Fogorvosi szemle, 2000 (93. évfolyam, 1-12. szám)
2000-11-01 / 11. szám
IRODALOM: 1. Ellingsen, J. E.: A study on the mechanism of protein adsorption to Ti02. Biomaterials, 12, 593, 1991. - 2. Hanawa, T. : Behavior of Titanium in Biological Systems. Bull, of Kanagawa Dent. Coll., 26(2), 121, 1998. - 3. Kasemo, B.: Biocompatibility of titanium implants: Surface science aspects. J. Prosthet. Dent. 49, 832, 1983. - 4. Kasemo, B., Lausmaa, J.: Metal selection and surface characteristics. In: Zarb, G. A., Brànemark, P.-L, Albrektsson, T. : (eds.) Tissue Integrated Prostheses. Quintessence, London etc., 1985, 99-116. - 5. Kasemo, B., Lausmaa, J.: Biomaterials and interfaces. In: Naert, /., van Steenberghe, D., Worthington, P.: Osseointegration in Oral Rehabilitation — An Introductory Textbook. Quintessence, London etc., 1993, 63—75. - 6. Klinger, A., Steinberg, I)., Kohavi, D., Sela, M. N. : Mechanism of adsorption of human albumin to titanium in vitro. J. Biomed. Mater. Res. 36, 387, 1997. -7. Steinberg, D., Klinger, A., Kohavi, D., Sela, M. N.: Adsorption of human salivary proteins to titanium powder. I. Adsorption of human salivary albumin. Biomaterials. 16, 1339, 1995. — 8. Veerman, E., Suppers, R., Klein, C., de Groot, K, and Amerongen, A.: SDS-PAGE analysis of the protein layers adsorbing in vivo and in vitro to bone substitute materials. Biomaterials 8, 442, 1987. - 9. Zarb, G. A. und Albrektsson, T. \ Möglichkeiten der Implantatverankerung. In: Brànemark, P.-L, Zarb, G., Albrektsson, T. und Tetsch, P.: Gewebeintegrierter Zahnersatz. Osseointegration in klinischer Zahnheilkunde. Quintessenz, Berlin etc., 1985, 89-98. Radnai, M., Csonka, Cs., Dux, L., Fazekas, A.: Adsorption of human serum proteins to titanium dioxide In order to find an in vitro biochemical model for investigation of osseointegration in terms of dental implantology, the aim of the present study was to analyse the adsorption of human serum proteins to titanium dioxide. Titanium dioxide powder was suspended in human serum. After incubation and centrifugation the Ti02 with the adsorbed proteins were washed with distilled water, ethylendiaminetetraacetic acid (EDTA) supplemented with ammonium hydrogencarbonate (NH4HC03) solution, and sodium dodecylsulphate (SDS), after centrifugation the supernatant fluid was collected and SDS polyacrylamide gel and native (Biomidi) gel electrophoresis were conducted to determine the type of the adsorbed proteins. Our results show, that albumin was adsorbed to Ti02, but it could be easily removed. The adsorption of a 94 kDa protein was much stronger than the other proteins. The method seems to be useful in the investigation of the protein adsorbing ability of differently treated titanium implant surfaces. Key words: dental implants, osseointegration, protein adsorption, titanium dioxide 334
