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Int J Artif Organs


Title:In vitro biocompatibility of titanium oxide for prosthetic devices nanostructured by low pressure metal-organic chemical vapor deposition
Author(s):Giavaresi G; Giardino R; Ambrosio L; Battiston G; Gerbasi R; Fini M; Rimondini L; Torricelli P;
Address:"Experimental Surgery Department, Research Institute Codivilla-Putti, Rizzoli Orthopedic Institute, Bologna, Italy"
Journal Title:Int J Artif Organs
Year:2003
Volume:26
Issue:8
Page Number:774 - 780
DOI: 10.1177/039139880302600811
ISSN/ISBN:0391-3988 (Print) 0391-3988 (Linking)
Abstract:"Metal-Organic Chemical Vapor Deposition (MOCVD) has recently been proposed to coat orthopedic and dental prostheses with metal nanostructured oxide films through the decomposition of oxygenated compounds (single-source precursors) or the reaction of oxygen-free metal compounds with oxygenating agents. The present study was carried out to assess the in vitro biocompatibility in terms of cell proliferation and activation, of commercially pure Ti (control material: TI/MA) coated with nanostructured TiO2 film by MOCVD (Ti/MOCVD) using osteoblast-like cell cultures (MG-63). Evaluations were performed at 3, 7 and 14 days. Cell proliferation showed a similar trend for Ti/MA and TilMOCVD compared to polystyrene; cell number increased with time from seeding to day 7 (p < 0.005), and then decreased progressively until day 14 (ranging from -14% to -47%). The ALP level and OC production showed no significant differences between Ti/MOCVD and Ti/MA at each experimental time. Significantly higher ALP levels were found in Ti/MA at 3 days and in Ti/MOCVD at 7 and 14 days when compared to the polystyrene group. OC production decreased over time and the highest values were observed at 3 days, when it was significantly higher in the Ti/MA than in the polystyrene group (50%, p < 0.05). CICP synthesis was positively affected by the presence of Ti/MOCVD and was higher in Ti/MOCVD than in the polystyrene group. No significant differences were found between Ti/MOCVD and Ti/MA in terms of IL-6 and TGF-beta1 synthesis at any experimental time. In conclusion, the current findings demonstrate that the nanostructured TiO2 coating positively affects the osteoblast-like cell behavior in terms of cell proliferation and activity, thus confirming its high level of in vitro biocompatibility in accordance with expectations"
Keywords:"Biocompatible Materials Cells, Cultured In Vitro Techniques Nanotechnology Osteoblasts/*physiology *Prostheses and Implants Statistics, Nonparametric Surface Properties Titanium/*chemistry Volatilization;"
Notes:"MedlineGiavaresi, G Giardino, R Ambrosio, L Battiston, G Gerbasi, R Fini, M Rimondini, L Torricelli, P eng 2003/10/03 Int J Artif Organs. 2003 Aug; 26(8):774-80. doi: 10.1177/039139880302600811"

 
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