View clinical trials related to Coronary Disease.
Filter by:CFD simulations in this study provide detailed hemodynamics information, which cannot be obtained from cardiac images alone. The investigators hypothesize that our proposed simulations will provide strong correlation between hemodynamic parameters, such as WSSG and SPA, and clinically identified graft stenosis. These correlations will allow the investigators to identify the future patients at high risk of graft stenosis and lead to future researches on optimizing and refining surgical plans, such as finding optimal proximal and distal anastomoses locations, optimal graft length and diameter, which could lead to improved longevity of the graft. Once CFD coupled shape optimizer is validated, it could be part of the surgical simulator to help in training the next generation physicians. It could provide new viewpoints for assessing whether some modified surgical techniques are better or not. It could also aid in designing and evaluating the vascular medical devices, including stent, artificial graft, and etc., which would lead to better surgical outcome.
Coronary flow reserve (CFR, calculated as the ratio of hyperemic over rest myocardial blood flow) is emerging as a powerful quantitative prognostic imaging marker of clinical cardiovascular risk. CFR provides a robust and reproducible clinical measure of the integrated hemodynamic effects of epicardial coronary artery disease (CAD), diffuse atherosclerosis, and microvascular dysfunction on myocardial tissue perfusion. Inflammation is a key mediator of this constellation of abnormalities, affecting the entire coronary vasculature, but no clinical trial to date has shown that directly reducing inflammation lowers cardiovascular event rates. As such, the recently launched Cardiovascular Inflammation Reduction Trial (CIRT) provides a unique opportunity for mechanistic investigation of the impact of anti-inflammatory therapy on changes in CFR as a reflection of coronary vascular dysfunction, which may precede clinical outcomes, particularly in patients at high-risk of events. The investigators are ideally positioned to examine the impact of inflammation on CFR, having extensive experience in both the quantitation of CFR using clinically-integrated dynamic positron emission tomography (PET) and the ability to assess its association with cardiovascular outcomes. The central hypothesis of this ancillary proposal, CIRT-CFR, is that reducing systemic inflammation using low-dose methotrexate (LDM) will, compared to placebo, quantitatively improve myocardial blood flow and coronary flow reserve as measured by PET over one year, in stable CAD patients with type 2 diabetes or metabolic syndrome enrolled in CIRT. In so doing, improvement in coronary vasoreactivity, endothelial function, and tissue perfusion may have beneficial effects on myocardial mechanics, left ventricular deformation and function and, ultimately, symptoms and prognosis.
The objective of the study is to evaluate the process of early re-endothelialization of the Coroflex® ISAR Drug-eluting stent compared with the Ultimaster® Drug-eluting stent
The purpose of the trial is to compare the effects of high intensity interval training (HIIT) with usual care - moderate intensity steady state training (MISS) - in UK cardiac rehabilitation (CR) programmes.
This study is primarily designed to collect resting phase signals from eligible subjects using the Phase Signal Recorder (PSR) prior to coronary angiography to machine learn and test an algorithm for detecting the presence of significant coronary artery disease in symptomatic adult patient.
The purpose of this study is to evaluate the prevalence and morphological features of coronary plaques by means of OCT in patients with acute myocardial infarction but without any significant coronary stenosis at coronary angiography. In addition, cardiac magnetic resonance imaging (CMR) will be performed to assess the prevalence, location, and pattern of myocardial injury as well as other concomitant findings. As a secondary analysis, the association between the distribution and characteristics of coronary plaques detected on OCT and myocardial injury shown by CMR will be evaluated. In addition, a post-hoc survey regarding the potential modification of the interventional treatment approach based on OCT analysis will be conducted.
Background: Non-alcoholic fatty liver disease (NAFLD) is the hepatic manifestation of the metabolic syndrome, which is one of the major risk factors of coronary heart disease (CHD). CHD is the most important manifestation of atherosclerosis, because of its immense morbidity and mortality. Transient elastography (TE, Fibroscan®) including the currently developed controlled attenuation parameter (CAP) is a non-invasive method for evaluation of liver fibrosis and steatosis, which is already implemented in routine care of patients with NAFLD. Hypothesis: The use of TE with CAP as screening for NAFLD might be an easy tool for risk assessment for CHD. Methods: Patients scheduled for routine coronary angiography will be screened for manifestation of NAFLD by TE including CAP, conventional ultrasound, clinical and laboratory parameters. Patients will be stratified for the presence of CHD based on the angiography results and correlation analysis with liver fat content will be performed. NFALD screening will be validated in a subgroup by MR-based measurements.
The purpose of this study is to perform a first-in-man assessment of feasibility, exploratory efficacy and clinical performance of the novel Angiolite drug-eluting stent (iVascular, Barcelona, Spain) utilizing intracoronary optical coherence tomography (OCT).
This is a 9-months extension to the following study, protocol number: 003-03: "A study to evaluate the use of SOMVC001 (GALA) vascular conduit preservation solution in patients undergoing coronary artery bypass grafting (GABG)". Participation is allowed exclusively to participants enrolled in the main protocol SOMVC001 (GALA).
The overall goal of the study is to test the effectiveness and sustainability of an integrated care model for managing cardiovascular risk in individuals with family history of premature coronary heart disease (CHD). This care model involves: 1. screening for cardiovascular risk factors, 2. providing lifestyle interventions for prevention and management of cardiovascular risk factors, 3. providing a framework for linkage to appropriate primary health care facility and 4. active follow-up of intervention adherence. Initially, a formative qualitative research component will gather information on understanding of diseases, barriers to care, specific components of the intervention package (for example, context specific ways to enhance physical activity and to reduce prolonged sitting time, ways to improve diet etc.) and feedback on the intervention strategies (lifestyle education, care and linkage coordination). Then a randomized controlled trial involving ~700 families and 1400 participants will be used to determine whether an integrated care model is effective in reducing or halting the progression of CHD risk factors and risk factor clustering in families. The sustainability and scalability of this intervention will be assessed through economic and qualitative lenses to estimate value and acceptability. Scalability will be informed by cost-effectiveness and acceptability of the integrated cardiovascular risk reduction approach.