View clinical trials related to Prosthetic Valve Thrombosis.
Filter by:To date, the investigators have successfully employed a radiotracer (18F-sodium fluoride) as a marker of necrotic inflammation in human atherosclerosis. The investigators aim to further the mechanistic understanding of atherothrombosis by studying the activation of glycoprotein IIb/IIIa receptors in cardiovascular thrombus using the novel platelet radiotracer (18F-GP1). Binding of 18F-GP1 to activated platelets in venous and arterial thrombi has already been demonstrated in pre-clinical studies and a phase 1 trial in man. If successful, this study would define the role of the glycoprotein IIb/IIIa receptor within in vivo thrombosis across a range of cardiovascular diseases.
This is a prospective study designed to evaluate the structural and functional integrity of transcatheter or surgical bioprosthetic valves with multimodality imaging. The study further aims to confirm resolution of the early bioprosthetic valve thrombotic changes with anticoagulation.
Despite high mortality and morbidity, the best treatment strategies for prosthetic valve thrombosis (PVT) have been controversial. In this study the investigators wanted to identify the most effective and safe regimen among different thrombolytic strategies.Transesophageal echocardiography (TEE) guided thrombolytic treatment was administered to 182 consecutive patients with PVT in 220 different episodes (156 women, mean age 43.2±13.06 years) between 1993 and 2009. These regimens included rapid streptokinase (Group I, 16 episodes), slow streptokinase (Group II, 41 episodes), high dose (100 mg) tissue plasminogen activator (t-PA) (Group III, 12 episodes), half-dose (50 mg) slow infusion (6-hours) of t-PA without bolus (Group IV, 27 episodes), and low dose (25 mg) and slow infusion (6-hours) of t-PA without bolus (Group V, 124 episodes). The study endpoints were thrombolytic success and in-hospital mortality and non-fatal complication rates.
The optimal dosage and duration of administration of clot-dissolving medications for the treatment of patients with mechanical heart valves with clots is not known. We hypothesized that a large dose of the clot-dissolving medicine given initially (akin to the dose given in the treatment of heart attacks), might speed up the dissolution of the clot and rapidly restore the functioning of the mechanical heart valve.