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Stable biochemically micro-patterned hydrogel layers control specific cell adhesion and allow long term cyclic tensile strain experiments

  • Poly(dimethylsiloxane) can be covalently coated with ultrathin NCO-sP(EO-stat-PO) hydrogel layers which permit covalent binding of cell adhesive moieties, while minimizing unspecific cell adhesion on non-functionalized areas. We applied long term uniaxial cyclic tensile strain (CTS) and revealed (a) the preservation of protein and cell-repellent properties of the NCO-sP(EO-stat-PO) coating and (b) the stability and bioactivity of a covalently bound fibronectin (FN) line pattern. We studied the adhesion of human dermal fibroblast (HDFs) on non-modified NCO-sP(EO-stat-PO) coatings and on the FN. HDFs adhered to FN and oriented their cell bodies and actin fibers along the FN lines independently of the direction of CTS. This mechanical long term stability of the bioactive, patterned surface allows unraveling biomechanical stimuli for cellular signaling and behavior to understand physiological and pathological cell phenomenon. Additionally, it allows for the application in wound healing assays, tissue engineering, and implant development demanding spatial control over specific cell adhesion.

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Metadaten
Author of HS ReutlingenKemkemer, Ralf
DOI:https://doi.org/10.1002/mabi.201400261
ISSN:1616-5187
eISSN:1616-5195
Erschienen in:Macromolecular bioscience
Publisher:Wiley
Place of publication:Hoboken, NJ
Document Type:Journal article
Language:English
Publication year:2014
Tag:hydrogels; mechanical properties; micro-contact printing of fibronectin; specific cell adhesion; spin coating of star polymers
Volume:14
Issue:11
Page Number:9
First Page:1547
Last Page:1555
DDC classes:530 Physik
570 Biowissenschaften, Biologie
Open access?:Nein
Licence (German):License Logo  In Copyright - Urheberrechtlich geschützt