Warstwy nanokrystalicznego diamentu na implanty dentystyczne : [streszczenie]

• Autorzy: Olborska A. , Karczemska A.

Warianty tytułu

EN

Nanocrystalline diamond coatings for dental implants : [abstract]

• Języki publikacji: PL

Abstrakty

PL

Różne rodzaje warstw węglowych otrzymanych różnymi sposobami, między innymi warstwy diamentopodobne (DLC) oraz warstwy nanokrystalicznego diamentu (NCD) otrzymane w procesie rozkładu metanu w polu wysokiej częstotliwości RFPACVD, są w wysokim stopniu biokompatybilne. W zależności od parametrów nanoszenia, różnią się one bio-fizycznymi oraz mechanicznymi właściwościami, DLC są amorficzne i zawierają około 60% diamentu oraz 40% grafitu, NCD składają się niemalże całkowicie z czystego diamentu. Zastosowanie warstw węglowych w medycynie jest znane od wielu lat. Prace nad implantami stomatologicznymi rozpoczęły się ponad dziesięć lat temu.

EN

Different kinds of carbon coatings, obtained by different methods are highly biocompatible, among them both diamond-like carbon (DLC) and nanocrystailine diamond (NCD) coatings obtained with the radio frequency plasma activated chemical vapour deposition (RFPACVD) process. They have different bio-physical and mechanical properties, in dependence of the parameters of deposition; DLC are amorphous coatings consisting of about 60% diamond and 40% graphite, NCD contains almost pure diamond. The application of carbon coatings in medicine is investigated for many years. Research on dental implants has begun more that decade ago. Otborska and all has explained the good mechanical properties of amorphous carbon coatings - DLC. Amorphous carbon (a-C) coatings, obtained by RFPACVD method, were deposited on implants used in maxillofacial surgery and on the dental prostheses. In all cases the substrate was the medical steel AISI 316L. After that the coating was investigated by Auger electron spectroscopy (AES). AES results show that the surface layer consists of carbon and the interface layer consisting of the substrate carbides (i.e. Cr, Ni, Mo, Fe) makes the coating more adhesive and improves its quality. However, the next generation coatings-NCD, improved in many ways the mechanical properties of the first carbon coatings. Nanocrystailine diamond coatings (NCD), posses the unique bio-medical and mechanical properties and so have found many applications in medicine. NCD is about 1mim thin coating with a very high adhesion to substrate thanks to the interface layer containing substrate carbides. It consists almost pure diamond, the crystals are of the sizes of nanometers. The small amount of graphite, on the grain baundries, even improves the mechanical quality of the coating, it is less brittle. NCD can be coated on different materials, such as titanium and its alloys or medical steel AISI316L, especially interesting are its applications as the coatings for medical implants. Investigations, lasting for many years, show the high biocompatibility of NCD and its good mechanical and physico-chemical properties, it is also resistant to bacterial colonization. Nanocrystailine diamond is also used as the coating for artificial heart valve because of its heamocompatibility and for dental implants. Dental implants have been coated with nanocrystailine diamond by RFPACVD method. Then their surface was analyzed by Raman Spectroscopy, Atomic Force Microscopy and Scanning Electron Microscopy. The good quality, uniform NCD coating, obtained on the dental implants surface, is a promising material in this area of research.

Słowa kluczowe

PL

implanty dentystyczne

EN

dental implants

• Wydawca: Polish Society for Biomaterials in Cracow
• Czasopismo: Engineering of Biomaterials
• Rocznik: 2007
• Tom: Vol. 10, no. 65-66
• Strony: 7--7
• Opis fizyczny: Bibliogr. 8 poz., rys.

Twórcy

autor

Olborska A.

• Instytut Centrum Zdrowia Matki Polki, ul Rzgowska 281/289, Łódź, Polska

autor

Karczemska A.

• Politechnika Łódzka, Instytut Maszyn Przepływowych, ul. Wólczańska 219/223, Łódź, Polska

Bibliografia

• [1] A. Olborska, M. Swider, R. Wolowiec, P. Niedzielski, A. Rylski, S. Mitura; "Amorphous carbon - biomaterial for implant coatings", Diamond and Related Materials 3 (1994) 899-901.
• [2] R. Hauert, "An overview on the tribological behavior of diamond-tike carbon in technical and medical applications", Tribology International 37 (2004) 991-1003.
• [3] G. Dearnaley, J.H. Arps, "Biomedical applications of diamond-like carbon (DLC) coatings: A review", Surface & Coatings Technology 200(2005)2518-2524.
• [4] E. Mitura, A. Niedzielska, P. Niedzielski, L. KIimek, A. Rylski, S. Mitura, J. Moll, W. Pietrzykowski; "The properties of carbon layers deposited onto titanium substrates” Diamond and Related Materials 5(1996)998-1001.
• [5] S. Mitura, A. Mitura, P. Niedzielski, P. Couvrat, "Nanocrystalline Diamond Coatings", Chaos, Solitons & Fractals Vol. 10, No 12, (1999)2165-2176.
• [6] K. Jozwik, A. Karczemska, ,,The new genaration Ti6AI4V artificial heart valve with nanocrystalline diamond coating on the ring and with Derlin disc after long-term mechanical fatigue examination", Diamond Relat. Mater. 16 (2007) 1004-1009.
• [7] K. Mitura, P. Niedzielski, G. Bartosz, J. Moll, B. Walkowiak, Z. Pawłowska, P. Louda, M. Kieć-Świerczyńska, S. Mitura; "Interactions between carbon coatings and tissue"; Surface & Coatings Technology 201 (2006)2117-2123.
• [8] W. Jakubowski, G. Bartosz, P. Niedzielski.W. Szymanski, B. Walkowiak; "Nanocrystalline diamond surface is resistant to bacterial colonization", Diamond&Related Materials 13(2004)1761-1763.