The antifouling properties against the simultaneous attack of five different bacteria and the stability of surface tethered poly(2-ethyl-2-oxazoline)s were investigated.
To promote osteoblast adhesion and proliferation on (bio)material surfaces, biomimetic coatings resembling the natural extracellular matrix (ECM) are desirable. The glycosamino glycans (GAGs) chondroitin sulfate (CS) and heparin (HEP) are promising candidates for a biomimetic coating since they are two of the most prevalent noncollagenous biomolecules constituting the ECM. Coatings containing CS and HEP were prepared employing the "layer by layer" technique yielding polyelectrolyte multilayers (PEMs). Physicochemical and mechanical characterization of the coatings were performed by means of streaming potential measurements and colloidal force spectroscopy. The capability of the coatings to support cell adhesion, spreading, proliferation, and maintenance of an osteoblastic phenotype was assessed with SaOS osteosarcoma cells. We demonstrate that PEMs constructed from CS as the polyanion display a low Young's modulus correlated with poorly supported cell adhesion and proliferation. When the CS was adsorbed onto a stiffer polypeptide PEM basis, the Young's modulus increased, and the cell response was significantly improved. For HEP coatings an intermediate Young's modulus and moderate cell adhesion and spreading were observed. No significant changes in stiffness or cell response were detected when HEP was adsorbed onto the polypeptide film.
Although the adsorption of proteins on the Mg surface was ascribed to be the main reason for the effect of proteins on magnesium (Mg) degradation, few studies about the adsorption of proteins on the Mg surface were performed due to the labile circumstances during immersion. In the present study, the adsorption of bovine serum albumin (BSA) and fibrinogen (Fib) on the Mg surface during and after immersion was extensively investigated in different media for the first time. The results revealed that BSA and Fib showed a similar adsorption trend on the Mg surface during and after immersion, and they adsorbed more on the Mg surface in Hank's balanced salt solution (HBSS) than in Dulbecco's modified Eagle medium Glutamax-I (DMEM). The possible influence factors for protein adsorption, such as pH, surface roughness, and wettability, were considered to elucidate different adsorption in HBSS and DMEM. It was found that the participation of Ca 2+ in the formation of degradation products largely affected the degradation rate of Mg, changed surface roughness, compactness, and surface charge during immersion, which largely suppressed the adsorption of proteins on the Mg surface.
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