View clinical trials related to Acute Coronary Syndrome.
Filter by:Background: The acute coronary syndrome (ACS) is a complication of coronary artery disease (CAD) and associated with increased mortality. Dual antiplatelet therapy of acetylsalicylic acid (ASA) with P2Y12 receptor antagonists such as clopidogrel is a cornerstone in the treatment of patients with advanced CAD. Due to delayed onset of action, intersubject variability or resistance to clopidogrel, different platelet aggregation inhibitors have been developed. Ticagrelor is a reversible P2Y12 receptor antagonist with superior efficacy compared to clopidogrel in the prevention of cardiovascular death in these patients. Atrial fibrillation (AF) is also associated with thromboembolic events and substantial mortality. Beside vitamin K antagonists (VKA, phenprocoumon) for stroke prevention in patients with AF, the direct factor Xa inhibitor apixaban has recently received approval for prophylactic treatment of patients with non-valvular AF. However, there is a lack of efficacy or safety data for the combined impact of antithrombotic drugs in patients requiring arterial and venous thromboembolic prophylaxis due to their underlying co-morbidities. One trial suggests treatment with VKA + clopidogrel without ASA as equal effective as antithrombotic triple therapy (with ASA) in this population. However, the effect in combination with novel oral anticoagulants has not been investigated so far. Study objectives: To evaluate the effect of ticagrelor + apixaban in combination with or without ASA at steady state on markers of coagulation activation and on thrombus size in an ex vivo perfusion chamber experiment. Additionally, plasma samples will be analysed for PK-data (ticagrelor & apixaban concentrations) Study design: A single-centre, prospective, sequential, controlled, analyst-blinded study in two groups. Subjects will receive ticagrelor + apixaban in combination with (study A) or without (study B) ASA. All IMPs will be administered at doses indicated for stroke prevention in AF (lower dose: 2.5mg due to ethical concerns) or ACS. Markers on thrombin generation and platelet activation will be studied in venous blood where coagulation is in resting state and in shed blood where the clotting system is activated in the microvasculature in vivo: prothrombin fragment 1+2 (F1+2), thrombin-anti-thrombin (TAT), β-thromboglobulin (β-TG). Additionally, inhibition of factor Xa activity and concentrations of ticagrelor and apixaban will be assessed in venous blood. Further, thrombus size of clots formed in an ex vivo perfusion chamber will be determined by measurement of D-Dimer and p-Selectin levels. Study population A total of 40 healthy, non-smoking and drug-free male volunteers will be enrolled (study A and B; n = 20 per group). Main outcome variables: - β-TG in shed blood Additional outcome variables: - F1+2 and TAT in shed blood - fibrin formation (D-Dimer) and platelet deposition (p-Selectin) in an ex vivo perfusion chamber model of thrombosis - β-TG, F1+2, TAT & inhibition of factor Xa in venous blood - PT, aPTT and ACT in venous blood - ticagrelor & apixaban plasma concentrations - shed blood volume
This is a multi-center, single-blind, randomized, active-controlled, clinical trial in Percutaneous Coronary Intervention (PCI) subjects. Subjects will be randomized to receive the Combo stent as the investigational treatment arm or an Everolimus Eluting Stent (EES) as the active-control arm.
This study demonstrates the effect of generic clopidogrel bisulfate (Plavitor®) in comparison with the original clopidogrel bisulfate (Plavix®) in patients with acute coronary syndrome.
Hypothesis: High sensitivity cTnI assays will have improved diagnostic accuracy for type 1 MI compared to contemporary cTnI assays. The primary objective of the study is to determine the performance of a high sensitivity cardiac troponin I (hs-cTnI) assay compared to a contemporary cTnI assay for the diagnostic accuracy of type 1 acute myocardial infarction (AMI). The diagnostic performance of Abbott's hs-cTnI assay will be evaluated. Investigators will assess the assay's ability to diagnose AMI earlier and to rule out AMI earlier. The sensitivity, specificity, positive predictive value and negative predictive value of the hs-cTnI assay will be evaluated with both a universal cut off as well as with gender and potentially age derived 99th percentile upper reference limits (URL). Investigators will evaluate delta hs-cTnI values (pre-specified absolute concentration and percent changes over time) for their ability to contribute to the negative predictive value and hence potentially lead to an earlier rule out of AMI (improved specificity). Additionally, investigators will assess delta changes of the hs-cTnI assay for their potential contribution to the clinical differentiation of type 1 and type 2 (supply demand mismatch) MIs. Lastly, investigators will compare the diagnosis of AMI based on the currently used contemporary assay to the hs-assay, to assess both the incidence of AMI as well as for the time to diagnosis.
The purpose of this study is to determine the effectiveness of the HEART Pathway, a clinical decision aid for the care of patients with chest pain, in a "real-world" clinical setting. This will be accomplished through the building of a transformative collaboration between research, education, and health systems operations to more effectively and efficiently provide patient care.
After a heart attack patients are routinely started on drugs to inhibit platelets. Ticagrelor is a powerful anti-platelet drug with clinical benefits. However it must be discontinued in some, because of increased risk of bleeding or intolerance. These patients need to be transitioned to another agent, such as Clopidogrel. At present, there is no clinical consensus on the optimal strategy for this switch. Some clinicians elect to give a bolus dose of clopidogrel with 600mg, while others start directly with a 75mg daily dose, with no evidence regarding the benefits or potential complications associated with each strategy. The present proposal will evaluate the pharmacodynamics of 2 strategies with specialized platelet function testing. We hypothesize that a bolus dose of clopidogrel during the switch will confer better ischemic protection without increasing bleeding risk for patients undergoing a switch in therapy.
Thus far, no study has evaluated the impact on aspirin in addition to the newer and more potent P2Y12 inhibitors, among ACS patients and current guidelines recommend dual anti-platelet therapy consisting of aspirin and a novel P2Y12 inhibitor in this population. Objective The investigators goal is to examine the effect of aspirin in addition to new anti-platelet agent (ticagrelor\prasugrel) on platelet reactivity in comparison with placebo, among ACS patients treated percutaneously. Design The proposed study is a randomized-controlled, double blind trial, conducted among ACS patients treated percutaneously. Eligible patients will recruited during hospitalization due to ACS after percutaneous coronary intervention (PCI), and randomization by envelopes on 1:1 basis will take place a month after the index event, at a follow-up visit at the cardiac clinic. Platelet function and Endothelial function tests will be taken a month after the index event, and at a 2 weeks periods following aspirin/placebo therapy, cross-over and return to open-label aspirin. End-points platelet function tests will be compared between aspirin and placebo therapy and before and after the cross-over.
In patients with heart attacks, the treatment of choice is to restore blood flow with percutaneous coronary intervention (PCI) (use of stents (metal meshes) to open blockages). After PCI, the standard drug treatment includes aspirin and clopidogrel. These medications block full function of the platelet cells, which are responsible for clotting. Despite their use, patients after PCI are at risk for heart attacks, sudden clotting of stents or death. A major contributor may be resistance to clopidogrel. New more potent drugs, which can overcome the resistance, are now available; however, they come with an increase chance of severe bleeding and costs. An ideal solution would be to identify at-risk patients and selectively treat them with more potent drugs, while lower-risk patients continue with clopidogrel. This type of strategy (personalized strategy) would decrease heart attacks and death (compared to clopidogrel), while also preventing bleeding complications (compared to treating all patients with the new drugs). Of resistant patients, many carry genes (inherited units) that prevent proper absorption of clopidogrel. Our group has developed and tested a new bedside genetic test, which identifies carriers of at-risk genes. However, this technique alone does not identify all at-risk patients. Consequently, we have now devised a novel tool, which combines genetics with patient characteristics to identify high-risk patients. The present study combines this new tool into a strategy for personalized treatment. Patients with heart attacks who undergo PCI will be randomly assigned to 1 of 3 strategies: a) new personalized strategy, b) clopidogrel strategy (previous standard drug) or c) ticagrelor strategy (stronger approved drug). The function of the platelet cells will be measured at 1 month to determine potential benefits. Evaluation of this new personalized strategy is important for improving patient outcomes after PCI. The hypothesis is that patients receiving a personalized strategy will have decrease risk for future heart attacks and bleeding.
Thoracic pain is the main symptom of acute coronary syndrome (ACS), urgent and serious illness. Whereas hospital mortality decreased until reaching 10%, out-of-hospital mortality remains high: half of the deaths occur during the first two hours. The benefit of an early diagnosis of ACS in term of morbidity and mortality is well established. Identification of the coronary origin of a thoracic pain by the telephone triage physician of the pre-hospital emergency service (SAMU) leads to the sending of a physician staffed ambulance (UMH) and is thus a key element of the prognosis. The aim of the study is to build a telephone predictive score of ACS at the triage of calls for non traumatic thoracic pain. The separate analysis of the questionnaires by sex will authorize the validation of a unique score or two distinct scores for men and women.
This protocol describes a pilot study intended to test the hypothesis that patients with acute coronary syndrome (ACS) caused by plaque erosion can be stabilized by effective antithrombotic treatment without stent implantation, thereby avoiding both early and late complications related to percutaneous coronary intervention (PCI).