View clinical trials related to Cardiac MRI.
Filter by:The aim of this study is to evaluate the feasibility of collecting hemodynamic data from right catheterization, all anatomical, functional, flow and substrate determination data under MRI navigation.
The study will focus on cardiac blood and imaging biomarkers to facilitate early recognition of patients at risk for myocardial injury after COVID-19 vaccination. Ultimately, the intention is to identify patients at risk, reduce adverse events, and determine the need for longer-term follow-up in patients with myocardial injury after vaccination.
This is a single centre, prospective diagnostic accuracy study to assess the comparative sensitivity of dobutamine versus adenosine for detection of severe non-infarct epicardial coronary artery stenosis in subjects with reduced LV EF ( EFed referred for clinical coronary angiography for investigation of symptoms or to establish the cause heart failure. Study participants will be identified from hospital angiography referral waiting lists, or already known with CAD and from heart failure outpatient clinics at Glenfield General Hospital. Clinical and CMR data will be collated on-site (at Glenfield General Hospital) from medical records stored and stress cardiac MRI scans at Glenfield General Hospital. The analysis will occur over a 12-month period following study commencement.
Radiofrequency ablation is the primary treatment for atrial and ventricular arrhythmias resistant to medication. However, the absence of assessment of injury creation during radiofrequency application is an important issue. One of the objectives of the Institut Hospitalo-Universitaire (IHU) Liryc (l'Institut de Rythmologie et Modélisation Cardiaque) is to improve ablation procedures by radiofrequency of cardiac arrhythmias. This is based on thermometric imaging by Magnetic Resonance Imaging (MRI) which allows a real time visualization of tissue temperature in all the myocardium with sufficient spatial and temporal resolution to characterize the induced thermal lesion. Today, investigators have developed and validated a new method for cardiac thermometry, associating rapid MRI acquisition technique (4 to 5 slices per heart beat) with online image reconstruction and correction algorithms against residual motion, magnetic susceptibility, drift of the magnetic field, etc... Recent preclinical studies showed a precision of 1°Celsius in the myocardium, largely sufficient to characterize a thermal treatment induced by radiofrequency where typical temperature rises of 40°C are observed during ablation. Temporal evolution of the temperature in each pixel provides access to calculation of the accumulated thermal dose that is a relevant indicator of the induced necrosis. This imaging method must now be evaluated in humans in order to test its robustness under real conditions (presence of arrhythmias, corpulent patients, etc…) and to optimize acquisition parameters and image processing. The aim of this research is thus to obtain specific MRI sequence of images of patients, on which will be evaluated the different algorithms of reconstruction and processing for temperature imaging. This study is a mandatory step in the perspective of future clinical treatments of cardiac arrhythmia under MRI.
The purpose of this study is to determine whether liraglutide a GLP-1 analogue are effective in the treatment of diastolic dysfunction in type 2 diabetes patients analyzed by cardiac MRI. Secondary if the treatment has any effect on the perfusion of the heart on a cardiac-MRI.