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      Protein adsorption and smooth muscle cell adhesion on biodegradable agmatine-modified poly(propylene fumarate-co-ethylene glycol) hydrogels

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      Journal of Biomedical Materials Research
      Wiley

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          Interaction of cultured human endothelial cells with polymeric surfaces of different wettabilities.

          The in vitro interaction of human endothelial cells (HEC) and polymers with different wettabilities in culture medium containing serum was investigated. Optimal adhesion of HEC generally occurred onto moderately wettable polymers. Within a series of cellulose type of polymers the cell adhesion increased with increasing contact angle of the polymer surfaces. Proliferation of HEC occurred when adhesion was followed by progressive flattening of the cells. Our results suggest that moderately wettable polymers exhibit a serum and/or cellular protein adsorption pattern that is favourable for growth of HEC.
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            Vitronectin

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              Adhesion of cultured human endothelial cells onto methacrylate polymers with varying surface wettability and charge.

              The adhesion of human endothelial cells (HEC) onto a series of well-characterized methacrylate polymer surfaces with varying wettabilities and surface charges was studied either in serum-containing (CMS) or in serum-free (CM) culture medium. HEC adhesion in CMS onto (co)polymers of hydroxyethyl methacrylate (HEMA) and methyl methacrylate (MMA) was found to be optimal on the moderately wettable copolymer (mol ratio 25 HEMA/75 MMA). Positively-charged copolymers of HEMA or MMA with trimethylaminoethyl methacrylate-HCl salt (TMAEMA-Cl), both with mol ratios of 85/15 and a negatively-charged copolymer of MMA with methacrylic acid (MAA), mol ratio 85/15, showed high numbers of adhering HEC. In CM, HEC adhered onto the three charged copolymers mentioned above, but neither onto the copolymer of HEMA and MAA (mol ratio 85/15) nor onto the HEMA/MMA co- and homopolymers. Complete cell spreading in CM was only observed on the positively-charged copolymers.
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                Author and article information

                Journal
                Journal of Biomedical Materials Research
                J. Biomed. Mater. Res.
                Wiley
                0021-9304
                1097-4636
                November 01 2003
                November 01 2003
                October 14 2003
                : 67A
                : 2
                : 448-457
                Article
                10.1002/jbm.a.10077
                feacf30d-1617-47c4-a4cb-e3df896e3999
                © 2003

                http://doi.wiley.com/10.1002/tdm_license_1.1

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