Kuhnert, E.
[Author];
Ehlert, Nina
[Author];
Behrens, Peter
[Author];
Gross, G.
[Author];
Lenarz, Thomas
[Author];
Stieve, Martin
[Author];
Brandes, Gudrun
[Author]
Different cell populations are inducible by BMP-2 covalently covered Bioverit® II implants in rabbit subcutis and middle ear
- [published Version]
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Media type:
Text;
E-Article
Title:
Different cell populations are inducible by BMP-2 covalently covered Bioverit® II implants in rabbit subcutis and middle ear
Contributor:
Kuhnert, E.
[Author];
Ehlert, Nina
[Author];
Behrens, Peter
[Author];
Gross, G.
[Author];
Lenarz, Thomas
[Author];
Stieve, Martin
[Author];
Brandes, Gudrun
[Author]
Published:
Berlin: Walter de Gruyter, 2013-09-07
Published in:Biomedical Engineering / Biomedizinische Technik 58 (2013), Nr. S1
Footnote:
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Description:
To optimize the function of implants the formation of surrounding connective tissue should be adapted in dependence to the mechanical conditions. Therefore, with nanostructured silica coated Bioverit® II implants were only partly reacted with recombinant BMP-2. The histology was compared 28, 84 and 301 days after implantation in the rabbit middle ear and subcutis, respectively. The whole tissue blocks were embedded in Epon, sequentially grinded, stained with Toluidine Blue O and Eosin G. The granulation tissue covering the implants varies related to cell types, cell amounts, extracellular matrix and vessels. Whereas the high cell density and the angiogenesis predominated in the subcutis, the formation of new bone could only be recognized in the scar around the implants in the middle ear. ; SFB/599/project D1.