Competitive adsorption of plasma proteins onto polymer surfaces

## Abstract A series of fluorinated polyimides cured at different temperatures was prepared, and plasma protein adsorption and platelet adhesion onto the polyimide films were evaluated __in vitro__ using scanning electron microscopy, a micro‐bicinchoninic acid protein assay, and a gold–colloid‐labe

at later stages of the adsorption process proteins like high Competitive adsorption from a ternary mixture of human serum molecular weight kininogen dominated the adsorbed layer. albumin (HSA), human IgG, and human fibrinogen (Fgn) at con-This sequential adsorption is widely referred to as the Vroce

The competitive adsorption of human serum ablumin (HSA), IgG and fibrinogen (Fgn) at radio frequency plasma polymer surfaces was studied with in situ ellipsometry and TIRF (total internal reflection fluorescence spectroscopy). While both IgG and Fgn adsorbed preferentially over HSA at hydrophobic su

## Abstract Adsorption of albumin, γ‐globulin, and fibrinogen from solution, under both static and flow conditions, onto several hydrophobic polymers was studied using internal reflection infrared spectroscopy. Isotherm curves experimentally found were consistant with Langmuir type adsorption. The

Infrared internal reflection spectroscopy has been used to study the adsorption of certain plasma proteins on a variety of hydrophobic polymer surfaces. The behavior of the systems studied was almost identical. Under static conditions the proteins appear to be rapidly adsorbed as monomolecular layer