View clinical trials related to Heart Failure, Diastolic.
Filter by:This study will randomize participants with a diagnosis of congestive heart failure and at least one risk factor for hospitalization to either a tablet computer and web based disease management program or a telephone based disease management program. Both interventions are home based with heart failure education and symptom monitoring provided by nurse managers. The nurse managers are in close communication with both the participants and the participants' physicians . The components of the disease management program have been developed at Tufts Medical Center and the New England Quality Care Alliance with studies showing improved clinical outcomes, including reduced hospitalizations. The goal of this study is to transition this successful home monitoring and disease management program to a tablet computer and web-based implementation to both improve clinical outcomes (reducing hospitalizations and improving self-perceived health status) and improve provider-patient satisfaction. We hypothesize that the tablet computer based disease management will decrease heart failure hospitalizations.
Aim of the clinical multicenter study (OptimEx-CLIN) is to assess the optimal exercise intervention in patients with Heart Failure with preserved Ejection Fraction (HFpEF; also termed diastolic heart failure) that will best improve peak oxygen uptake (Peak Vo2) and additionally diastolic function (assessed echocardiographically). The investigators hypothesize that exercise training reverses HFpEF and that intensity of exercise training is more important than duration.
The purpose of this study evaluate the effect of the method of administration of autologous bone marrow mononuclear cells for the duration of of functioning aorto-coronary bypass grafts in the surgical treatment of coronary heart disease, to assess the degree of effectiveness depending on the method of transplantation (intramyocardial, intracoronary, combined).
Heart failure with preserved ejection fraction (HFpEF), is one of the leading causes of pulmonary hypertension (PH). Despite the severity of this disease, no established treatments exist for this class of PH. Nebivolol is a drug used in high blood pressure and heart failure, but not used in patients with PH. Due to some additional properties it possesses, the investigators believe nebivolol will improve disease severity in patients with PH associated with HFpEF. The hypothesis of this research study is that nebivolol improves PH severity in patients with HFpEF, as measured by hemodynamic and clinical parameters.
The essential arterial hypotension and allostasis registry is a prospective, observational research that has the purpose of demonstrating that essential blood pressure (BP) disorders and the associated comorbidities are a result of the inappropriate allostatic response to daily life stress. This required a functioning brain orchestrating the evaluation of the threat and choosing the response, this is a mind-mediated phenomenon. If the response is excessive it contributes to high BP, if deficient to low BP, and the BP itself will identify the allostatic pattern, which in turn will play an important role in the development of the comorbidities. To do so, consecutive patients of any age and gender that visit a cardiologist's office in Medellin, Colombia, are recruited. Individuals are classified according to their arterial BP and allostasis and follow them in time to see what kind of diseases develops the most (including BP) in the follow up according to the categorization of the characteristic chosen and after adjustment for confounder's variables. In addition, stress events with their date are registered. HYPOTHESIS The causes of the diseases are multifactorial. Physical, biochemical, psychological, social, and cultural dimensions of development dynamically interact to shape the health development process. A person´s health depends on their: 1. Biological and physiologic systems 2. External and internal environment (a) physical, b) internal behavioural and arousal state as registered by the brain. 3. Their interaction. The allostatic mechanisms to the internal and external stressors (allostatic load) involves a network composed by: 1. Functional systems; mediated by: 1. The Autonomic Nervous System 2. The endocrine system 3. The immune system 2. Structural changes: whenever the internal and/or external stressors are long lasting and/or strength enough, they may induce changes in: 1. Epigenetic, endophenotypes, polyphenism. 2. Plasticity 3. The interaction between a) and b). The network response do not affect exclusively the BP, propitiating the development of comorbidities, which may prompt strategies for prevention, recognition and ultimately, treatment. The allostatic model defines health as a state of responsiveness. The concept of psycho-biotype: The allostasis is the result of both: biological (allostasis) and psychological (psychostasis) abilities. It is proposed that both components behave in similar direction and magnitude. Immune disorders may be associated with the development of cancer. High BP population has a higher sympathetic and lower vagal tone, this has been associated with a decrease in the immune´s system function. Resources and energy depletion: Terms like weathering have been used to describe how exposures to different allostatic loads gradually scrape away at the protective coating that keeps people healthy. It is postulated that High BP individuals have more resources and energy.
The study purpose is to evaluate the safety and feasibility of the CORolla™ TAA in two treatment groups, "CORolla™ Stand-alone group" and " AVR & CORolla™ Add on group".
Aim of study: The effects of aldosterone blockade on myocardial remodeling in hypertensive patients with diastolic failing heart remains unclarified. Background: Nearly half of patients with clinical heart failure (HF) have normal left ventricular ejection fraction (LVEF) who usually present with apparent diastolic dysfunction (DD) and are referred as diastolic HF (DHF). The renin-angiotensin-aldosterone system is an established major pathway that is operative in the pathogenesis of HF. The effects of aldosterone on myocardial hypertrophy, fibrosis and endothelial dysfunction have clearly been established in human and animal models. Furthermore, in these models, aldosterone antagonism prevented the development of myocardial fibrosis independent of its effect on blood pressure or myocardial hypertrophy. However, its application to patients with DHF is unspecified. In the study, we hypothesize that aldosterone blockade could reverse LV remodeling process in hypertensive patients with DHF. Study protocol: We will enroll medically well-controlled hypertensive patients who have DHF defined as the presence of exertional dyspnea or HF signs/symptoms, diastolic dysfunction as impaired tissue-Doppler (TDI) derived mitral early annular diastolic velocity (< 8 cm/s), and LVEF > 50 % in echocardiography. All patients will be randomized to receive spironolactone 25 mg per day or not for at least 6 months. At baseline before randomization and 6 months after randomization, we will investigate the Quality-of-life (QOL) score by Minnesota Living with Heart Failure questionnaire (Chinese version), echocardiography coupled with TDI to assess the degree of LV hypertrophy, myocardial systolic and diastolic characteristics. Otherwise, we draw blood sampling at baseline and after randomization for quantifying and comparing several biomarkers which are currently proved to be correlated with LV hypertrophy, myocardial fibrosis, and biomechanical stretch in DHF patients, such as N-terminal pro-brain-type natriuretic peptide, matrix metalloproteinase-2, carboxy-terminal telopeptide, procollagen type III amino-terminal propeptide, soluble ST2, and galectin-3. Expected results: Aldosterone antagonism is effective for hypertensive patients with DHF by improving the quality of life, echo-derived myocardial function, and reducing ventricular mechanical stretch through lessening the degree of LV hypertrophy and myocardial fibrosis.
The purpose of this study is to examine how dietary changes affect the heart and blood vessels in patients with hypertension (high blod pressure) who have a condition called 'heart failure with preserved ejection fraction" (HFPEF). This condition is also known as "diastolic heart failure" or "heart failure with normal ejection fraction", and occurs even though the heart's pumping function is normal.
The purpose of the study is to gather information regarding the safety and effectiveness of an investigational drug called Alagebrium when used treating Heart Failure in relation to exercise tolerance after 6 months in the trial.
Heart Failure with preserved Ejection Fraction (HFPEF) accounts for 40-50% of all heart failure patients with a frequency of hospital admissions for acute decompensation and short and long term mortality similar to patients with heart failure with reduced ejection fraction (HFREF). Patients with HFPEF are often preload dependent and despite admission to the hospital for acute decompensated heart failure (ADHF), are typically difficult to diurese due to the development of acute kidney injury. No studies have been performed evaluating treatment strategies for these patients. The investigators hypothesize that changing the method of diuresis and/or the addition of low-dose dopamine for the treatment of ADHF in patients with HFPEF will reduce renal injury, resulting in a shorter length of stay, and decrease hospital readmissions over the ensuing year. This trial will randomize patients to either bolus or continuous infusion furosemide and then to either dopamine or no dopamine. The primary endpoint will be renal function at 72 hours as measured by change in Glomerular Filtration Rate (GFR). Secondary endpoints for readmission, functional capacity, quality of life, and amount of diuresis will also be collected.