Sildenafil To Prevent Clot (SToPClot)

Despite the remarkable improvements in survival with durable continuous flow (CF) pumps and the clear lifesaving effects of Impella and veno-arterial extracorporeal membrane oxygenation (VA ECMO), serious adverse hematological events such as bleeding and thrombosis create substantial morbidity and mortality and remain major barriers for further expansion of this technology. In particular, thrombosis is a devastating adverse event during CF pump support as it can lead to stroke, device stoppage, and hemodynamic collapse. Although the annual incidence of pump thrombosis has been reported to range from 8 to nearly 30%, the pathobiological mechanisms of thrombus formation during CF pump support with ongoing anticoagulation remain elusive. Our preliminary data associates hemolysis, which is inherent to such devices due to high shear stress, with subsequent formation of thrombosis and stroke, possibly through increasing platelet activation and aggregation. Our prelim data and drawing from a body of literature from diseases of intravascular hemolysis such as sickle cell anemia suggest that free hemoglobin released during hemolysis, which reduces NO levels, may be activating platelets. In retrospective analysis, we have noted a significant reduction in mean platelet volume (potential in-vivo marker of platelet activation), thrombosis and stroke with concurrent sildenafil administration. However, this mechanism and efficacy of NO signaling enhancers such as sildenafil remains to be proven during CF pump support.

Aim: To conduct a randomized placebo controlled study to test the hypothesis that platelet activation and aggregation, endothelial dysfunction and pro-thrombotic inflammation in outpatients on chronic CF pump support can be reduced by sildenafil.