Fibroblast adhesion on unidirectional polymeric nanofilms

Nanotextured polymeric surfaces with inclined rods reveal highly anisotropic properties concerning wetting and adhesion. In this work, we report on the interaction of fibroblast cells with these highly anisotropic materials. The authors quantified removal of adherent cells from such surfaces by a la...

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Veröffentlicht in:	Biointerphases 2011-12, Vol.6 (4), p.158-163
Hauptverfasser:	Christophis, Christof, Sekeroglu, Koray, Demirel, Gokhan, Thome, Isabel, Grunze, Michael, Demirel, Melik C, Rosenhahn, Axel
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Cell Adhesion - drug effects Fibroblasts - cytology Fibroblasts - drug effects Fibroblasts - ultrastructure Microfluidics Nanostructures - chemistry Nanostructures - ultrastructure Polymers - metabolism Polymers - pharmacology Pseudopodia - drug effects Rats Rheology - drug effects Xylenes - pharmacology
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creator	Christophis, Christof Sekeroglu, Koray Demirel, Gokhan Thome, Isabel Grunze, Michael Demirel, Melik C Rosenhahn, Axel
description	Nanotextured polymeric surfaces with inclined rods reveal highly anisotropic properties concerning wetting and adhesion. In this work, we report on the interaction of fibroblast cells with these highly anisotropic materials. The authors quantified removal of adherent cells from such surfaces by a laminar flow. The critical shear force needed for cell removal from the surface depends on the inclination direction. Based on electron microscopy cross sections we deduce that interactions of cellular filopodia extending into the nanotextured surface are causing the direction depending removal.
doi_str_mv	10.1116/1.3646093
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subjects	Animals Cell Adhesion - drug effects Fibroblasts - cytology Fibroblasts - drug effects Fibroblasts - ultrastructure Microfluidics Nanostructures - chemistry Nanostructures - ultrastructure Polymers - metabolism Polymers - pharmacology Pseudopodia - drug effects Rats Rheology - drug effects Xylenes - pharmacology
title	Fibroblast adhesion on unidirectional polymeric nanofilms
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