Relative contributions of collagen and tissue factor to thrombus formation on damaged vascular vessels: in-vitro studies with circulating blood

Thrombogenicity of ruptured atherosclerotic plaques is mainly attributed to the exposure of collagen (Col) and tissue factor (TF). Using in-vitro approaches, we explored the relative contribution of Col and TF to local thrombogenesis. Surfaces coated with Col and human TF, alone or in combinations (...

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Published inCoronary artery disease Vol. 20; no. 6; p. 392
Main Authors Lopez-Vilchez, Irene, Tonda, Raul, Hernandez, Rosa M, Navalon, Fulgencio, Diaz-Ricart, Maribel, Galan, Ana M, Escolar, Gines
Format Journal Article
LanguageEnglish
Published England 01.09.2009
Subjects
Blood Coagulation
Blood Platelets - metabolism
Blood Platelets - ultrastructure
Blood Vessels - metabolism
Blood Vessels - physiopathology
Fibrillar Collagens - metabolism
Fibrillar Collagens - ultrastructure
Fibrin - metabolism
Humans
Peptide Fragments - blood
Perfusion
Platelet Adhesiveness
Platelet Aggregation
Prothrombin
Pulsatile Flow
Rupture
Stress, Mechanical
Thromboplastin - metabolism
Thrombosis - blood
Thrombosis - pathology
Thrombosis - physiopathology
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Summary:Thrombogenicity of ruptured atherosclerotic plaques is mainly attributed to the exposure of collagen (Col) and tissue factor (TF). Using in-vitro approaches, we explored the relative contribution of Col and TF to local thrombogenesis. Surfaces coated with Col and human TF, alone or in combinations (diluted Col on TF, and diluted TF on Col), were exposed to flowing blood at a shear rate of 600/s. Platelet and fibrin deposition were analyzed morphometrically. Generation of prothrombin fragments (F1+2) was determined as a measure of global activation of coagulation. Col and TF alone behaved as adhesive substrata to platelets supporting similar platelet coverage around 22%. Col induced tight aggregates, whereas TF promoted adhesive events. In studies with combinations of Col and TF, platelet aggregation was always enhanced with statistical elevations of the thrombus area (P<0.05). Generation of F1+2 was surface-dependent and was at its highest levels when both proteins were combined (P<0.05). However, local fibrin formation was statistically increased in surfaces containing lower concentrations of TF on Col (P<0.01 vs. overall surfaces assessed). Our studies show that combinations of Col and TF always enhance thrombogenesis, but small amounts of TF on Col surfaces resulted in the most procoagulant combination. The present results suggest that plaques exposing high contents of Col, with small amounts of TF, would provide the most occlusive combination.
ISSN:1473-5830
DOI:10.1097/MCA.0b013e32832cff1f