View clinical trials related to Acute Coronary Syndrome.
Filter by:This study aims to investigate the effect of pentoxifylline administration on the status of endothelial function and oxidative stress biomarkers in patients with Acute Coronary Syndrome (ACS).
Phase-3, randomized, multicenter, parallel-group study with blind evaluation of endpoints and intention-to-treat analysis. The general purpose of the study is evaluate the non-inferiority hypothesis for ischemic events and the superiority hypothesis for bleeding events resulting from platelet P2Y12 receptor inhibitors given as monotherapy in comparison with conventional dual antiplatelet therapy in acute coronary syndrome patients treated with percutaneous coronary intervention in the context of the Unified Health System in Brazil.
- To explore the metabolic outcomes of PCI versus CABG in diabetic patients presented by ACS. - To verify the diagnostic and prognostic value of speckle tracking echocardiography in early detection of MACE after ACS in diabetic patients treated by 2 modalities.
This registry will evaluate the impact of the COVID19 outbreak on Cardiac patients admitted in the Intensive Care Unit of the Pitie-Salpetriere Hospital in Paris, France
The study is to evaluate the effect of optimized 12-month step-down antiplatelet therapy (APT) compared with standard 12-month dual antiplatelet therapy in clinical net adverse events, cardiovascular and cerebrovascular adverse events and reducing clinical related bleeding events in the patients with acute coronary syndrome (ACS) who are not the predominant coronary artery disease after percutaneous coronary intervention (PCI).
Patients with COVID-19 in the Intensive Care Unit (ICU) or hospitalized with severe form have a poor prognosis (almost 30% rate of death). They present often a high cardiovascular risk profile (almost 30% of hypertension and 19% of diabetes). Troponin has been described to be elevated in a high proportion of patients (one fifth of all patients and 50% of non-survivors) suggesting the possibility of cardiomyopathies. High levels of DDimers (81% of non survivors) and fibrin degradation products are also associated with increased risk of mortality suggesting also the possibility of venous thromboembolism. Therefore, screening for cardiomyopathies and venous thromboembolism could represent an important challenge for patients with COVID-19 management.
The outbreak of a novel coronavirus (SARS-CoV-2) and associated COVID-19 disease in late December 2019 has led to a global pandemic. At the time of writing, there have been 150 000 confirmed cases and 3500 deaths. Apart from the morbidity and mortality directly related to COVID-19 cases, society has had to also cope with complex political and economic repercussions of this disease. At present, and despite pressing need for therapeutic intervention, management of patients with COVID-19 is entirely supportive. Despite the majority of patients experiencing a mild respiratory illness a subgroup, and in particular those with pre-existing cardiovascular disease, will experience severe illness that requires invasive cardiorespiratory support in the intensive care unit. Furthermore, the severity of COVID-19 disease (as well as the likelihood of progressing to severe disease) appears to be in part driven by direct injury to the cardiovascular system. Analysis of data from two recent studies confirms a significantly higher likelihood of acute cardiac injury in patients who have to be admitted to intensive care for the management of COVID-19 disease. The exact type of acute of cardiac injury that COVID-19 patients suffer remains unclear. There is however mounting evidence that heart attack like events are responsible. Tests ordinarily performed to definitely assess for heart attacks will not be possible in very sick COVID-19 patients. Randomising patients to cardioprotective medicines will help us understand the role of the cardiovascular system in COVID-19 disease. It will also help us determine if there is more we can do to treat these patients.
Management of known patients with cardiovascular disease (in particular the whole spectrum of atherosclerotic ischaemic coronary artery disease, essential hypertension under treatment, and also patients with chronic heart failure under medication) and with other associated chronic pathologies, with obvious effects on the management of the pandemic with modern / distance means (e-Health) of patients at high risk of mortality in contact with coronavirus. Given the Covid-19 Pandemic, all the above complex cardiovascular patients are under the obligation to stay in the house isolated and can no longer come to standard clinical and paraclinical monitoring and control visits. Therefore, a remote management solution (tele-medicine) of these patients must be found. The Investigators endeavour is to create an electronic platform to communicate with these patients and offer solutions for their cardiovascular health issues (including psychological and religious problems due to isolation). The Investigators intend to create this platform for communicating with a patient and stratify their complaints in risk levels. A given specialist will sort and classify their needs on a scale, based on specific algorithms (derived from the clinical European Cardiovascular Guidelines), and generate specific protocols varying from 911 like emergencies to cardiological advices or psychological sessions. These could include medication changing of doses, dietary advices or exercise restrictions. Moreover, in those patients suspected of COVID infection, special assistance should be provided per protocol.
This Continued Access IDE Study includes a subset of former ALERTS trial (NCT00781118) patients and provides performance data for a refined Guardian implantable medical device (AMSG3-E) with a new battery designed to extend device longevity.
The aim of the study is to establish whether the safety of the T-MACS decision aid to immediately 'rule out' acute coronary syndromes with one blood sample for the cardiac damage marker troponin, is non-inferior to an approach requiring serial troponin sampling over three hours.