Surface plasmon resonance and free oscillation rheometry in combination : A new approach forstudies on haemostasis and biomaterials

• In haemostasis and biomaterial research it is important to be able to study biological processes at surfaces and in the bulk. Surface plasmon resonance (SPR) is sensitive to changes at surface and free oscillation rheometry (FOR) probes the bulk. The present work demonstrates the usefulness of the combination of the techniques for simultaneous real-time measurements on coagulation and fibrinolysis of blood plasma, as well as coagulation of whole blood. SFLLRN stimulated coagulation of native whole blood presented a higher SPR signal with a different appearance than for plasma coagulation, while the FOR signals corresponding to plasma and whole blood coagulation were similar. This result indicated that the SPR technique was more sensitive to cell-surface interactions than to fibrin formation in whole blood, while the FOR technique were equally sensitive to coagulation in whole blood and plasma. Spontaneous coagulation of native whole blood in contact with methyland hydroxyl-terminated self-assembled monolayers on gold and gold surfaces regenerated after coagulation by degradation of adsorbed proteins with trypsin and SOS were also studied. The regenerated gold surfaces displayed the shortest coagulation times, although the contact-activation of blood coagulation was found to be low. The methylated and hydroxylated surfaces were comparable in terms of coagulation activation, while the hydroxylated surfaces presented FOR signals that indicated difficulties for the coagulum to attach to the surface. The combination of SPR and FOR may be suited for studies of cell-surface interactions, and may find applications in studies of blood cell defects in patients and testing of medical substances.

Nyckelord

Surface plasmon resonance

free oscillation rheometry

whole blood coagulation

fibrinolysis

Other mathematics

Övrig matematik

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