View clinical trials related to Heart Failure.
Filter by:The study team is studying how increasing dietary fiber, specifically through adding potato starch to participant's diet, may impact the species of bacteria in participant's gut microbiome. The study team also wants to understand if adding potato starch to participant's diet helps these bacteria make more short chain fatty acids, a byproduct the team thinks may benefit participant's health.
Heart failure (HF) is a global, public health issue that affects more than 63 million people worldwide; this burden is expected to increase substantially as the population ages. Despite advancements in treatment, a HF diagnosis still leads to significant morbidity and mortality; there is also an immense impact on patients' health-related quality of life (HRQoL). Dapagliflozin was recently granted approval for heart failure by the European Commission, regardless of ejection fraction and whether the patient has diabetes. Real-world observational data are necessary to describe dapagliflozin use in real-world settings in order to assess treatment patterns, HF symptoms and their impact on physical limitation, HRQoL and work productivity, as well as health care utilization of patients treated with dapagliflozin in this setting under local treatment standard conditions in Germany.
Primary Objective To investigate if patients hospitalised for older adults with a decreased level of physical function, either related to a chronic condition e.g., COPD, Congestive heart failure, renal failure; infections; frailty and tendency of falling; orthopaedic surgery - after hip fracture will increase their time spent out of bed during hospitalisation and 3 months after discharge through visual feedback and motivational intervention about physical activities from a new mobile technology. Hypothesis Patients hospitalised for medical disease will increase their physical activity level during hospitalisation and 3 months after discharge through visual feedback and motivational intervention from a new mobile technology.
The purpose of this study is to find out if there are any patterns in the way people's bodies react to physical activities and their voices when they have heart failure, a disease where the heart cannot function sufficiently. To do this, the investigators will use a smartwatch that can measure multiple signals like the participant's heart rate and movement. Investigators will ask participants with and without heart failure to wear the Watch HOP (from HOP-Child Technologies Inc.) and sensors during physical tasks at their clinic visit at the McGill University Health Centre. Researchers will also record the participants' voices between their visits. The key signals can help find who is at risk for heart failure or develop new ways to monitor and treat it.
This is an investigator-initiated, single-center, single-arm prospective study to compare non-invasive hemodynamic assessment using transthoracic echocardiography (TTE) and lung ultrasound (LUS) and hemodynamic assessment using PAC. Patients who have been hemodynamically assessed using PAC will be invited to participate. Each patient will undergo TTE and LUS immediately after first invasive assessment, and again daily after PAC assessments.
The goal of this observational study is to evaluate the clinical characteristics of patients undergoing permanent cardiac pacing and to compare procedural efficacy and safety of different implantation approaches in the clinical practice of the participating centres. The contribution of non-fluoroscopic anatomical and electrophysiological reconstruction systems to device implantation procedures will also be evaluated. Participants [patients over 18 years old with an indication to receive a definitive pacemaker/intracardiac defibrillator implant] will receive a permanent cardiac pacing implant as requested according to European Society of Cardiology (ESC) guidelines; the investigators will evaluate procedural efficacy and safety of different implantation approaches.
Heart failure with preserved ejection fraction (HFpEF) causes hospitalizations, premature mortality and high health care costs. This is also due to poor understanding of HFpEF pathogenesis and, thus, lack of specific therapies. Prompted by the recent demonstration that HFpEF clusters different clinical phenotypes, the investigators propose that these phenogroups are driven by distinct myocardial abnormalities. Cardiac Magnetic Resonance (CMR) can help filling this gap in knowledge: on top of providing gold standard measurements for myocardial volume and cellular mass, recent technical advantages mean that this test can assess and quantify left ventricular extracellular volume, fibrosis and microvascular function accurately and non-invasively. In HFpEF patients, the investigators aim at assessing 1) the coronary microvascular function impairment; 2) the myocardial fibrotic burden; - seeking to understand the disease in order to improve care and cardiovascular outcomes for these patients.
Study to assess the prevalence of central sleep apnea in patients with heart failure with reduced or mildly reduced left ventricular ejection fraction (LVEF <50%) followed by case-control study to assess the link between central sleep apnea and cognitive function
The Multitude is a registry of patients who receive commercially available CIEDs that remotely communicate through the LATITUDE monitoring system and transfer data to a central database. The registry is designed to constitute a shared environment for the collection, management, analysis and reporting of clinical and diagnostic data, adopted by a network of European scientifically-motivated physicians who use rhythm management diagnostic and therapeutic solutions from Boston Scientific in their clinical practice. The Multitude study will facilitate the sharing of scientific proposals within a large network of researchers, and it will allow researchers to record the experience with medical devices throughout the device and patient lifecycle.
Diagnosing heart failure with preserved ejection fraction (HFpEF) in patients complaining exertional breathlessness can be challenging: diagnostic algorithms and scores have low sensitivity, and ageing-associated comorbidities can complicate the interpretation of symptoms. Thus, exercise right heart catheterization (RHC) or invasive cardiopulmonary exercise test (iCPET) have been advocated as gold-standard methods for HFpEF diagnosis. However, exercise RHC and iCPET are still not widely standardized methods, with results mainly coming from US cohorts (that may differ from Italian cohorts), and other provocative tests (e.g. non-invasive CPET, passive leg raising) may offer complementary diagnostic information.