TY - JOUR
T1 - Contact Activation Prolongs Clot Lysis Time in Human Plasma
T2 - Role of Thrombin-activatable Fibrinolysis Inhibitor and Factor XIII
AU - Nielsen, Vance G.
AU - Steenwyk, Brad L.
AU - Gurley, William Q.
PY - 2006/10
Y1 - 2006/10
N2 - Background: Contact activation system proteins (e.g., Factor XII, kallikrein) have been implicated as direct or indirect activators of plasminogen. However, contact activation and Factor XI have enhanced thrombin-activatable fibrinolysis inhibitor (TAFI) activation and decreased fibrinolysis, and Factor XIII (FXIII) also delays fibrinolysis via α2-anti-plasmin deposition on fibrin polymers. Thus, the goals of this study were to define how fibrinolysis is modulated in human plasma by contact or tissue factor (TF) activation, and what role TAFI and FXIII plays in this system. Methods: Normal, TAFI-deficient and TAFI-deficient/FXIII-supplemented plasma was exposed to tissue-type plasminogen activator and activated with either celite or TF. Clot growth/disintegration kinetics were documented with thrombelastography. Results: Normal plasma activated with celite had significantly prolonged onset and duration of clot lysis compared with samples activated with TF. TAFI-deficient plasma activated with celite was noted to have a duration of clot lysis not different from samples activated with TF, but a significant difference in time to onset of lysis persisted. Celite activation of TAFI-deficient/FXIII-supplemented plasma showed significantly prolonged onset and duration of clot lysis compared with samples activated with TF. Conclusions: Primarily TAFI, and to a lesser extent FXIII, contributed to contact system protein-mediated attenuation of fibrinolysis. Clinical investigation of these phenomena is warranted in clinical settings involving contact activation (e.g., intra-aortic balloon pumps and ventricular assist devices) to determine whether these devices modulate fibrinolysis and perhaps contribute to thromboembolic morbidity.
AB - Background: Contact activation system proteins (e.g., Factor XII, kallikrein) have been implicated as direct or indirect activators of plasminogen. However, contact activation and Factor XI have enhanced thrombin-activatable fibrinolysis inhibitor (TAFI) activation and decreased fibrinolysis, and Factor XIII (FXIII) also delays fibrinolysis via α2-anti-plasmin deposition on fibrin polymers. Thus, the goals of this study were to define how fibrinolysis is modulated in human plasma by contact or tissue factor (TF) activation, and what role TAFI and FXIII plays in this system. Methods: Normal, TAFI-deficient and TAFI-deficient/FXIII-supplemented plasma was exposed to tissue-type plasminogen activator and activated with either celite or TF. Clot growth/disintegration kinetics were documented with thrombelastography. Results: Normal plasma activated with celite had significantly prolonged onset and duration of clot lysis compared with samples activated with TF. TAFI-deficient plasma activated with celite was noted to have a duration of clot lysis not different from samples activated with TF, but a significant difference in time to onset of lysis persisted. Celite activation of TAFI-deficient/FXIII-supplemented plasma showed significantly prolonged onset and duration of clot lysis compared with samples activated with TF. Conclusions: Primarily TAFI, and to a lesser extent FXIII, contributed to contact system protein-mediated attenuation of fibrinolysis. Clinical investigation of these phenomena is warranted in clinical settings involving contact activation (e.g., intra-aortic balloon pumps and ventricular assist devices) to determine whether these devices modulate fibrinolysis and perhaps contribute to thromboembolic morbidity.
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U2 - 10.1016/j.healun.2006.06.009
DO - 10.1016/j.healun.2006.06.009
M3 - Article
C2 - 17045938
SN - 1053-2498
VL - 25
SP - 1247
EP - 1252
JO - Journal of Heart and Lung Transplantation
JF - Journal of Heart and Lung Transplantation
IS - 10
ER -