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Abstrakty
The contact of a biomaterial with the biological environment in in vitro and in vivo tests leads to the production of a particular ecosystem in which the active roles perform both, the material surface and the extracellular matrix protein forming a biofilm. Proteins affect cell and bacteria adhesion processes, biological activity of cells and activation of inflammatory response. The knowledge of the reaction mechanisms active on the surface of the material and the contacting tissues enables definite modification of the material surface layer eliminating their disadvantages, giving new, desired properties, affecting the biology of cells. Testing the biocompatibility of titanium materials emphasises their reactivity with proteins and cells and the possibility of modifying the biological reactivity of the surface by changing its properties by biochemical and surface engineering methods. This article presents results of previous studies on this problem.
Wydawca
Czasopismo
Rocznik
Strony
5--11
Opis fizyczny
Bibliogr. 11 poz., rys., tab.
Twórcy
autor
autor
- Technical University of Gdansk, Faculty of Mechanical Engineering, Narutowicza 11/12, 80-233 Gdansk, Poland,, milena@shl.pl
Bibliografia
- 1. J. W. Costerton i Philip S. Stewart.: Threatening biophile elementsT, Świat Nauki, October 2001.
- 2. A. A. Salyers, D. D. Whitt.: Microbiology – variety and habitat. PWN, Warszawa 2003.
- 3. Ratner B.D.: Biomaterials Science. An introduction to materials in medicine. Ed. Ratner B.D., Hoffman A.S., Schoen F.J., Lemons J.E. Academic Press, 1996.
- 4. Lutton P.P., Ben-Nisan B.: The status of biomaterials for orthopedic and dental applications, Mat. Tech.1997.
- 5. Bachuła A.: Bacteria in Biofilm. Bioinfo.mal.uj.edu.pl
- 6. Bartoszewicz M., Rygiel A.: Biofilm as Basic mechanism of infection site operatem. Methods bout in local treatment. VIA MEDICA, Chirurgia Polska 8, 3, 2006, 171-178.
- 7. http://www.erc.montana.edu/CBEssentials-SW/bf-basics-99/default.htm (Montana State University).
- 8. Wierzchoń T., Czarnowska E., Krupa D. :Surfach engineering in manufacturing of titanium biomaterials. Oficyna wydawnicza Politechniki Warszawskiej, Warszawa 2004.
- 9. Stachewicz P.: Biofilm as multicell organism cerated by bacteria. Biology.ug.gda.pl
- 10. Hiromoto S., Noda K., Hanawa T.: Development of electrolytic cell with cell-culture for metallic biomaterials. Corrosion Sci. 44 (2002), 955.
- 11. Walkowiak B. : Biomedical effects of exposure of tissue to the implant. Biomaterial Engineering, 38-43, 2004, 200-205.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG8-0049-0010