Comparative study of hydroxyapatite and hydroxyapatite mixed with bioglass coatings of metallic implants, deposited by PLD method

Mróz, W.; Jedyński, M.; Burdyńska, S.; Prokopiuk, A.; Ślósarczyk, A.; Menaszek, E.; Ścisłowska-Czarnecka, A.; Łączka, M.; Cholewa-Kowalska, K.; Niedzielska, A.

Artykuł - szczegóły

Tytuł artykułu

Comparative study of hydroxyapatite and hydroxyapatite mixed with bioglass coatings of metallic implants, deposited by PLD method

Autorzy

Mróz W. , Jedyński M. , Burdyńska S. , Prokopiuk A. , Ślósarczyk A. , Menaszek E. , Ścisłowska-Czarnecka A. , Łączka M. , Cholewa-Kowalska K. , Niedzielska A.

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Abstrakty

Hydroxyapatite and bioglasses are important bioactive materials as they exhibit direct bonding with human bone. Therefore they are used as coatings for metallic implants. The aim of the present study was to compare two types of layers: monophase hydroxyapatite (HA) and composite-type HA+BG hydroxyapatite mixed with bioglass (BG) (BG 50% of weight) during the initial stage of their interaction with cell medium. In vitro studies were performed in order to determine the effect of the investigated layers on cell response. After 3 and 7 days the behaviour of the cells grown on the above surfaces was estimated through determination of the cell adhesion (CV colorimetric assay). Cell morphology and properties of biomaterials surfaces were analysed by atomic force microscopy (AFM).

Słowa kluczowe

implants hydroxyapatite bioglasses

Wydawca

Polish Society for Biomaterials in Cracow

Czasopismo

Engineering of Biomaterials

Rocznik

2008

Tom

Vol. 11, no. 81-84

Strony

121--123

Opis fizyczny

Bibliogr. 12 poz., tab., wykr., zdj.

Twórcy

autor

Mróz W.

Military University of Technology, Institute of Optoelectronics, Kaliskiego str., 01-489 Warsaw, Poland

autor

Jedyński M.

mjedynski@wat.edu.pl

Military University of Technology, Institute of Optoelectronics, Kaliskiego str., 01-489 Warsaw, Poland

autor

Burdyńska S.

Military University of Technology, Institute of Optoelectronics, Kaliskiego str., 01-489 Warsaw, Poland

autor

Prokopiuk A.

Military University of Technology, Institute of Optoelectronics, Kaliskiego str., 01-489 Warsaw, Poland

autor

Ślósarczyk A.

AGH-UST, Faculty of Materials Science and Ceramics, 30 Mickiewicza av., 30-059 Cracow, Poland

autor

Menaszek E.

Jagiellonian University, Departament of Cytobiology and Histochemistry, 9 Medyczna str., 30-688 Cracow, Poland

autor

Ścisłowska-Czarnecka A.

Academy of Physical Education, Departament of Anatomy, 78 Jana Pawla II av., 31-571 Cracow, Poland

autor

Łączka M.

AGH-UST, Faculty of Materials Science and Ceramics, 30 Mickiewicza av., 30-059 Cracow, Poland

autor

Cholewa-Kowalska K.

AGH-UST, Faculty of Materials Science and Ceramics, 30 Mickiewicza av., 30-059 Cracow, Poland

autor

Niedzielska A.

Technical University of Lodz, Institute of Materials Science and Engineering, 1/15 Stefanowskiego str., 90-924 Lodz, Poland

Bibliografia

[1] Chang C, Wu J, Mao D, Ding C. Mechanical and Histological evaluations of Hydroxyapatite-coated and noncoated Ti6Al4V implants in tibia bone. J Biomed Mater Res 2001; 56: 17-23.
[2] Ducheyne P, Beight J, Cuckler J, Evans B, Radin S. The effect of calcium phosphate coating characteristics on early postoperative bone tissue ingrowth. Biomaterials 1990; 11: 531-540.
[3] Hench LL. Bioactive glass and glass-ceramics: a perspective, in: Yamamuro T, Hench LL, Wilson J (Eds.), Handbook of Bioactive Ceramics, CRC Press, Boca Raton, FL, 1990; 7.
[4] Elbatal HA, Azooz MA, KhalilL EMA, Monem AS, Hamdy YM. Characterization of some bioglass-ceramics. Mater Chem Phys 2003; 80: 599.
[5] Eason R (ed.). Pulsed Laser Deposition of Thin Films. Applications-led growth of functional materials 2007, Willey, New Jersey.
[6] Cleries L, Martinez E, Fernandez JM, Sardin G, Esteve J, Morenza JL. Mechanical properties of calcium phosphate coatings deposited by laser ablation. Biomaterials 2000; 21: 967-971.
[7] Mróz W, Jedyński M, Prokopiuk A, Ślósarczyk A, Paszkiewicz Z. Characterization of calcium phosphate coatings doped with Mg, deposited by pulsed laser depostion technique using ArF excimer laser. Micron (2008), doi: 10.1016/j.micron.2008.01.016
[8] Jelinek M, Olsan V, Jastrabik L, Studnicka V, Hnatowicz V, Kvitek J, Havranek V, Dostalova T, Zergioti I, Petrakis A, Hontzopoulos E, Fotakis C. Effect of processing parameters on the properties of hydroxylapatite films grown by pulsed laser deposition. Thin Solid Films 1995; 257: 125-129.
[9] Mróz W. Physics of deposition of hydroxyapatite layers by pulse laser deposition method, in Functional Properties of Nanostructured Materials, ed. by R. Kassing, P. Petkov, W. Kulisch, C. Popov. NATO Science Series II Mathematics, Physics and Chemistry 2006; 223: 183-196.
[10] Mitura A, Mitura E, Mitura A. Manufacture of amorphous carbon layers by r.f. dense plasma CVD. Diamond and Related Materials 1995; 4: 302-303.
[11] Plytycz B, Rozanowska M, Seljelid R. Quantification of neutral red pinocytosis by small numbers of adherent cells. Comparative studies. Folia Biol 1992; 40: 3-9.
[12] Mayor B, Arias J, Chiussi S, Garcia F, Pou J, Leon Fong B, Perez-Amor M. Calcium phosphate coatings grown at different substrate temperatures by pulsed ArF-laser deposition. Thin Solid Films 1998: 317: 363-366

Uwagi

The research was financed by the Polish Ministry of Science and Higher Education project No. T00 C 004 29 and Eureka project no. 57/N-Eureka/2007.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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