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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Avalia??o do estresse oxidativo induzido por superf?cies de tit?nio

Queiroz, Jana Dara Freires de 29 November 2011 (has links)
Made available in DSpace on 2014-12-17T14:03:39Z (GMT). No. of bitstreams: 1 JanaDFQ_DISSERT.pdf: 1850683 bytes, checksum: e5171a51c7f0d0df9cc94a873195a0f7 (MD5) Previous issue date: 2011-11-29 / Commercially pure Titanium (cp Ti) is a material largely used in orthopedic and dental implants due to its biocompatibility properties. Changes in the surface of cp Ti can determine the functional response of the cells such as facilitating implant fixation and stabilization, and increased roughness of the surface has been shown to improve adhesion and cellular proliferation. Various surface modification methods have been developed to increase roughness, such as mechanical, chemical, electrochemical and plasma treatment. An argon plasma treatment generates a surface that has good mechanical proprieties without chemical composition modification. Besides the topography, biological responses to the implant contribute significantly to its success. Oxidative stress induced by the biomaterials is considered one of the major causes of implant failure. For this reason the oxidative potential of titanium surfaces subjected to plasma treatment was evaluated on this work. CHO-k1 cells were cultivated on smooth or roughed Ti disks, and after three days, the redox balance was investigated measuring reactive oxygen species (ROS) generation, total antioxidant capacity and biomarkers of ROS attack. The results showed cells grown on titanium surfaces are subjected to intracellular oxidative stress due to hydrogen peroxide generation. Titanium discs subjected to the plasma treatment induced less oxidative stress than the untreated ones, which resulted in improved cellular ability. Our data suggest that plasma treated titanium may be a more biocompatible biomaterial. / O Tit?nio comercialmente puro (cpTi) ? amplamente utilizado em implantes ortop?dicos e dentais gra?as ?s suas propriedades f?sico-qu?micas. Mudan?as na superf?cie do cpTi podem determinar respostas funcionais nas c?lulas influenciando a fixa??o e estabiliza??o do implante. Muitos m?todos de modifica??o na superf?cie podem ser aplicados para aumentar a rugosidade como, por exemplo, tratamentos mec?nicos, qu?micos, eletroqu?micos e a plasma. Este ?ltimo, quando realizado em atmosfera de arg?nio gera uma superf?cie rugosa com boas propriedades mec?nicas sem alterar a composi??o qu?mica do material. Superf?cies rugosas geralmente s?o mais biocompat?veis que as lisas, pois esse tipo de topografia facilita os processos de ades?o e prolifera??o celular. Al?m da topografia, as rea??es biol?gicas desencadeadas em resposta ao implante contribuem de forma significativa para o sucesso do mesmo. Dentre estas rea??es, o estresse oxidativo tem sido apontado como um dos principais respons?veis por falhas na implanta??o. Diante do exposto, o potencial oxidativo das superf?cies de tit?nio tratadas e n?o tratadas a plasma em atmosfera de arg?nio foi avaliado neste trabalho. Para tanto, c?lulas CHOk1 foram cultivadas sobre as superf?cies de tit?nio (tratadas e n?o tratadas). Ap?s tr?s dias de cultivo o potencial oxidativo foi investigado por meio da quantifica??o de esp?cies reativas, an?lise da capacidade antioxidante e an?lise de biomarcadores de dano oxidativo (lipoperoxida??o, carbonila??o prot?ica e oxida??o das bases do DNA). Os resultados obtidos indicam que ambas as superf?cies de tit?nio induzem estresse oxidativo, sendo o per?xido de hidrog?nio a principal esp?cie envolvida. O tratamento a plasma reduziu os danos oxidativos e promoveu melhora na habilidade celular em responder ao estresse oxidativo. Deste modo, a modifica??o da superf?cie de tit?nio atrav?s do tratamento a plasma pode ser uma alternativa para a obten??o de um material com melhor biocompatibilidade. / 2020-01-01

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