Consider a material for a vascular graft application with proteins adsorbed to its surface and a second material with proteins covalently attached to its surface. For which material would you expect the protein layer to be more stable under flow conditions similar to those found in a blood vessel? Why? You are performing an in vitro experiment in which you will expose a material you are considering tor a medical device to synovial fluid, which contains the proteins albumin, transferring, and IgM at concentrations of 5, 0.5, and 0.05 mg/ml, respectively. Each of these components has a particular affinity for your material, with IgM being the highest and albumin being the lowest. Describe the kinetics of protein adsorption to your material and how the surface concentration of each protein will change with time. Subsequently in the experiment, more albumin is added to the synovial fluid. What effect will this have on the proteins adsorbed to the surface? The graph below shows the amount of IgM adsorbed to the material surface as a function of time. What will happen on the material surface with the addition of more IgM?