View clinical trials related to Heart Failure.
Filter by:Finerenone will be compared to placebo to determine efficacy and safety of treatment in patients heart failure and reduced ejection fraction (HFrEF) who are intolerant or ineligible to receive treatment with steroidal mineralocorticoid receptor antagonist (sMRA).
To determine the effects of eccentric resistive training on ventricle functions and aerobic capacity as compared to a resistance and aerobic training among Heart failure (HF)
HF-POL is the first Polish multicenter observational prospective registry of patients with heart failure and ejection fraction more than 40% designed by Heart Failure Association of the Polish Cardiac Society. The purpose of this study was to provide first characteristics of Polish population patients with heart failure and EF>40% and to provide a better understanding of medical practice, based on observational data, including diagnosis, treatment, and prognosis over 3-year follow-up.
A novel four-drug regimen for heart failure with reduced ejection fraction (HFrEF) extends patients' life expectancy by an average of 6 years compared to traditional therapies, in addition to improving quality of life. Unfortunately, uptake of this complex multi-drug regimen has been low, especially among underserved communities with barriers to medication adherence. Although combination tablets have transformed access to care for conditions such as HIV and tuberculosis, no combination pill is available for HFrEF. In the proposed study, the investigators will utilize inexpensive over-encapsulation techniques to develop a novel combination pill ("polypill") for patients with HFrEF. In Aim 1, the investigators will conduct stakeholder interviews with patients, providers, and pharmacists to inform the design of a HFrEF polypill. In Aim 2, the investigators will conduct a pilot, single-center, crossover randomized clinical trial to investigate whether, compared to usual care, a HFrEF polypill increases medication adherence among 20-40 adults with HFrEF. Given the high daily pill burden among patients with HIV and HFrEF, the investigators aim to recruit a subgroup of patients with HIV (~10-20 participants) in addition to a subgroup of patients without HIV (~10-20 participants).
This is an observational, retrospective non-inferiority study with a study sample from a large national database. A machine learning (ML) model will use a national database to predict the clinical diagnosis of ATTRwt-CM among HF patients. This study will include HF patients ≥50 years old.
The Enavogliflozin Outcome Trial in Functional Tricuspid Regurgitation (EVENT) was designed to examine the hypothesis that, compared with placebo, therapy with the SGLT2 inhibitor enavogliflozin would improve clinical and echocardiographic outcomes in heart failure (HF) patients with functional tricuspid regurgitation (TR) and preserved left ventricular ejection fraction (LVEF). The primary objective of the EVENT study is to test the hypothesis that, compared with placebo, therapy with enavogliflozin for 18 months would improve a composite of cardiovascular events or worsening of TR on follow-up echocardiography in HF patients with functional TR and preserved LVEF. The secondary objective is to examine whether enavogliflozin is effective in reduction of renal events and tricuspid regurgitation, and to evaluate whether beneficial effects of enavogliflozin on primary outcomes are associated with reduction of all-cause mortality.
The aim of the study is to demonstrate that conduction system pacing (CSP) can preserve a normal ventricular function compared to right ventricular apical pacing (RVAP) in patients with pre-implant preserved left ventricular ejection fraction (LVEF) and a high burden of expected ventricular pacing due to atrioventricular conduction block (AV block). After informed consent signature, patients with high degree AV block and normal LVEF will be randomized to permanent pacemaker stimulation with CSP vs RVAP. All the patients have a complete evaluation before the procedure and at 3 and 6 months follow-up.
The mechanism by which heart failure initiates and progresses and the mechanisms of heart repair remain unclear. The left ventricular assist device (LVAD) is a therapy to stabilise patients while they await their transplant. The LVAD helps pump blood around the body, giving the heart an opportunity to recover. During surgery, the apical core tissue is routinely removed to allow the implantation of the device (this tissue is normally discarded). Some patients demonstrate cardiac recovery, allowing the device to be removed without later needing a transplant. As part of the LVAD removal procedure, the section around the device might need to be removed (this tissue is normally discarded). To further understand the cellular and molecular mechanisms by which the heart is repaired, the investigators wish to utilise this surplus tissue for research purposes. The collection of this tissue is part of routine treatment and does not represent additional risk for the patient for research purposes. Some patients might still require a transplant following VAD treatment. The native heart is removed from these patients (routinely discarded) and replaced by a donor heart. The investigators wish to utilise this discarded tissue for research purposes, so that the investigators can identify the cellular and molecular factors involved in cardiac repair and which distinguish responsive and non-responsive patients. Heart transplant recipients who require extracorporeal membrane oxygenation will have an additional heart biopsy sample taken for research purposes when performed as part of routine clinical practice. There is no additional risk to the patient for research purposes. Heart failure patients scheduled for transplantation (who have not received a VAD) will be recruited prior to transplantation and their native heart retained for research purposes. An additional peripheral blood sample will be collected from all patients for research purposes when performed for routine clinical practice.
Intravenous (IV) loop diuretics have been a key component in treating pulmonary edema since the 1960s and has a Class 1 recommendation in the 2021 guidelines for acute heart failure. However, no randomized clinical trials have investigated loop diuretics versus other interventions for acute heart failure, and clinical knowledge of the hemodynamic effects of furosemide is based in studies from the 1970s. In this study, we aim to assess the acute effect of furosemide on cardiac filling pressures and pulmonary congestion. Hypothesis: Administration of furosemide induces a hyperacute (within 30 minutes) lowering of cardiac filling pressures and pulmonary congestion before significant diuresis occurs. Design: A prospective, interventional study including 20 patients admitted due to a clinical diagnosis of acute heart failure with pulmonary congestion. Intervention: 80 mg of furosemide is administered IV. Measurements include blood pressure, peripheral oxygen saturation, pulmonary fluid content by ReDS*, ultrasound examination of heart and lungs, and assessment of cardiac filling pressures with doppler and strain analysis. Measurements are repeated at several time points until 6 hours have passed.
Combination therapy with finerenone with empagliflozin will be compared to usual care to determine the efficacy and safety of treatment in patients hospitalized with heart failure.