Controlling fibroblast adhesion and proliferation by 1D Al2O3 nanostructures

Controlling fibroblast adhesion and proliferation by 1D Al2O3 nanostructures

The fibrotic encapsulation, which is mainly accompanied by an excessive proliferation of fibroblasts, is an undesired phenomenon after the implantation of various medical devices. Beside the surface chemistry, the topography plays also a major role in the fibroblast–surface interaction. In the prese...

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Veröffentlicht in:IET nanobiotechnology 2019-08, Vol.13 (6), p.621-625
Hauptverfasser: Aktas, Oral Cenk, Metzger, Wolfgang, Mees, Lisa, Martinez, Marina Miro, Haidar, Ayman, Oberringer, Martin, Wennemuth, Gunther, Pütz, Norbert, Ghori, Muhammad Zubair, Pohlemann, Tim, Veith, Michael
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Sprache:eng
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Research Article
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Zusammenfassung:The fibrotic encapsulation, which is mainly accompanied by an excessive proliferation of fibroblasts, is an undesired phenomenon after the implantation of various medical devices. Beside the surface chemistry, the topography plays also a major role in the fibroblast–surface interaction. In the present study, one-dimensional aluminium oxide (1D Al2O3) nanostructures with different distribution densities were prepared to reveal the response of human fibroblasts to the surface topography. The cell size, the cell number and the ability to form well-defined actin fibres and focal adhesions were significantly impaired with increasing distribution density of the 1D Al2O3 nanostructures on the substratum.
ISSN:1751-8741
1751-875X
DOI:10.1049/iet-nbt.2018.5088