View clinical trials related to Heart Failure.
Filter by:This study aims to evaluate the impact of Sodium-dependent glucose transporters 2 inhibitor Empagliflozin on the exercise capacity,symptoms of heart failure, cardiac function, myocardial remodeling and quality of life of nonobstructive HCM patients with HFpEF.
The AquaPass is a non-invasive, renal-intended system designed to enhance fluid transfer through the skin, by increasing sweat rate, to treat fluid overload in heart failure patients. This study will further evaluate the safety, efficacy, and usability of the AquaPass system in the hospital and home settings.
The aim of this pilot randomized study is to examine whether integrating the SIRIO-HF virtual assistant (VA) into the outpatient management of participants recently discharged from hospital with a new diagnosis of heart failure (HF), may reduce the need for regular medical assessment and the healthcare burden, reduce variability in healthcare, and meet with participant satisfaction, without compromising participant safety and overall care quality.
Even though, the African-American Heart Failure Trial (A- HeFT) demonstrated that a combination ISDN and HYD (BiDil) improved survival among African-American patients with HF, when compared to placebo, there is no trial on chronic heart failure patients secondary to hypertensive heart disease which is the commonest etiological factor for heart failure in sub-Saharan Africa. A previous study (The Bi treatment with hydralazine/nitrate versus placebo in Africans admitted with acute Heart Failure (BAHEF) which was on acute heart failure patients with varying aetiology, was under powered as the study could not achieve the estimated sample size because of logistic issues. We therefore are trying to determine the feasibility of a randomised, open-label, parallel group, two-arm, superiority trial of ISDN and hydralazine in patients with chronic hypertensive heart failure in sSA.
The effect of an acute intake of medium-chain fatty acids on heart function measured by cardiac magnetic resonance imaging (CMR) will be measured in individuals with heart failure with reduced ejection fraction (HFrEF) and in matched healthy controls with normal heart function. This aim will be investigated in a cross-over study including two visits: acute intake of medium-chain fatty acid or long-chain fatty acid as control. In addition, the effect of acute medium-chain fatty acid compared with long-chain fatty acid intake on whole-body lipid and glucose metabolism will be investigated.. The hypothesis is that acute consumption of medium-chain fatty acid will improve cardiac function in patients with heart failure.
Heart Failure (HF) is a significant health concern, affecting around 1-2% of people in Western countries. The risk of developing HF during a lifetime is about 20%. Despite advancements in HF care, the one-year mortality rate for HF patients remains high. HF patients also experience reduced physical capacity and quality of life. The heart relies heavily on a process called oxidative metabolism for energy, and this process requires a continuous supply of energy sources like fatty acids, glucose, and ketone bodies. In HF, there's a shift in how the heart uses these energy sources, which affects its efficiency. Ketone bodies such as 3-OHB, are molecules that can provide the heart with a more efficient energy source compared to traditional ones like fatty acids or glucose. They are produced in the liver and are important for supplying energy during fasting, exercise, and illness. Recent research suggests that 3-OHB might have benefits for HF patients beyond just providing energy. It seems to reduce inflammation and oxidative stress in the heart. Some studies in healthy individuals have shown that infusing 3-OHB increases blood flow to the heart. In HF patients, the investigators aim to explore the cardiac effects of a two-week supplement of 3-OHB. The aim is to investigate if this supplement can increase the heart's consumption and utilization of 3-OHB. The study involves 12 patients with HF and reduced ejection fraction (HFrEF). The patients will receive a ketone ester supplement four times a day for two weeks, and then they'll take an isocaloric placebo supplement for another two weeks. The investigators will use positron emission tomography (PET) to study the cardiac oxygen consumption and 3-OHB uptake. This is done by injection of tracers (11-C-3-OHB and 11-C-acetate). The study will also look at myocardial external efficiency (MEE) and myocardial blood flow (MBF). For a subset of participants, the investigators will also take myocardial biopsies and perform more detailed analyses, e.g. respirometry and electron microscopy or single nucleus mRNA sequencing, proteomics and metabolimcs, to understand the impact of the supplement on the heart's cellular structures and functions, transcriptome, proteome and metabolome. Ultimately, this study aims to determine whether supplementing HF patients with 3-OHB can improve the heart's energy usage and potentially provide other beneficial effects. This research might pave the way for new treatments that enhance the heart's function and quality of life for HF patients.
Acorai is developing the Acorai Heart Monitor, a handheld electronic device for monitoring pressures inside the heart in a non-invasive manner, by placing the device on the chest of a patient. Currently these intracardiac pressures are measured in an invasive way, during a right heart catheterisation procedure. This procedure carries risks to the patient. There is a clinical need for a non -invasive, easy to use, tool to monitor patients that suffer from heart failure. The study aim is to use the Acorai device to collect the intracardiac pressure measurements from patients admitted to hospital with heart failure and who are awaiting discharge home. Using the data, we will assess the feasibility of the Acorai derived cardiac output measurements, and assess what data best predicts survival, death, or major adverse cardiac events (MACE)
The importance of assessing venous congestion in heart failure patients is widely acknowledged, but its study is hampered by the lack of a practical evaluation tool. Venous excess ultrasound score (VExUS) is a promising noninvasive ultrasound-guided modality that can detect and objectify clinically significant organ congestion. VExUS congestion grading score was still not formally validated in patients with AHF, as there is limited data on its clinical application in this group of patients.
This is a single-arm cohort study aimed to evaluate change of arteriovenous fistula volume blood flow / cardiac output ratio in patients with chronic heart failure (NYHA I-II classes) and with preserved ejection fraction as a result of a hemodialysis session after a "long" interdialysis interval.
Fluid status and congestion can be determined by the CPM wearable device and correlates with non-invasive measures and biochemical markers of congestion and changes in congestion.