http://www.cnr.it/ontology/cnr/individuo/prodotto/ID34003

Control of cell adhesion and spreading by spatial microarranged PEO-like and pdAA domains (Articolo in rivista)

Type

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Control of cell adhesion and spreading by spatial microarranged PEO-like and pdAA domains (Articolo in rivista) (literal)

Anno

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Alternative label

E. Sardella1,2; R. Gristina2; G. Ceccone3; D. Gilliland3; A. Papadopoulou-Bouraoui3; F. Rossi3; G.S. Senesi2; L. Detomaso1; P. Favia1; R. d'Agostino1 (2005)
Control of cell adhesion and spreading by spatial microarranged PEO-like and pdAA domains
in Surface & coatings technology; Elsevier B.V., Amsterdam (Belgio)
(literal)

Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori

E. Sardella1,2; R. Gristina2; G. Ceccone3; D. Gilliland3; A. Papadopoulou-Bouraoui3; F. Rossi3; G.S. Senesi2; L. Detomaso1; P. Favia1; R. d'Agostino1 (literal)

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Note

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1 - Department of Chemistry, University of Bari, Via Orabona 4, 70126 Bari, Italy 2 - Institute of Inorganic Methodologies and Plasmas-Bari, CNR, Via Orabona 4, 70126, Bari, Italy 3 - Joint Research Centre, Institute of Health and Consumer protection, Biomedical Materials and System Unit, Via E. Fermi 1, Ispra (VA), Italy (literal)

Titolo

Control of cell adhesion and spreading by spatial microarranged PEO-like and pdAA domains (literal)

Abstract

Microstructured surfaces are widely used in cell culture experiments to understand the fundamentals of cell-material interactions by a spatial control of cell adhesion and spreading. Recent studies have documented that both substrate chemistry and topography are tightly correlated to cell behaviours. For this reason a wide range of techniques have been explored for obtaining in a simple and cheap way reproducible patterned substrates. This paper describes how to produce micropatterned substrates by a spatial microarrangment of chemically different domains, produced by plasma deposition. Cell-repulsive zones, obtained by plasma deposited PolyethyleneOxide-like (PEO-like) coating, were alternated with cell-adhesive tracks, namely plasma deposited Acrylic Acid (pdAA) films. Time lapse experiments demonstrated that such patterns, suitable to exert chemical and topographical constraints for cell-adhesion, can also support migration of cells inside the produced pattern. (literal)

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