Mathematical Model of Binding of Albumin—Bilirubin Complex to the Surface of Carbon Pyropolymer

The adsorption behavior of albumin-bonded bilirubin on different micrometer-sized granular activated carbons (GACs) with different BET surface areas of 913, 1173 and 1413 m 2 g À1 and different pore size distributions in the micropore and mesopore range has been investigated in order to study the be

The binding/transporting functions of albumin provide the rationale for using albumin dialysis (e.g., molecular adsorbents recirculating system [MARS]) in liver failure. This study investigates these properties in vitro, validating the findings in vivo. In vitro bromosulphthalein (BSP) and bilirubin

Experimental data for carbonate adsorption onto synthetic goethite, spanning 3 orders of magnitude in carbonate concentrations, were simulated using the triple-layer surface complexation model (TLM). A single set of TLM parameters successfully described the adsorption behavior versus pH over the con

The complexatlon capacity of albumin to zmc was studied by different voltammetrlc methods Cycbc voltammetry was used with a hanging mercury drop electrode (HMDE) to diagnose quahtatlvely the electrode mechanisms occumng at a mercury electrode and to evaluate the charge-transfer rate constant of the