View clinical trials related to Ventricular Remodeling.
Filter by:Coronary artery disease is a common and serious disease, the leading cause of death worldwide. Obstructive sleep apnea syndrome (OSAS) is common and often under-diagnosed in coronary artery disease where it could be involved in the pathophysiology and perhaps prognosis. The entanglement of the two pathologies is actually quite well known, in particular the consequences of one over the other just beginning to be studied. Understanding the pathophysiology through new imaging modalities should improve the management of patients to propose new approaches. "SAS-IDM" is an interventional and prospective study conducted at the University Hospital of Montpellier. Patients will be divided in three groups depending of the results of the polysomnography: 1/ AHI < 5/h: normal, without OSA ; 2/ 5/h ≤ AHI < 30/h: mild or moderate OSA ; 3/ IAH ≥ 30/h: severe OSA. A treatment by CPAP will be proposed to patients of the group "severe OSA".
Patients with diabetes are at increased risk of developing heart failure (HF) which can lead to increased shortness of breath, reduced ability to exercise and in some cases premature death as the heart becomes less efficient at pumping blood around the body. However the treatment options for such patients remain limited. This study will test the safety and benefits of using a new class of drug, the SGLT2 Inhibitor (Dapagliflozin), in treating HF and diabetes. Participants will have a Magnetic Resonance Imaging (MRI) scan of the heart, to measure the efficiency and the extent of thickening of the heart muscle before they start on treatment of dapagliflozin, or placebo for one year. They will also do exercise testing on an exercise bike (if capable) and a walking test plus fill in some questionnaires on how their heart failure affects their quality of life. Participants will then continue as normal with currently prescribed medication for their diabetes and heart failure. After a year the tests will be repeated to determine if patients receiving Dapagliflozin benefited more than those who weren't on the drug. This study is funded by the European Foundation for the Study of Diabetes (EFSD)
The study evaluates the effect of macitentan on right ventricular and hemodynamic properties in patients with symptomatic pulmonary arterial hypertension. Patients are treated with macitentan for 1 year. Patients undergo right heart catheterization (RHC) at baseline and Week 26. They also undergo cardiac magnetic resonance imaging (MRI) at baseline, Week 26 and Week 52. Safety is monitored throughout the study. The study has three stub-studies. Each patient can participate in no sub-study or in one sub-study. The sub-studies are: (1) metabolism sub-study (with PET-MR scans); (2) biopsy sub-study (biopsies taken during the RHC); (3) Echo sub-study.
This Phase I, open label, study will investigate the effects of VentriGel injection in patients who have experienced a first, large ST elevation myocardial infarction (STEMI) treated by PCI within the past 3 years and have evidence of left ventricular remodeling.
Long term survival of patients with repaired tetralogy of Fallot is excellent (about 85% at 35 year-old). However these patients are exposed to residual pulmonary stenosis (PS) and/or pulmonary regurgitation (PR). It is well established that these lesions can lead to irreversible sequelae such as right ventricle dilatation and dysfunction. Pulmonary valve replacement technique was developed to avoid long term right ventricular dysfunction. Pulmonary valve replacement indications are based upon the presence of symptoms at exercise and/or morphological or functional parameters such as severe pulmonary regurgitation with right ventricle dilatation/dysfunction. The best timing of such intervention is still underdebate with the main aim of having the right balance between avoiding long term sequelae of PR or PS and being the latter possible to push ahead the need for new intervention. Recent publication showed that myocardial diffuse fibrosis can contribute to irreversible alteration of myocardial contractility. Quantification of diffuse fibrosis by magnetic resonance imaging is feasible and could help the physician to best determine the right timing for PVR in this population of patients. Cardiac function assessment at rest and during exercise is possible using MR and our centre has developed a program for cardiac exercise during MRI. This could help to detect infra clinic abnormality and to analyse myocardial adaptation during exercise.
Purpose: The purpose of this study is to evaluate the impact of circulating miR-126 on left ventricular remodeling and clinical outcomes in patients undergoing primary percutaneous coronary intervention for ST-segment elevation myocardial infarction.
Despite considerable effort the optimal site to place a pacemaker lead at the time of pacemaker implant remains unclear. Historically pacemaker leads have always been inserted at the bottom (apex) of the heart. It is suggested that a lead placed at the apex is associated with an increase in heart rhythm problems and also heart failure (impaired pumping function). The top of the ventricle (septum) has been investigated as an alternative site and is now routinely used by some centres. Previous estimation of the hearts pumping function (ejection fraction) has been limited to the use of echo (sound waves). Echo is not sensitive enough to detect small changes in the ejection fraction reliably (measure of pumping function of heart). The gold standard for measurement of ejection fraction is MRI (using magnets). Previous pacemakers have not been compatible with MRI scans. The latest generation of pacemakers are now able to be safely scanned within an MRI scanner. This allows a much more accurate estimation of the effects of a pacemaker on the ejection fraction which has not yet been studied. The investigators plan to study those patients undergoing a pacemaker implant and ablation procedure as part of their standard care. Individuals will have an exercise test, blood test used to measure biomarkers and fill in a symptom questionnaire. Individuals will have a Cardiac MR compatible pacemaker fitted and 2 ventricular leads will be inserted, one apically and one septally. Only one lead will be used at any given time. Individuals will then undergo their planned AV node ablation. Following this they will have a cardiac MR scan. Further MRI scans will be performed at 9 and 18 month intervals, as will symptom questionnaires, blood tests (BNP) to determine heart muscle strain, exercise testing and echocardiograms. The hypothesis is that a lead placed on the septum will produce superior cardiac performance over the short and long term.
The purpose of this study is to: 1. Assess for hemodynamic differences at rest and with exercise between three clinically available tissue aortic valves. 2. Assess for differences in left ventricular (LV) reverse remodeling (recovery of LV hypertrophy, and changes in LV systolic and diastolic function) after aortic valve replacement for severe aortic stenosis (AS) between three clinically available aortic valve bioprosthesis.
Angiotensin-converting enzyme inhibitors and angiotensin-receptor blocker valsartan ameliorate ventricular remodeling after myocardial infarction (MI). Although the amount of those drugs used in previous clinical trials, therefore recommended in practical guidelines is maximum clinical dose, it has not been clearly demonstrated whether the recommended dose is more efficacious compared to lower dose commonly used in clinical practice. In addition, the impact of genetic polymorphism in neurohormonal system on the pharmacological effect has not been explored in the setting of post-MI remodeling. Therefore, the investigators evaluate whether submaximal dose, which are lower than those in major pivotal trials but typically used in clinical practice, can offer similar benefit in post-MI ventricular remodeling.
Until now it has been assumed that regular endurance training has a positive influence on cardiac function and that the positive effect increases with increasing intensity. However, little is known about the effects of intense endurance stress on the heart. According to current knowledge repeated exposure to strenuous endurance activity may lead to minor but possibly irreversible damage to the heart with resultant scarring of the heart's muscle. Within this study the investigators attempt to find out by different analytical methods - in particular magnetic resonance imaging (MRI) and ultrasound of the heart - to what extent the heart muscle is affected by long term intense endurance exercise and which changes in cardiac function and morphology can possibly be found. Therefore the investigators compare former national competitive endurance athletes with sedentary controls.