View clinical trials related to Platelet Thrombus.
Filter by:Inflammation is a normal immune response to tissue healing. However, uncontrolled and unresolved inflammation can initiate and further induce several chronic manifestations that contribute to chronic disorders such as atherosclerosis and cardiovascular disease (CVD). A 'cross-talk' between platelets, endothelial cells and leukocytes, accompanied by activation and aggregation of platelets, contribute to inflammation-related atherogenic, atherosclerotic and athero-thrombotic events. Platelet Activating Factor (PAF) and Thrombin are the most potent platelet agonists inducing platelet activation and aggregation that are also implicated in the patho-physiology of platelets and endothelium and thus in inflammation-related chronic disorders. Therefore, the inhibition of PAF and Thrombin related pathways of platelet aggregation, coagulation and inflammation provide a potential therapeutic strategy for anti-platelet, anti-coagulation and suppression of inflammatory responses in CVDs and other chronic disorders. The investigators have previously reported bio-active lipid molecules with strong anti-PAF and anti-Thrombin effects to be present in natural, non-toxic food, microorganisms, plants and especially in several marine sources. The plethora of in vitro beneficial bio-activities of marine polar lipids (PLs) against atherosclerosis and CVDs indicate therapeutic potential. Recently, the investigators have also demonstrated that PLs extracted from Irish, organic farmed salmon (Salmo salar) display strong in vitro anti-thrombotic effects against platelet aggregation, bio-activities that were related to inhibitory effect against PAF and Thrombin pathways. The present study investigates the putative anti-platelet effects in healthy human subjects following ingestion of a novel supplement containing food-grade extracts of bio-active salmon polar lipids (FGE-Salmon-PLs). The study has a double blind randomized cross-over placebo-controlled design in healthy subjects. Each Subject will be administrated the FGE-Salmon-PLs Food Supplement capsules for 28 days (a capsule containing 0.125 g of FGE-Salmon-PLs per day) and platelet sensitivity against both PAF and Thrombin will be tested in blood samples of each subject just before and after the supplement administration. The same tests will be conducted in blood samples of each participant in a crossover design before and after 28 days of placebo capsules administration (a capsule containing 0.125 g of glycerin per day).
This study builds, in part, upon preliminary results generated as part of the Pharmacogenomics Anti-Platelet Intervention (PAPI) Study (NCT00799396). The purpose of this investigation is to assess the impact of genetic variation in the carboxylesterase 1 (CES1) on response to clopidogrel as well as dual antiplatelet therapy (i.e. clopidogrel and aspirin), as assessed by ex vivo platelet aggregometry, in healthy Amish individuals. The investigators hypothesize that participants who carry alleles that modify the activity or expression of CES1 will have altered response to clopidogrel as well as dual antiplatelet therapy.
The purpose of this study is to determine whether the fixed-dose (prasugrel 10 mg/d vs. 5 mg/d) vs. phenotype (platlet function test by VerifyNow P2Y12 assay)-based prasugrel dose adjustment can match therapeutic zone of platelet reactivity in PCI-treated Asians with acute coronary syndrome