Thrombus formation is a surface phenomenon which is always initiated upon a
surface. It makes optical surface sensing systems very reasonable and prom
ising tools for its monitoring and study. We evaluated the feasibility to f
ollow the enzymatic conversion of surface-bound fibrinogen by thrombin to f
ibrin monomer and possible complex formation between surface-bound fibrin m
onomer and fibrinogen in solution using a surface plasmon resonance (SPR) s
ensor. For the investigations of optical properties of immobilised molecula
r layers, the Kretschmann geometry of the attenuated total reflection (ATR)
method was utilised. Density of fibrinogen bound to the surface depended o
n the concentration of fibrinogen in solution during the adsorption process
. A fibrinogen monolayer was always formed. Fibrinogen in solution did not
bind to surface-bound fibrinogen. Bound fibrinogen converted by thrombin to
fibrin monomer interacted (rather slowly) with fibrinogen in solution. The
rate of adsorption depended upon immobilised fibrin monomer density, fibri
nogen concentration in solution, and on the presence of calcium ions. At lo
w fibrin monomer density, the second layer was formed that contained about
the same amount of protein as the first layer, at higher fibrin monomer con
centration less than one molecule of fibrinogen per molecule of fibrin mono
mer was captured. (C) 2001 Elsevier Science B.V. All rights reserved.