View clinical trials related to Acute Coronary Syndrome.
Filter by:A Single-center prospective pilot study enrolling chest pain patients. CD 26 measurement will be performed and compared to troponin µs for early triage of these patients. This novel biomarker of myocardial ischemia (CD26) will be measured at the time of first medical contact (T0) and after 30 min simultaneously o troponin Ic. All patients aged over 18 years with chest pain which may be related to acute coronary syndrome requiring pre hospital medical contact through the Emergency Medical Service.
Inflammation in the arteries of the heart may increase the risk of cardiac death. The proposed research seeks to identify the potential beneficial role of a safe anti-inflammatory medication, colchicine, on reducing damage caused by opening up a blockage in the arteries of the heart. With its quick onset of action and excellent safety profile, colchicine may have the potential to reduce risk of major adverse events related to the heart. This research also seeks to better understand the role of neutrophils, the most common type of inflammatory white blood cell in the body, when there is damage to the heart.
The aim of this observational study is twofold. The primary hypothesis being tested is that initial(first) high sensitivity Tn <5ng/l (limit of detection) combined with an ECG with no ischaemic changes is superior as an accelerated diagnostic tool/strategy compared to TIMI score (<2), GRACE <75 and HEART score ≤ 3. (Hs tn T- Roche elecsys HS tn T) and also against HS troponin at the 99th percentile (<15ng/l with nonischaemic changes)- again all scored with initial (first tn ) only. The second aim is to directly compare the three established methods of risk stratifying patients (predicting risk in suspected heart attacks) namely, the Global Registry of Acute Coronary Events (GRACE), Thrombolysis in Myocardial Infarction (TIMI) and HEART score in the era of high sensitivity troponins performs best.
PCI is considered as the reperfusion strategy of choice for patients with acute STEMI. Data from RCTs and meta-analyses demonstrate a consistent and strong signal towards a significant reduction in MACE among patients with STEMI undergoing primary PCI with newer generation stents with enhanced biocompatibility. The present trial aims at filling the current gap of evidence by providing randomized data to establish the superior clinical outcome with an ultrathin strut third-generation DES with biodegradable polymer designed to improve vascular healing in patients with STEMI undergoing primary PCI, compared to the current state-of-the art second-generation DES with permanent polymer.
The object of the study is to determine whether different doses of PZ-128, when added to standard medical care in persons undergoing cardiac catheterization/percutaneous coronary intervention, will increase the risk of bleeding. A secondary objective is to determine whether patients treated with PZ-128 have fewer cardiac events such as heart attack, bypass surgery or stroke compared with those persons treated with the standard of care.
During primary percutaneous coronary intervention, distal embolization of thrombus and impaired microvascular perfusion has been associated with an increased mortality. Thrombectomy devices during primary percutaneous coronary intervention may prevent distal embolization by reducing thrombus burden and thus improve microvascular perfusion and reduce mortality.
EMPACT is the first attempt to comprehensively evaluate the current emergency care of acute chest pain from a regional representative sample in China.Findings will allow new opportunities to facilitate the clinical quality improvements and ultimately reduce the mortality and health care burden in patients with acute chest pain. It also will help to establish a regional network and database for further research and performance improvement.
Major adverse cardiovascular events (MACE) are a leading cause of serious complications and death following major noncardiac surgery. The heart biomarkers brain-type natriuretic peptide (BNP) and high-sensitivity troponin I/T (hs-TnI/T), may aid in estimating the risk of surgery - low values may permit identifying patients at a very low risk of postoperative complications, potentially helping to avoid unnecessary tests and delays prior to surgery. Recent studies suggest that the manner in which an anesthetic is conducted may have an important impact on postoperative outcomes. The combination of low blood pressure (BP) and a deep level of anesthesia despite a low dose of anesthetic - also known as a "triple low" - has been linked to increased complications and death following surgery. However, it is unclear whether triple lows actually cause postoperative complications or whether they are merely an indicator of a sick patient, who is in general more likely to suffer from cardiovascular events in the near future. To answer this question, in this study patients will be randomly assigned to groups with lower and higher blood pressures, and the postoperative rates of major adverse cardiovascular events and of relevant increases in hs-TnI (a marker of cardiac injury) compared. Another important question is that of the optimal blood pressure target during surgery. Currently there are no established methods of tailoring blood pressure management to the individual patient. In the study the investigators will perform ambulatory 24h BP measurements prior to surgery to measure the patients' average BP during sleep. In the analysis of the study data, the investigators will try to determine the relationship of preoperative biomarker levels, intraoperative BP (both in relation to fixed targets and to the patient's own night-time BP) and of anesthetic depth with the occurrence of major adverse cardiovascular events after surgery.
This study will use a randomized, controlled trial to test the effectiveness of a home-based physical activity program using wearable devices and financial incentives. All participants in will establish a baseline step count during the first two weeks and then proceed to a 16-week intervention period and 8-week follow-up period.
A placebo-controlled, randomized, double-blind, parallel group, phase III multicenter study in subjects recently hospitalized for ACS and with the appropriate genetic profile. Subjects will provide informed consent before any study-specific procedures are performed. Subject enrollment may begin in the hospital and will continue following release from the hospital. Screening procedures may be performed at the time of the index ACS event or anytime thereafter, with the condition that randomization must occur within the mandated window (4-12 weeks after the index event). Subjects will be assessed based on their medical history. Those who are likely to qualify will undergo Genotype Assay testing to evaluate genetic determination for the presence of AA genotype.