View clinical trials related to Acute Coronary Syndrome.
Filter by:This observational study will based on the Register of Information and Knowledge About Swedish Heart Intensive Care Admissions (RIKS-HIA) and the Swedish Coronary Angiography and Angioplasty Registry (SCAAR) which since 2009 are merged into The Swedish Web-system for Enhancement and Development of Evidence-based care in Heart disease Evaluated According to Recommended Therapies (SWEDEHEART). The aim of this study is to investigate the impact of different antithrombotic treatment options (treatment duration, type of treatment and combination of treatments) in Acute Coronary Syndrome (ACS) patients on outcomes such as recurrent ischemic events and mortality.
This protocol describes a study to compare intended trans-radial versus trans-femoral intervention and bivalirudin monotherapy versus current European standard of care consisting of unfractionated heparin (UFH) plus provisional use of glycoprotein IIb/IIIa inhibition via the use of one of the three available agents on the market (e.g. abciximab, tirofiban or eptifibatide) in patients (≥18 years) with ACS, that are intended for an invasive management strategy. This study will be conducted in compliance with Good Clinical Practices (GCP) including the Declaration of Helsinki and all applicable regulatory requirements.
This is a genetic and platelet reactivity study of African-American versus Caucasian patients undergoing percutaneous coronary intervention and receiving clopidogrel or prasugrel. The investigators aim is twofold: to describe differences in allele frequencies between African-Americans and Caucasians, and to explore associations of platelet reactivity and genetic polymorphisms in these two groups.
Although atherosclerosis is a systemic disease, its manifestations are focal and eccentric, and each coronary obstruction progresses, regresses, or remains quiescent in an independent manner. The focal and independent nature of atherosclerosis cannot be due solely to the presence of systemic risk factors such as hyperlipidemia, diabetes mellitus, cigarette smoking, and hypertension. Local factors that create a unique local environment are a major determinant of the behavior of atherosclerosis in a susceptible individual. The vascular endothelium is in a unique and pivotal position to respond to the extremely dynamic forces acting on the vessel wall due to the complex 3-D geometry of the artery. Mechanical forces in general, and fluid shear stress (endothelial shear stress [ESS]) in particular, elicit a large number of humoral, metabolic and structural responses in endothelial cells. Regions of disturbed flow, with low and oscillatory ESS (< 1.0 Pa), are intensely pro-atherogenic, pro-inflammatory, and pro-thrombotic, and correlate well with the localization of atherosclerotic lesions. These sites demonstrate intense accumulation of lipids, inflammatory cells, and matrix degrading enzymes which promote the formation of high-risk thin-cap fibroatheroma. In contrast, physiologic laminar flow (1.0-2.5 Pa) is generally vasoprotective. However, as the obstruction progresses and further limits blood flow through a narrowed lumen, flow velocity and ESS may increase excessively (> 2.5 Pa) at the neck, and decrease abnormally at the outlet, increasing the likelihood of platelet activation and thrombus formation. Identification of an early atherosclerotic plaque likely to progress and acquire characteristics leading to likelihood of rupture and, consequently, to precipitate an acute coronary event or rapid luminal obstruction, would permit more definitive pharmacologic or perhaps mechanical intervention prior to the occurrence of a cardiac event. The potential clinical value of identifying and "eradicating" plaques destined to become vulnerable before they actually become vulnerable is enormous. The purpose of the PREDICTION Trial is to identify high-risk coronary lesions at an early time point in their evolution, to follow the natural history of these lesions over a 6-10 month period, and to confirm that these high-risk lesions are likely to rupture and cause an acute coronary syndrome (ACS) or develop rapid progression of a flow-limiting obstruction. The hypothesis is that local segments in the coronary arteries with low ESS and excessive expansive remodeling will be the sites where atherosclerotic plaque develops, progresses, and becomes high-risk, leading to a new cardiac event. This study is being conducted in Japan as patients are clinically evaluated with followup coronary angiography and IVUS in a routine manner at 6-10 months following their initial percutaneous coronary intervention (PCI) for an ACS. This is a natural history and a clinical outcomes study in patients who initially present with an ACS. The natural history portion of the study is designed to describe the temporal progression of atherosclerosis in segments of coronary arteries with low ESS and expansive remodeling using intracoronary vascular profiling techniques utilizing intravascular ultrasound (IVUS) and coronary angiography. The clinical outcomes portion of the study is designed to evaluate the efficacy of coronary vascular profiling to predict segments of coronary arteries that will become areas of rapid plaque growth or rupture leading to recurrent major clinical coronary events. Five hundred (500) patients with acute coronary syndrome undergoing PCI for a culprit lesion are to be enrolled in the study to undergo coronary vascular profiling at the time of the index catheterization procedure. Up to 374 consecutive patients with at least one low ESS subsegment are to have follow-up coronary angiography and IVUS at 6-10 months to allow for at least 300 patients with analyzable intracoronary vascular profiling data for assessment of lesion natural history. All patients are to have a one-year clinical follow-up to assess for new cardiac events, followed by two additional years of extended clinical followup.
High density lipoproteins (HDL) have many effects that protect against cardiovascular diseases. In an acute heart attack (acute coronary syndrome -ACS), HDL change in composition and structure, reflecting the inflammatory environment that accompanies an ACS. The investigators will examine the function of HDL during an ACS and again when the patient has recovered.
The observatory FAST MI 2010 proposes to establish a cohort of 3500 patients recruited prospectively over a period of 2 months. Patients will be followed up at 1 month and then followed annually for 10 years. Patients should have agreed to participate in the study, participation in the protocol, or refusal to participate will not affect the therapeutic approach of the physician. The study of genotypic or phenotypic characteristics will not change the therapeutic approach of health care teams.
The purpose of this study is to determine the extent to which South Asian ethnicity is both an etiologic and prognostic factor for coronary disease, and investigate factors influencing outcomes.
All contemporary guidelines for secondary prevention in acute coronary syndromes recommend a combination of aspirin, beta-blockers, ACE-inhibitors and statins. Yet underutilisation of these drugs is common. We do not know in detail what drives underutilisation, nor what its long term consequences are for survival after discharge from hospital. Also unknown is whether potential adverse effects of underutilisation are the same for individual secondary prevention drugs. This study will assess the impact of secondary prevention underutilisation on survival.
Study Objectives The following items will be prospectively assessed. Primary Endpoints 1. For patients presenting with clinical suspicion of Acute Coronary Syndromes (ACS), high sensitivity-cardiac Troponin I (hs-cTnI) provides improved diagnostic accuracy for ACS (including Acute Myocardial Infarction (AMI) and/or Unstable Angina (UA)) within the first two (2) hours after emergency department presentation when compared to currently available troponin assays. 2. For patients presenting with clinical suspicion of ACS, hs-cTnI provides improved prognostic information with regard to 180 day event rates of Major Adverse Cardiac Event outcomes, including cardiac deaths which are defined as all deaths except those that are clearly non-cardiac in nature (e.g. trauma), when compared to a currently available troponin assay. Secondary Endpoints 1. For patients presenting with clinical suspicion of ACS, using the rate of rise of hs-cTnI over time between presentation and 2 hours (delta hs-cTnI) allows for the differentiation between ACS and other disease states. 2. For patients presenting with clinical suspicion of ACS, hs-cTnI provides improved sensitivity for detecting AMI within the first two (2) hours after presentation when compared to a currently available troponin assay. 3. For patients presenting with clinical suspicion of ACS, hs-cTnI provides improved negative predictive value for ruling out ACS (AMI or UA) within the first 2 hours after presentation when compared to a currently available troponin assay. 4. For alternative endpoints of cardiac mortality, and for alternative censor time points of 30 days, 90 days, and 1 year, hs-cTnI provides improved prognostic information when compared to the currently available troponin assay. 5. In cases where the emergency physician has limited diagnostic confidence, hs-cTnI AMI diagnostic accuracy will be superior to local hospital standards for AMI determination. 6. In cases where the emergency physician has limited diagnostic confidence, the slope for the hs-cTnI between presentation and 2 hours will add diagnostic accuracy for ACS diagnosis over and above local hospital standards for ACS determination. 7. For patients presenting with clinical suspicion of ACS, the difference in diagnostic accuracy for ACS (including AMI and/or UA) using hs-cTnI measurement from time of onset of symptoms to emergency department presentation (e.g. 3 hours instead of 6 hours) will be evaluated to assess any variation.
Approximately 600,000 women are treated for acute coronary syndrome (ACS) annually in the US. ACS includes heart attack and a milder form called unstable angina. Many of these women have angiograms of which 14-39% show no "significant" coronary artery disease (CAD, cholesterol plaque accumulation in arteries of the heart). The remaining majority of women with ACS have cholesterol plaque buildup which appears severe enough on angiography to limit blood flow to the heart. It is difficult to advise women with heart attacks and no major heart artery blockages on what to do if chest pain happens again. Additional studies are needed to find out why this sort of heart attack happens and to help doctors understand how to treat patients who have this problem in the best possible way. Some women with heart attacks who have no major blockage in heart arteries have cholesterol plaque in the arteries of the heart cannot be seen on angiography but can be seen using a newer technique called intravascular ultrasound (IVUS). IVUS involves creating pictures of the artery walls using ultrasound (sound waves) from within the artery itself. In some women without major heart artery blockage, heart attack is caused by low blood flow due to disease of smaller blood vessels which cannot be seen on angiography or IVUS. This problem can be found using magnetic resonance imaging (MRI), which can show blood flow to the heart. MRI may also be used to show where the heart has been damaged. The pattern of damage could suggest that a heart attack in a woman, who has no badly blocked heart arteries, happened for one (or more) of these reasons or another reason. The Study of Women with ACS and Non-obstructive CAD (SWAN) will use IVUS and MRI to help determine the reasons for heart attacks in women with no major blockages in heart arteries.