View clinical trials related to Infarction.
Filter by:Implantable cardioverter-defibrillators (ICD) are currently recommended (ESC guidelines 2015) for the primary prevention of sudden cardiac death (SCD) in patients with a remote myocardial infarction (MI) and a low (≤35%) left ventricular ejection fraction (LVEF). Ventricular tachycardia (VT) and/or ventricular fibrillation (VF), which are responsible for most SCDs, result from the presence of surviving myocytes embedded within fibrotic MI-scar. The presence of these surviving myocytes, as well as their specific arrhythmic characteristics, is not captured by LVEF. Consequently, most patients with a prophylactic ICD do not present VT/VF requiring ICD therapy prior to their first-ICD battery depletion. Thus, many patients are exposed to ICD complications, such as inappropriate shocks, without deriving any health benefit. As a consequence, the current implantation strategy of prophylactic ICDs, based on LVEF, needs to be improved in post-MI patients. Stratification of the rhythmic risk after IDM is therefore still a major public health issue. Late gadolinium enhancement cardiac magnetic resonance (LGE-MRI) is a strong risk-stratifier of VT/VF risk in post- MI patients. In a recent multicenter retrospective study, the investigators showed that the presence of a critical surface of intramural scar (which is consequently neither epicardial nor endocardial) at the infarct border (measured by LGE-MRI) has a major association with the occurrence of VT/VF in post-MI patients with a LVEF≤35%. The aim of the TVScreen 2 study is therefore to validate the relevance of the MRI criterion in a new independent cohort of patients.
A patient, suffering from cortical blindness after a bi-occipital infarction 1 year earlier, regained near-normal vision in the right visual hemifield a few minutes after subcutaneous administration of mepivacaine. The effect was maintained for several days, and was repeated with each injection of mepivacaine. This clinical improvement is associated with functional changes in the peri-lesional areas on resting-state functional MRI. The investigator team hypothesizes that in some patients with chronic neurological symptoms of stroke, the investigator team will observe a favorable response to subcutaneous mepivacaine injection.
Background: Acute myocardial infarction (AMI) has remained a leading cause of mortality and disability worldwide. Although percutaneous coronary angioplasty (PCA) is the best treatment for these patients, paradoxically this procedure causes reperfusion injury. Considerable efforts aimed to reduce this damage have been made, but the results are disappointing and there is still no effective therapy for preventing the damage. Previously, the investigators have achieved a reduction of infarct size in an experimental model of an isolated rat heart, through a synergistic effect of three compounds in a "combined antioxidant therapy" (CAT). In this study, the investigators aim to describe the pharmacokinetics and safety of CAT intravenously administered to healthy subjects. This is the first step to a later clinical application of CAT in AMI patients. Methodology: The safety and pharmacokinetics of the CAT (deferoxamine, N-acetylcysteine, and ascorbate) will be assessed in healthy volunteers in a "phase I clinical trial". Two different formulations (mass of CAT components by bag) with different infusion rates each one will be tested (CAT1 and CAT2). Subjects (18-35 years old, n=18) will be randomized 1:2 to receive a placebo or CAT for 90 minutes. Blood concentrations of each CAT component will be measured in plasma at 0, 15, 30, 60, 90, 120, and 180 minutes after the infusion onset. Adverse events will be registered from the onset of infusion until day 30.
The main objective is to compare the effect of a single injection of two doses of rituximab versus placebo on 6 months left ventricular systolic function, using CMR, in patients who have had an acute anterior STEMI. The primary endpoint is the left ventricular ejection fraction (LVEF) by CMR at 6 months.
East Asian patients will be required optimal dose of newer P2Y12 inhibitor (ticagrelor) to determine the safer treatment and better outcome. Whether low dose of ticagrelorI is more adequate for clinical practice in Korea is unclear. Therefore, the investigators aim to evaluate efficacy and safety of low dose of ticagrelor in Acute Myocardial Infarction (AMI) undergoing percutaneous coronary intervention(PCI).
METHOD is a prospective observational program that will be conducted in 1centre of the Russian Federation. Prospective follow-up will be for about 6 months. The METHOD study is a 2 visit study with first visit of inclusion and second visit of completion of the study. Patients with stable angina pectoris eligible to the study inclusion criteria will be invited to participate in this observational program. The parameters for analysis will be collected by doctors and entered into CRF. The final analysis will include data from patients who were taking TMZ 80 mg OD during the observational period. The decision to stop the study will be made once 36 patients receiving treatment with trimetazidine 80 mg OD will have been evaluated at V1. It is expected that 5 cardiologists will participate in the program. The planned number of patients is 36.
This is a prospective, single-center clinical trial. AccuFFRangio (ArteryFlow Technology Co., Ltd., Hangzhou, China) is a novel method for evaluating the functional significance of coronary stenosis by computing the pressure in the vessel based on angiographic images. The aim of this study was to evaluate the diagnostic accuracy and prognostic implications of AccuFFRangio in patients with ST-segment elevation myocardial infarction (STEMI).
Effect of colchicine use on Left ventricles systolic function in patients with anterior S-T elevation myocardial infarction undergoing primary Percutaneous coronary intervention by using speckle tracking Echocardiography longitudinal strain pattern
Patients with heart attack or heart injury are tested (angiogram) for blockages in their arteries. Many patients develop heart problems caused by damage to small (microvascular) blood vessels. These issues are also relevant to patients with coronarvirus-19 disease (COVID-19). Eplerenone reduces blood vessel injury and is used to treat heart failure. Aim: to test the use of eplerenone in patients with heart attack/heart injury who have small vessel disease, including patients with COVID-19 Patients referred to the Golden Jubilee hospital with a suspected heart attack heart / injury will be invited to participate into a registry-based clinical trial. Screening, enrolment and verbal, informed consent will be obtained during the angiogram then written consent on the ward. Small vessel disease will be assessed using a 'diagnostic' guidewire during the standard angiogram. People with small vessel problems will be allocated to a clinical trial of usual care or eplerenone. Coronary microvascular dysfunction is defined as an index of microvascular resistance ≥25. Coronary flow reserve (CFR abnormal <2.0) and resistance reserve ratio (RRR abnormal <2.0), measured simultaneously with IMR, are predefined parameters of interest. Patients will be allocated into one of the 3 groups: - Group 1: Patients without coronary microvascular dysfunction. No eplerenone - Group 2: Patient with coronary microvascular dysfunction. Usual care, no eplerenone. - Group 3: Small vessels abnormal. Eplerenone tablets. The primary outcome for the trial will be reduced heart injury (biomarkers) in patients with microvascular disease. We will also test heart function (MRI scan) at enrolment and at six months. All patients (Groups 1, 2 and 3) will have an angiogram. Standard blood tests will be collected during the hospital stay, and then again at 1 and 6 months. Other outcomes include questionnaires (health status). We will gather information on longer-term health outcomes (hospitalisation, death) using confidential electronic record linkage. We will ask for permission to store blood samples for future research. The research will improve scientific knowledge about eplerenone therapy in this patient group. The study will create a repository of clinical samples and images which will provide vital data for studies of COVID-19.
Cardiovascular Disease (CVD) is one of the greatest causes of mortality and morbidity globally, particularly in middle to high income countries. In the UK alone, it was accountable for 124,641 deaths in 2017. Further to this, CVD contributes to a vast economic burden, costing the National Health Service (NHS) £19billion annually. This is mainly due to a significant number of hospital readmissions following a first cardiac event (198,000 per annum). Following a cardiac event, an individual is therefore recommended to reduce their risk factors, including lipid profile, smoking status and physical inactivity, to reduce their risk of a secondary event. In healthy individuals, regularly breaking up sitting time reduces cardiometabolic risk markers. The aim of this study is to therefore observe if this effect is replicated in the cardiac population and thus whether breaking up sitting time will reduce the risk of a secondary cardiac event. Potential participants will be required to meet an inclusion criteria to take part in the study: aged 50 years or above and had a myocardial infarction within the past three months at the time of recruitment to the study. Participants will be randomised to each condition: 1) uninterrupted sitting; 2) sitting with intermittent standing and 3) sitting with intermittent light physical activity (stepping to a metronome beat). A number of physiological markers will be measured before, during and after each condition and analysed to compare the effectiveness of each condition. All measurements will be taken at the University of Bedfordshire Sport and Exercise Science Laboratories.