Manufacturing of Biocompatible TiO2-Surface-Structures with a Water Based Tape Casting

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Key Engineering Materials (Volumes 254-256)

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Edited by:

Mário A. Barbosa, Fernando J. Monteiro, Rui Correia, Betty Leon

Pages:

937-940

Citation:

J. Will et al., "Manufacturing of Biocompatible TiO2-Surface-Structures with a Water Based Tape Casting", Key Engineering Materials, Vols. 254-256, pp. 937-940, 2004

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December 2003

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[1] Nygren, H., Tengvall, P. and Lundstrom, I., The initial reactions of TiO2 with blood. Journal of Biomedical Material Research, 34, 4 (1997), pp.487-492.

DOI: https://doi.org/10.1002/(sici)1097-4636(19970315)34:4<487::aid-jbm9>3.3.co;2-6

[2] Wintermantel, E., Biomaterials, human tolerance and integration. Der Chirurg, 70, 8 (1999), 847-857.

[3] Wintermantel, E., et al., Angiopolarity of cell carriers, In: Angiogenesis: Principles-ScienceTechnology-Medicine, Steiner, R., Weisz, B., and Langer, R., Editors. Birkhaeuser Verlag, Basel (1992).

[4] Shanefield, D.J., Organic additives ceramic processing. 1995: Kluwer Academic Publishers.

[5] Mistler, R.E. and Twiname, E.R., Tape Casting: Theory and Practice. The American Ceramic Society, (2000).

[6] Hellebrand, H., Tape Casting, In: Cahn, R.W., Haasen, P., Kramer, E.J. and Brook, R.J., Materials Science and Technology: Processing of Ceramics Part 1 (Volume 17A), VCH Publishers Inc., New York, 1996. Fig. 8: SEM picture of fibroblasts on a smooth surface Fig. 9: SEM picture of fibroblasts on a rough surface I . I . I . I . I . I 500 µµµµm I . I . I . I . I . I 100 µµµµm.

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