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3D-shaping of biodegradable photopolymers for hard tissue replacement |
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| Authors: | Monika Schuster Claudia Turecek Helga Lichtenegger Robert Liska |
| Affiliation: | a Institute of Applied Synthetic Chemistry, Division of Macromolecular Chemistry, Vienna University of Technology, Getreidemarkt 9/163/MC, A-1060 Vienna, Austria b Ludwig Boltzmann Institute of Osteology, Hanusch-Krankenhaus, Heinrich Collin-Straße 30, A-1140 Vienna, Austria c Institute of Materials Science and Testing, Vienna University of Technology, Favoritenstr. 9-11, A-1040 Vienna, Austria |
| Abstract: | Continuously increasing life expectancy results in a rising number of bone diseases and fractures. Replacements from natural sources are not only limited in their availability, they also have some serious disadvantages such as possible immunological reactions or transmission of diseases. New synthetic biodegradable materials based on photopolymers could be an alternative solution. In these investigations an acrylate-based monomer formulation has been developed, consisting of a biodegradable basis monomer which is derived from gelatin, different reactive diluents, an appropriate photoinitiator and filler materials. For the three-dimensional shaping process stereolithography is the method of choice because of its capability to produce cellular structures with high resolutions. |
| Keywords: | Photopolymerization Bone replacement material Stereolithography Biodegradable |
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