Biomedical Engineering Reference
In-Depth Information
[31] F.A. Scaramuzzo, R. Salvati, B. Paci, A. Generosi, V. Rossi-Albertini, A. Latini, et al., Nanoscale
in
situ
morphological study of proteins immobilized on gold thin films, J. Phys. Chem. B 113 (2009)
15895-15899.
[32] G.H. Dibdin, The water in human dental enamel and its diffusional exchange measured by clearance of tri-
tiated water from enamel slabs of varying thickness, Caries Res. 27 (1993) 81-86.
[33] E.P. Katz, S.T. Li, Structure and function of bone collagen fibrils, J. Mol. Biol. 80 (1973) 1-15.
[34] E.P. Katz, E. Wachtel, M. Yamauchi, G.L. Mechanic, The structure of mineralized collagen fibrils, Connect.
Tissue Res. 21 (1989) 149-158.
[35] W.J. Landis, Mineral characterization in calcifying tissues: atomic, molecular and macromolecular perspec-
tives, Connect. Tissue Res. 34 (1996) 239-246.
[36] W.J. Landis, M.J. Song, A. Leith, L. McEwen, B.F. Mc-Ewen, Mineral and organic matrix interaction in
normally calcifying tendon visualized in three dimensions by high-voltage electron microscopic tomogra-
phy and graphic image reconstruction, J. Struct. Biol. 110 (1993) 39-54.
[37] M. Balooch, S. Habelitz, J.H. Kinney, S.J. Marshall, G.W. Marshall, Mechanical properties of mineralized
collagen fibrils as influenced by demineralization, J. Struct. Biol. 162 (2008) 404-410.
[38] I. Jager, P. Fratzl, Mineralized collagen fibrils: a mechanical model with a staggered arrangement of mineral
particles, Biophys. J. 79 (2000) 1737-1746.
[39] H. Sano, M. Yoshiyama, S. Ebisu, M.F. Burrow, T. Takatsu, B. Ciucchi, et al., Comparative SEM and TEM
observations of nanoleakage within the hybrid layer, Oper. Dent. 20 (1995) 160-167.
[40] H. Sano, T. Takatsu, B. Ciucchi, J.A. Horner, W.G. Matthews, D.H. Pashley, Nano-leakage: leakage within
the hybrid layer, Oper. Dent. 20 (1995) 18-25.
[41] F.R. Tay, M. Hashimoto, D.H. Pashley, M.C. Peters, S.C. Lai, C.K. Yiu, et al., Aging affects two modes of
nanoleakage expression in bonded dentin, J. Dent. Res. 82 (2003) 537-541.
[42] S.A. Saunders, Current practicality of nanotechnology in dentistry. Part 1: Focus on nanocomposite restor-
atives and biomimetics, Clinic. Cosm. Invest. Dent. 1 (2009) 47-61.
[43] L.B. Gower, Biomimetic model systems for investigating the amorphous precursor pathway and its role in
biomineralization, Chem. Rev. 108 (2008) 4551-4627.
[44] I.C. Gebeshuber, P. Gruber, M. Drack, A gaze into the crystal ball—biomimetics in the year 2059, Proc.
IMechE. C J. Mech. Eng. Sci. 223 (2009) 2899-2918.
[45] Coelho, P.G.; Lemons, J.E. Bio nano materials, in: Proceedings of the Bio Nano Conference and Trade
Show, Anaheim, CA, USA, 8-12 May 2005, pp. 316-319.
[46] W.R. Lacefield, Current status of ceramic coatings for dental implants, Implant Dent. 7 (1998) 315-322.
[47] H. Kim, R.P. Camata, Y.K. Vohra, W.R. Lacefield, Control of phase composition in hydroxyapatite/tetracalcium
phosphate biphasic thin coatings for biomedical applications, J. Mater. Sci. Mater. Med. 16 (2005) 961-966.
[48] S. Vercaigne, J.G. Wolke, I. Naert, J.A. Jansen, A mechanical evaluation of TiO
2
-gritblasted and Ca-P mag-
netron sputter coated implants placed into the trabecular bone of the goat: Part 1, Clin. Oral Implants Res.
11 (2000) 305-313.
[49] S. Vercaigne, J.G. Wolke, I. Naert, J.A. Jansen, A histological evaluation of TiO
2
-gritblasted and Ca-P mag-
netron sputter coated implants placed into the trabecular bone of the goat: Part 2, Clin. Oral Implants Res.
11 (2000) 314-324.
[50] C. Qin, R. D'Souza, J.Q. Feng, Dentin matrix protein 1(DMP1): new and important roles for biomineraliza-
tion and phosphate homeostasis, J. Dent. Res. 86 (2007) 1134-1141.
[51] W.T. Butler, J.C. Brunn, C. Qin, Dentin extracellular matrix (ECM) proteins: comparison to bone ECM and
contribution to dynamics of dentinogenesis, Connect. Tissue Res. 44 (2003) 171-178.
[52] S. Filoche, L. Wong, C.H. Sissons, Oral biofils: emerging concepts in microbial ecology, J. Dent. Res. 89
(2010) 8-18.
[53] V. Uskoković, M.K. Kim, W. Li, S. Habelitz, Enzymatic processing of amelogenin during continuous crys-
tallization of apatite, J. Mater. Res. 23 (2008) 3184-3195.
