View clinical trials related to Heart Failure.
Filter by:The goal of this clinical trial is to learn about the molecular pathways associated with the benefit of a regular exercise program in patients with high blood pressure and who don't already participate in regular exercise. The main question it aims to answer is to identify protein signatures associated with the benefits of a cardiac rehabilitation exercise program. The trial will enroll 42 participants, who will be randomized to a 12 week cardiac rehabilitation exercise program versus control arm and asked to participate in the following at the beginning and end of study: - Cardiopulmonary exercise test (CPET) - Echocardiogram - Physical function test - 6-minute walk test - Hand grip strength - Quality of life questionnaire - Blood draws Researchers will compare results between those who do and don't participate in the exercise program.
There is evidence for the effectiveness and feasibility of the individual components of TIER-HF-PC, however there is a need to test how these individual components interact to allow the researchers to deliver TIER-HF-PC as a model of care in its totality. In the short term, this study will assess if TIER-HF-PC is beneficial for patients and caregivers.
The CardioClip study is exploring the use of a wireless sensor to monitor pressure in the pulmonary artery. This sensor is inserted much like the mTEER procedure, a non-surgical method through a vein in the groin. The investigators want to find out if the sensor, by constantly sending information about heart function, can help improve patient outcomes. This means doctors could adjust medications based on real-time pressure changes detected by the sensor. The results from this study will help pave the way for future trials, asking if using these wireless sensors could benefit people with valve disease and heart failure.
In pilot studies the investigators have shown that subcutaneous adipose tissue (SAT) from patients with reduced ejection fraction heart failure (HFrEF) and type 2 diabetes mellitus (T2DM) is dysfunctional. Endothelial cells from the adipose tissue from these patients are senescent and have deleterious effects on healthy human subcutaneous adipocytes, including increasing expression of IL-6 (gene and protein) and reducing glucose uptake. Digoxin, a well-established treatment for HFrEF, selectively clears these senescent endothelial cells and prevents adipocyte dysfunction. This study will examine the effect of digoxin on adipose tissue on the burden of senescent cells.
This study looks at the effect(s) of using a remote patient monitoring device (Heartfelt device) with health alerts to monitor the formation of peripheral edema in patients with heart failure (HF). The hypothesis is that this passive measurement method will lead to better data availability, which in turn will improve patient care and reduce unscheduled hospitalizations for the management of worsening HF (HFHs). Patients will be recruited through Remote Patient Monitoring Companies (RPMC) based in the US, using crossover stratified randomization between standard care, Heartfelt device usage with health alerts sent to RPMC and Heartfelt device usage with alerts sent to RPMC as well as on-device alerts in the patient's home.
Powerful new drugs that can prevent or delay end stage kidney disease (ESKD) - so called sodium-glucose cotransporter-2 inhibitors (SGLT2i) - are now available for patients with type 2 diabetes. Whether these drugs have similar effects in patients with type 1 diabetes (T1D) remains unknown because of the few studies in this population, due to concerns about the increase in risk of diabetic ketoacidosis (DKA, a serious, potentially fatal acute complication of diabetes due to the accumulation of substances called ketone bodies) observed with SGLT2i therapy in T1D. One of the few T1D studies conducted to date showed that implementing an enhanced DKA prevention plan can reduce the risk of DKA associated with the SGLT2i sotagliflozin (SOTA) to very low levels. In the present study, a similar DKA prevention program will be used to carry-out a 3-year trial to test the kidney benefit of SOTA in 150 persons with T1D and moderate to advanced DKD. After a 2-month period, during which diabetes care will be standardized and education on monitoring and minimizing DKA implemented, eligible study subjects will be randomly assigned (50/50) to take one tablet of SOTA (200 mg) or a similarly looking inactive tablet (placebo) every day for 3 years followed by 2-months without treatment. Neither the participants nor the study staff will know whether a person was assigned to taking SOTA or the inactive tablet. Kidney function at the end of the study will be compared between the two treatment groups to see whether SOTA prevented kidney function loss in those treated with this drug as compared to those who took the inactive tablet. The DKA prevention program will include participant education, close follow-up with study staff, continuous glucose monitoring, and systematic ketone body self-monitoring with a meter provided by the study. If successful, this study will provide efficacy and safety data that could be used to seek FDA approval of SOTA for the prevention of kidney function decline in patients with T1D and DKD.
This study will evaluate the impact of colchicine on the change in coronary flow reserve (CFR), a marker for coronary microvascular dysfunction (CMD), compared to placebo in patients with heart failure and ejection fraction above 40% (including patients with improved EF).
Single centre observational study to assess lower extremity arterial disease (LEAD) patients' cardiac dysfunction with strain analyses and to assess connections between cardiac dysfunction, metabolomic changes and target organ damage in LEAD.
Randomized double-blind placebo-controlled crossover study design
The goal of this clinical trial is to evaluate two treatment strategies in patients with chronic atrial fibrillation and heart failure, who are eligible for atrial fibrillation ablation. Patients will be randomized to either atrial fibrillation ablation or to implantation of a pacemaker with conduction system pacing followed by atrioventricular node ablation. The effect of treatment allocation on total mortality, cardiovascular hospitalization and heart failure hospitalization will be compared.