. Kasuga, M. Hiramatsu, A. Hoson, T. Sekino, and K. Niihara, Adv. Mater. 11, 1307(1999).
23. S. Kubota, K. Johkura, K. Asanuma, Y. Okouchi, N. Ogiwara, K. Sasaki, and T. Kasuga, J. Mater. Sci. 15, 1031 (2004).