Attachment and proliferation of bovine aortic endothelial cells onto additive modified poly(ether urethane ureas).

To better understand endothelial cell interactions with poly(ether urethane urea) (PEUU) materials, and to assess bovine aortic endothelial cell attachment, films were incubated for 24 h with BAEC in media containing 5% fetal bovine serum. Other films were allowed to incubate for 4 more days in media containing 5% fetal bovine serum without cells to assess BAEC proliferation. The assay was performed on PEUU films modified with acrylate and methacrylate polymer and copolymer additives that spanned a wide range on the hydrophobicity/hydrophilicity scale. Tissue culture polystyrene (TCPS) was used as a control. The assay showed that PEUU films loaded with Methacrol 2138F [copoly(diisopropylaminoethyl methacrylate [DI-PAM]/decyl methacrylate [DM]) (3/1)] or with its hydrophilic component, DIPAM, in homopolymer form (i.e., h-DIPAM), significantly enhanced BAEC attachment (approximately 80% of TCPS values) and proliferation (approximately 80%) when compared to unloaded PEUU films (attachment 73%; proliferation, 47%) or to PEUU films loaded with the more hydrophobic acrylate or methacrylate polymer additives (attachment, 32-69%; proliferation, 18-57%). The assay also showed that PEUU films coated with homopoly(diisopropylaminoethyl acrylate) (h-DIPAA) significantly enhanced BAEC attachment and proliferation when compared to PEUU films coated with h-decyl acrylate (h-DA); films coated with the copolymer of these two acrylates (i.e., co-[DIPAA/DA] [3/1]) showed intermediate behavior. To explain the enhancement of BAEC interaction with films loaded with Methacrol 2138F or h-DIPAM, when compared to unmodified PEUU films or to PEUU films loaded with more hydrophobic acrylate and methacrylate polymer additives, it was assumed that the additives near the surface region of the solvent swollen PEUU matrix may have migrated to, or near to, the PEUU-air interface during film formation, creating an additive enriched PEUU surface region. It is suggested that, once at this surface region, dynamic reorientation in response to an aqueous medium ensured the additives were able significantly to influence protein adsorption, and concomitant endothelial cell behavior, but only if they interacted with aqueous media more favorably than the PEUU. The ability of Methacrol and h-DIPAM additives to enhance endothelial cell behavior is argued to be the result of increased hydrophilicity. This is the result of exposed, hydrogen-bonding DIPAM moieties and increased surface flexibility, which is itself due to the hydration of unhindered Methacrol chains, which may create an additive enriched PEUU-water interfacial zone.