View clinical trials related to Ventricular Remodeling.
Filter by:The aim of REHAB trial is to investigate the impact of early mobilization after AMI in reducing left ventricular remodeling, as assessed by cardiac magnetic resonance imaging. At the same time, the study aims to demonstrate the contribution of early mobilization to reduction of: systemic inflammation in the immediate post infarction phase, complication rates and mortality, in patients who had suffered a recent AMI, for a 1 year follow-up period.
VIABILITY study aims to investigate the link between systemic inflammation, pancoronary plaque vulnerability (referring to the plaque vulnerability within the entire coronary tree), myocardial viability and ventricular remodeling in patients who had suffered a recent ST-segment elevation acute myocardial infarction (STEMI). The level of systemic inflammation in the acute phase of the myocardial infarction and at 1 month will be assessed on the basis of serum levels of inflammatory biomarkers (hsCRP, matrix metalloproteinases, interleukin-6). Pancoronary plaque vulnerability will be assessed: (1) in the acute phase of the infarction, based on serum biomarkers known to be associated with increased plaque vulnerability, such as adhesion molecules (V-CAM or I-CAM) determined from the blood samples collected in the first day after STEMI; (2) at 1 month after infarction, based on computed tomographic angiography analysis of vulnerability features present in all coronary plaques. Myocardial viability and remodeling will be assessed based on: (1) 3D speckle tracking echocardiography associated with dobutamine infusion; (2) MRI imaging associated with complex post-processing techniques for mapping myocardial fibrosis and scar at the level of left atrium and left ventricle. At the same time, CT imaging features associated with systemic and local inflammation, such as global epicardial fat or local pericoronary epicardial fat will be quantified in order to investigate the impact of inflammatory-mediated plaque vulnerability on the extent of myocardial damage in acute myocardial infarction. All these parameters will be investigated in patients with successful primary revascularization performed in a timely manner for ST-segment elevation acute myocardial infarction, who will be divided into 2 groups: group 1 - patients who present persistence of an augmented inflammatory status defined as serum levels of hsCRP>3.0 mg/dl at discharge from the hospital or at 7 days postinfarction (whichever comes first), and group 2 - patients with no persistence of augmented inflammatory status (hsCRP<3.0 mg/dl). The primary endpoint of the study will be represented by the rate of post-infarction heart failure development, defined as the rate of re-admission in the hospital for heart failure or by a significant decrease in the ejection fraction (<45%). The secondary endpoints of the study will be: - rate of re-hospitalization - rate of repeated revascularization - rate of major adverse cardiovascular events (MACE rate, including cardiovascular death or stroke)
Prior to reperfusion therapy, the major therapeutic breakthrough in myocardial infarction was the demonstration that ACE inhibitors or ARBs, given to prevent adverse "remodelling" (progressive dilatation and decline in systolic function) in high risk patients, reduced the likelihood of developing heart failure and the risk of death. The neurohumoral systems which are activated in patients after myocardial infarction (and in heart failure) are not all harmful and some endogenous systems may be protective. The best recognised of these is the natriuretic peptide system. A- and B-type natriuretic peptides are secreted by the heart when it is stressed and these peptides promote vasodilation (reducing left ventricular wall stress), stimulate renal sodium and water excretion (i.e. antagonising the retention of salt and water characterising heart failure) and inhibit pathological growth i.e. hypertrophy and fibrosis (key components of the adverse left ventricular remodelling that occurs after infarction and in heart failure).The augmentation of plasma levels of endogenous natriuretic peptides can be achieved through inhibition of neutral endopeptidase, also known as neprilysin (NEP), which is responsible for the breakdown of natriuretic peptides. Recently, the addition of neprilysin inhibition to blockade of the RAAS (using sacubitril/valsartan), compared with RAAS blockade alone, reduced the risk of heart failure hospitalisation and death in patients with HF-REF. These exciting findings may lead to a new approach to the treatment of heart failure, with an angiotensin receptor neprilysin inhibitor (ARNI) replacing an ACE inhibitor as one of the fundamental treatments for this condition. We believe that the same approach may be beneficial in highrisk survivors of myocardial infarction. Recently, sacubitril/valsartan was shown to ameliorate adverse left ventricular remodelling in an experimental model of acute myocardial infarction. The objective of the present proposal is to gather "proof-ofconcept", mechanistic, evidence in humans to support adoption of this new approach in patients at high risk after myocardial infarction as a result of residual left ventricular systolic dysfunction.
Regular sustained physical activity creates a cardiac remodelling : it is athlete's heart. In our preliminary work published in 2016, the investigators demonstrated in a small population of triathletes that there is also a vascular remodelling named athlete's artery. Moreover, the investigators know that left ventricle and aorta behave together like a couple. So they want to study by Cardiovascular Magnetic Resonance Imaging the impact of triathlon on the cardiac AND aortic remodelling.
BACKGROUND Global burdens of heart failure (HF) are increasing in modern societies. High-intensity interval training (HIIT) increases peak oxygen consumption (VO2peak) in HF patients, which was hypothesized to improve the survival of HF patients. OBJECTIVES The cohort study aimed to highlight the effect of HIIT on long-term survivals of HF patients. METHODS 329 HF patients, enrolled between 2009 and 2016, received multidisciplinary disease management program (MDP). They had cardiopulmonary exercise test for peak exercise capacity (VO2peak), echocardiographic examination for left ventricular ejection fraction (LVEF), LV end-diastolic diameter (LVEDD), and LV end-systolic diameter (LVESD), b-type natriuretic peptide (BNP), and quality of life questionnaire. HF patients with LVEF≤ 40% (HFrEF) and HF patients with LVEF> 40% (HFpEF) underwent≥ 36 times of HIIT. HFrEF and HFpEF patients were classified as the MDP group. Generalized estimating equation (GEE) was used to estimate the interaction between time and VO2peak, LVEF, LVEDD, LVESD, and BNP during the follow-up. Survival analysis was conducted to assess effects of HIIT on the long-term survival of HF during at end of the study.
Inflammatory processes have been identified as key mediators of ischemia/ reperfusion injury in ST-segment elevation myocardial infarction. They add additional damage to the myocardium and are associated with clinical adverse events (heart failure and cardiovascular death) and poor myocardial recovery. All the different anti-inflammatory approaches to reduce reperfusion injury have been disappointing. Colchicine is a well-known substance with potent anti-inflammatory properties. In a recent pilot study performed in 151 acute STEMI patients treated with primary percutaneous coronary intervention(PPCI) Deftereos et al. showed a 50% reduction of infarct size (creatine kinase release) with a short course treatment of colchicine in comparison to placebo. One mechanism to explain this effect could be the reduction of adverse left ventricular (LV) remodelling. LV remodelling is part of the healing process of myocardium after MI. It is defined as the end diastolic volume (EDV) increase in the first months after MI. Adverse LV remodelling is increased by inflammation and ultimately leads to heart failure. Our main hypothesis is that colchicine with its anti-inflammatory properties significantly reduces the initiation of adverse LV remodelling, together with a significant reduction of infarct size and microvascular obstruction in comparison to placebo in acute STEMI patients referred for PPCI. After inclusion and randomisation, patients will receive the first part of their experimental treatment: colchicine or placebo before PCI, then, the second part after PCI and during 5 days. They will be followed up during their hospitalization and until one year. In order to evaluate LV remodelling, two cardiac magnetic resonance studies will be performed during their participation: one during their hospitalization and a second at 3 months. At 1 year, adverse events will be collected by phone.
The uncertainty concerning the onset and the extent of cardiac remodeling in response to intensive training hinders medical evaluation by physician. A better knowledge of the physiology of cardiac adaptation to training will enable physicians to correctly determine whether observed patterns of cardiac remodeling are physiological or pathological. This prospective study proposes to assess in a trained-athlete population the cardiac remodeling in response to intensive exercise training. This study is observational, we do not interfere with athlete's training.
Heart failure with reduced left ventricular ejection fraction (HFrEF) is the most common form of chronic heart failure in subjects ≤ 75 years of age. Beta-blocker therapy greatly reduces mortality and improves ventricular function in HFrEF patients, but 30-40% of patients do not show improvement in ventricular function with beta blockade. An extensive gene signaling network downstream from the beta1-adrenergic receptor, the primary target of beta-blocker therapy is likely important for development and progression HFrEF. Pathologic changes in this gene signaling network are only reversed towards normal levels when ventricular function improves. One potential mechanism for failure to improve ventricular function in HFrEF patients unresponsive to beta blocker therapy is a lack of heart rate reduction. Ivabradine is an FDA-approved medication believed to have therapeutic benefit in HFrEF patients through reduction in heart rate independent of beta-blockade. Ivabradine has been shown to reduce the risk of hospitalization for worsening HF in patients with stable, symptomatic chronic heart failure with reduced EF (≤ 35%)in sinus rhythm with resting heart rate ≥ 70 bpm and who are on maximally tolerated doses of beta blockers or who have a contraindication to beta blockers. Given the high rate of mortality and hospitalization of HFrEF patients even with current therapies, there is a large unmet need for improving HFrEF therapy. The goals of this study are to test the hypothesis that heart rate reduction is an important antecedent for improvement in ventricular function, and to identify components of the beta1-adrenergic receptor gene signaling network responsible for improvement in ventricular function caused by heart rate reduction.
Danlou tablets are Chinese patent medicine which has been approved in China for the treatment of ischemic heart disease, but the evidence supporting its efficacy on cardiac remodeling remains unclear. This pilot study was designed to determine whether Danlou tablets reduced adverse left ventricular (LV) remodeling in patients with acute myocardial infarction (MI). Patients following acute MI were enrolled and randomly allocated to Danlou tablets (4.5 g q.d. for 90 days) or placebo, superimposed on standard medications for the treatment of MI. Major end points were changes in LV volumes and ejection fractions as evaluated by serial echocardiography in addition to clinical outcomes were also determined.
To study the effect of calcifediol on left ventricular remodeling, mineral metabolism, plasma levels of several prognostic biomarkers and on endothelial function after an anterior myocardial infarction.