View clinical trials related to Myocardial Ischemia.
Filter by:As part of the planned implementation of a new clinical pathway using hs-cTnI, the investigators will measure patient outcomes and clinical processes in a real-world scenario throughout an integrated health system across 9 emergency departments (ED).
This study evaluates the prognostic value and potential therapeutic impact of combined pressure and flow measurements in the evaluation of epicardial coronary stenosis and microvascular function.
The objective of this study is a comparative evaluation of Orsiro stent and of Resolute Integrity stent in terms of the extent of neointima formation at 4 months after implantation using optical coherence tomography (OCT).
The COPACABANA study is designed as a single-centre, open, prospective trial aimed to assess the influence of coronary chronic total occlusion (CTO) on downstream myocardial ischemia via the novel computed tomography perfusion (CTP) imaging technique. To this end, consecutive patients with CTO of a major coronary artery scheduled to undergo percutaneous recanalization of occluded coronary artery based on clinical grounds, will undergo stress CTP using state-of-the-art dual-energy CT scanner at 2 time points (before and 3 months after successful restoration of flow in the CTO vessel).
To assess the feasibility in diabetics in a primary care setting of screening for NAFLD and advanced fibrosis, by using non-invasive magnetic resonance imaging (MRI) to estimate the hepatic proton density fat fraction (MRI-PDFF) and magnetic resonance elastography (MRE) to estimate hepatic stiffness.
The aim of this study is to investigate whether near-infrared guided percutaneous coronary intervention in patients with acute myocardial infarction provides improved stent strut coverage at six months compared to conventionally angiography guided percutaneous coronary intervention.
This study is a prospective, diagnostic, cohort study within the standard care of acute coronary syndrome (ACS) patients. It compares the analytical performance of Siemens® point-of-care high sensitive troponin I testing in venous, plasma and capillary sample types. The investigators hypothesize that there is a good correlation between the Siemens® POC HS cTnI assay results for the three sample types and that the bias between different POC sample types reduces from ~10% to ≤ 5% when using heparinized transfer device for the capillary sample.
Coronary atherosclerosis (ATS) is a degenerative-inflammatory artery pathology underlying the different clinical manifestations of coronary heart disease (CHD), from stable angina due to constrictive plaque growth obstructing artery lumen, to acute coronary syndrome (ACS), secondary to abrupt lumen occlusion by atherothrombosis at the site of a ruptured or eroded plaque. Major coronary adverse events (MACE) are known to be related to local factors, the so called "high risk plaque" characterized by large lipid-necrotic core with a thin fibrous cap, intraplaque hemorrhage, rupture, erosion, and to systemic, patient-specific, factors, contributing to the atherogenic genotype/phenotype of the so called "high risk patient", presenting with an abnormally activated thrombogenic and/or inflammatory state or increased plasma levels of atherogenic lipid species. The huge social and economic impact of CHD in western and developing countries is primarily due to the difficulty to identify and predict, in the clinical context, which "high risk plaque" in which "high risk patient" will cause, independently of stenosis severity, an acute coronary event such as myocardial infarction or sudden coronary death, which are often the first manifestations of CHD in a large proportion of otherwise asymptomatic subjects. Plaque burden, compared to stenosis, is recognized as a better predictor of ACS and coronary CT angiography (CCTA) is considered as the optimal non-invasive coronary imaging modality to assess and quantify plaque burden and to evaluate the functional significance of a stenosis, by computationally estimating fractional flow reserve. Moreover, molecular studies of CHD patients have mostly examined associations with clinical cardiovascular outcomes: associations with coronary ATS assessed by quantitative CCTA may provide insight into the pathophysiological role of several molecular species in plaque formation and growth, and elucidate their potential role as discriminative biomarkers of CHD. Based on these considerations, aim of this study is to collect and analyze all patient-specific clinical and epidemiological data and patient phenotype and genotype blood-derived molecular information, and to combine them with local high resolution non-invasive CCTA imaging of actual plaque burden as well as, prospectively, of its increase or de novo formation over a clinically relevant timespan. The expected result, following local and systemic data integration and modeling, is to optimize early diagnosis and risk stratification of CHD beyond current clinical models and scores and to help improving primary and secondary prevention of MACE. The overall design of this diagnostic and prognostic framework has been proposed to Horizon 2020 EU Call PHC30 and approved by the European Commission (Grant Agreement PHC30-689068). The Consortium includes major clinical European University Hospitals specialized in CHD imaging and treatment and the project study has obtained the endorsement of the European Society of Cardiovascular Imaging.
Develop time-to-event prediction and plaque phenotype classification models for patients with known or suspected coronary artery disease.
The effects of SGB on the cardiovascular system remain controversial since the cardiac sympathetic nerves pass through the stellate ganglion. SGB is expected to have an ameliorative effect on impaired coronary circulation and cardiac function and thus to be well suited to the treatment of angina pectoris and myocardial infarction