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Tytuł artykułu

Biomimetic Ca-P coatings obtained by chemical/electrochemical methods from Hanks' solution on a Ti surface

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The purpose of this study was to investigate the bioactivity of porous calcium phosphate coatings on titanium prepared using a two-step procedure (chemical etching or anodic oxidation of Ti followed by soaking in simulated body fluid or direct electrodeposition from Hanks' solution). In order to evaluate the potential use of the coatings for biomedical applications, the adsorption of serum albumin, the most abundant protein in the blood, and the attachment of living cells (osteoblasts, U2OS) were studied.
Rocznik
Strony
29--32
Opis fizyczny
Bibliogr. 25 poz., rys., tab., wykr.
Twórcy
autor
  • Institute of Physical Chemistry, Polish Academy of Sciences, Kasprzaka 44/52, 01-224 Warsaw, Poland
autor
  • Institute of Physical Chemistry, Polish Academy of Sciences, Kasprzaka 44/52, 01-224 Warsaw, Poland
  • Faculty of Materials Science and Engineering, Warsaw University of Technology, Woloska 141, 02-507 Warsaw, Poland
autor
  • Interdisciplinary Research Institute, USR CNRS 3078 Parc de la Haute Borne, 50 av. de Halley 59658 Villeneuve d'Ascq, France
  • Faculty of Materials Science and Engineering, Warsaw University of Technology, Woloska 141, 02-507 Warsaw, Poland
Bibliografia
  • [1] Wierzchoń T., Czarnowska E., Krupa D.: Inżynieria powierzchni w wytwarzaniu biomateriałów tytanowych. Oficyna Wydawnicza Politechniki Warszawskiej. Warszawa 2004.
  • [2] Wei M., Kim H-K, Kokubo T., Evans J.H.: Optimizing the Bioactivity of Alkaline-Treated Titanium Alloy. Materials Science and Engineering C 20 (2002) 125-134.
  • [3] Pisarek M., Lewandowska M., Roguska A., Kurzydłowski K.J., Janik-Czachor M.: SEM, Scanning Auger and XPS characterization of chemically pretreated Ti surfaces intended for biomedical applications. Materials Chemistry Physics 104 (2007) 93-97.
  • [4] Chen Y., Lee Chi-Y, Yeng M-Y, Chin H.T.: Preparing titanium oxide with various morphologies. Materials Chemistry and Physics 81 (2003) 39-43.
  • [5] Park Ji-H, Lee Y-K, Kim K-M, Kim K-N.: Bioactive calcium phosphate coating prepared on H2O2-treated titanium substrate by electrodeposition. Surface Coatings and Technology 195 (2005) 252-257.
  • [6] Takadama H., Kim H-M, Kokubo T., Nakamura T.: XPS study of the process of apatite formation on bioactive Ti6Al4V alloy in simulated body fluid. Science and Technology of Advanced Materials 2 (2001) 389-396.
  • [7] Vallet-Regi M., Gonzalez-Calbet J.M.: Calcium phosphates as substitution of bone tissues. Progress in Solid State Chemistry 32 (2004) 1-31.
  • [8] Pisarek M., Roguska A., Andrzejczuk M., Marcon L., Szunerits S., Lewandowska M., Janik-Czachor M.: Effect of two-step functionalization of Ti by chemical processes on protein adsorption. Applied Surface Science 257 (2011) 8196-8204.
  • [9] Park Ji-H, Lee D-Y, Oh K-T, Lee Y-K, Kim K-M, Kim K-N.: Bioactivity of calcium phosphate coatings prepared by electrode- position in a modified simulated body fluid. Materials Letters 60 (2006) 2573-2577.
  • [10] Wang H., Eliaz N., Hobbs L.W.: The nanostructure of an electrochemically hydroxyapatite coating. Materials Letters 65 (2011) 2455-2457.
  • [11] Zhao J., Wang X., Chen R., Li L.: Fabrication of titanium oxide nanotube arrays by anodic oxidation. Solid State Communications 134 (2005) 705-710.
  • [12] Macak J.M., Tsuchiya H., Ghicov A., Yasuda K., Hahn R., Bauer S., Schmuki P.: TiO2 nanotubes: Self-organized electrochemical formation, properties and applications. Current Opinion in Solid State and Materials Science 11 (2007) 3-18.
  • [13] Krasicka-Cydzik E., Głazowska I., Kaczmarek A., Białas- Heltowski K.: Wpływ stężenia jonów fluorkowych na wzrost ano¬dowej samoorganizującej się warstwy nanorurek TiO2. Inżynieria Biomateriałów 77-80 (2008) 46-48.
  • [14] Roguska A., Pisarek M., Andrzejczuk M., Dolata M., Lewandowska M., Janik-Czachor M.: Characterization of a calcium phosphate - TiO2 nanotube composite layer for biomedical applications. Materials Science and Engineering C 31 (2011) 906-914.
  • [15] Dey T., Roy P., Fabry B., Schmuki P.: Anodic mesoporous TiO2 layer on Ti for enhanced formation of biomimetic hydroxyapatite. Acta Biomaterialia 7 (2011) 1873-1879.
  • [16] Cai K., Bossert J., Jandt K.D.: Does the nanometer scale topography of titanium influence on protein adsorption and cell proliferation? Colloids Surfaces B:Biointerfaces 49 (2006) 136-214.
  • [17] ter Brugge P. J., Dieudonne S., Jansen J.A.: Initial interaction of U2OS cells with non-coated and calcium phosphate coated titanium substrates. Journal of Biomedical Materials Research A 61 (2002) 399-407.
  • [18] Dorozhkin S.V., Schmitt M., Bouler J.M., Daculsi G.: Chemical transformation of some biologically relevant calcium phosphates in aqueous media during steam sterilization. Journal of Materials Science: Materials in Medicine 11 (2000) 779-786.
  • [19] Kokubo T., Kim H-M, Miyaji F., Takadama H., Miyazaki T.: Ceramic-metal and ceramic-polymer composites prepared by a biomimetic process. Composites Part A 30 (1999) 405-409.
  • [20] Uchida M., Kim H-M, Kokubo T., Fujibayashi S., Nakamura T.: Structural dependence of apatite formation on titania gels in a simulated body fluid. Journal of Biomedical Materials Research Part A 64A (2003)164-170.
  • [21] Dorozhkin S.V.: Calcium orthophosphates. Journal of Materials Science 42 (2007) 1061-1095.
  • [22] Praca zbiorowa pod red. M. Nałęcza.: Biocybernetyka i inżynieria biomedyczna 2000, Tom 4 - Biomateriały (red. S. Błażewicz, L. Stoch). Akademicka Oficyna Wydawnicza Exit. Warszawa 2003.
  • [23] Lu H.B., Campbell C.T., Graham D.J., Ratner B.D.: Surface characterization of hydroxyapatite and related calcium phosphates by XPS and TOF-SIMS. Analytical Chemistry 72 (2000) 2886-2894.
  • [24] Twardowski J.: Spektroskopia Ramana i podczerwieni w biologii. Państwowe Wydawnictwo Naukowe. Warszawa 1988.
  • [25] Zhu X., Chen J., Scheideler L., Reichl R., Geis-Gerstorfer J.: Effects of topography and composition of titanium surface oxides on osteoblast responses. Biomaterials 25 (2004) 4087-4103.
Uwagi
EN
This work was financially supported by the National Science Center (decision No. DEC-2011/01/B/ST5/06257), and by the Institute of Physical Chemistry PAS and Interdisciplinary Research Institute
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-55b463b8-5c70-426b-b415-0877bfcf90be
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