Biomedical interfaces: titanium surface technology for implants and cell carriers |
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Authors: | Schuler Martin Trentin Diana Textor Marcus Tosatti Samuele G P |
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Affiliation: | Laboratory for Surface Science and Technology, BioInterfaceGroup, Department of Materials, ETH Zurich, Zurich, Switzerland. martin.schuler@mat.ethz.ch |
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Abstract: | Titanium and its alloys have become key materials for biomedical applications, mainly owing to their compatibility with human tissues and their mechanical strength. Effects of surface topography on cell and tissue response have been investigated extensively in the past, while (bio)chemical surface modification and its combination with designed topographies have remained largely unexplored. The following report describes some of the strategies used or intended to modify titanium surfaces, based on biological principles, with a focus on ultrathin biomimetic adlayers. One of the visions behind such approaches is to achieve improved healing and integration responses after implantation for patients, especially for those suffering from deficiencies, for example, diabetes or osteoporosis, two diseases that have increased drastically in our society during the last century. |
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