Biomedical Engineering Reference
In-Depth Information
15. Keselowsky BG, Wang L, Schwartz Z, Garcia AJ, Boyan BD (2007) Integrin alpha(5)
controls osteoblastic proliferation and differentiation responses to titanium substrates
presenting different roughness characteristics in a roughness independent manner. J Biomed
Mater Res A 80(3):700-710
16. Wang L, Zhao G, Olivares-Navarrete R, Bell BF, Wieland M, Cochran DL, Schwartz Z,
Boyan BD (2006) Integrin beta1 silencing in osteoblasts alters substrate-dependent
responses to 1,25-dihydroxy vitamin D3. Biomaterials 27(20):3716-3725
17. Lennon FE, Hermann CD, Olivares-Navarrete R, Rhee WJ, Schwartz Z, Bao G, Boyan BD
(2010) Use of molecular beacons to image effects of titanium surface microstructure on
beta1 integrin expression in live osteoblast-like cells. Biomaterials 31(30):7640-7647
18. Pegueroles M, Aguirre A, Engel E, Pavon G, Gil FJ, Planell JA, Migonney V, Aparicio C
(2011) Effect of blasting treatment and Fn coating on MG63 adhesion and differentiation on
titanium: a gene expression study using real-time RT-PCR. J Mater Sci Mater Med
22(3):617-627
19. Galli D, Benedetti L, Bongio M, Maliardi V, Silvani G, Ceccarelli G, Ronzoni F, Conte S,
Benazzo F, Graziano A, Papaccio G, Sampaolesi M, Cusella De Angelis MG (2011) In vitro
osteoblastic differentiation of human mesenchymal stem cells and human dental pulp stem
cells on poly-
L
-lysine-treated titanium-6-aluminium-4-vanadium. J Biomed Mater Res A
97A(2)118-126. doi:
10.1002/jbm.a.32996
20. Gronowicz G, McCarthy MB (1996) Response of human osteoblasts to implant materials:
integrin-mediated adhesion. J Orthop Res 14:878-887
21. Sinha
RK,
Tuan
RS
(1996)
Regulation
of
human
osteoblast
integrin
expression
by
orthopaedic implant materials. Bone 18(5):451-457
22. Siebers MC, Brugge PJ, Walboomers XF, Jansen JA (2005) Integrins as linker proteins
between
osteoblasts
and
bone
replacing
materials.
A
critical
review.
Biomaterials
26(2):137-146
23. Olivares-Navarette R, Raz P, Zhao G, Chen J, Wieland M, Cochran DL, Chaudhri RA,
Ornoy A, Boyan BD, Schwartz Z (2008) Integrin alpha2beta1 plays a critical role in
osteoblast response to micron-scale surface structure and surface energy of titanium
substrates. Proc Natl Acad Sci USA 105(41):15767-15772
24. Schneider G, Burridge K (1994) Formation of focal adhesions by osteoblasts adhering to
different substrata. Exp Cell Res 214(1):264-269
25. Ratner BD (1993) New ideas in biomaterials science—a path to engineered biomaterials.
J Biomed Mater Res (7):837-850
26. Brunette DM (2001) Principles of cell behaviour on titanium surfaces and their application
to implanted devices. In: Brunette DM, Tengvall P, Textor M, Thomsen P (eds) Titanium in
medicine. Springer, Heidelberg, pp 486-512
27. Brunette DM, Kenner GS, Gould TR (1983) Grooved titanium surfaces orient growth and
migration of cells from human gingival explants. J Dent Res 62:1045-1048
28. Eisenbarth E, Velten D, Schenk-Meuser K, Linez P, Biehl V, Duschner H, Breme J,
Hildebrand H (2002) Interactions between cells and titanium surfaces. Biomol Eng 19:
243-249
29. Ahmad M, Gawronski D, Blum J, Goldberg J, Gronowicz G (1999) Differential response of
human osteoblast-like cells to commercially pure (cp) titanium grades 1 and 4. J Biomed
Mater Res 46(1):121-131
30. Hazan R, Brener R, Oron U (1993) Bone growth to metal implants is regulated by their
surface chemical properties. Biomaterials 14(8):570-574
31. Vinall RL, Gasser B, Richards RG (1995) Investigation of cell compatibility of titanium test
surfaces to fibroblasts. Injury 26(1):21-27
32. Textor M, Sittig C, Frauchiger V, Tosatti S, Brunette DM (2001) Properties and biological
significance of natural oxide films on titanium and its alloys. In: Brunette DM, Tengvall P,
Textor M, Thomsen P (eds) Titanium in medicine. Springer, Heidelberg, pp 171-230
33. Morita M, Sasada T, Hayashi H, Tsukamoto Y (1988) The corrosion fatigue properties of
surgical implants in a living body. J Biomed Mater Res 22(6):529-540
Search WWH ::
Custom Search