330 Clinical Trials for Heart Failure
The primary objective of this study is to learn whether a morning dose of extended-release torsemide enhances renal sodium excretion after lunch (4-8 hours after dosing) compared to immediate-release torsemide. This is a randomized, double-blind, crossover study in patients with heart failure who are on a stable dose of a loop diuretic. During the study period, participants' current loop diuretics will be replaced with an equivalent dose of either immediate-release or extended-release torsemide. Following a one-week stabilization period on the assigned torsemide formulation, patients will report to the clinical site for an assessment visit. On the study day, patients will take a single dose of the same torsemide formulation they have been on for the past week, administered after breakfast. Urine samples be collected are: * 0-4 hours post-dosing (pre-lunch period) * 4-8 hours post-dosing (post-lunch period) * 8-24 hours post-dosing (24 hours period) The primary endpoint will be urinary sodium excretion (4-8 hours after dosing). This will be compared between the extended-release arm and the immediate-release arm to assess the efficacy of prolonged diuretic action. In addition, urinary potassium and creatinine excretion and creatinine clearance will be measured in all urine samples as the safety endpoints.
This study is open to adults with chronic heart failure (HF) who have a reduced left ventricular ejection fraction (LVEF) of less than 40%. People can join the study if they have been diagnosed with chronic HF at least 3 months before the study. The purpose of this study is to find out whether a medicine called vicadrostat, in combination with another medicine called empagliflozin, helps people with chronic heart failure. In this study, participants are put into 2 groups randomly. Participants have an equal chance of being in either group. One group takes vicadrostat and empagliflozin tablets, and the other group takes placebo and empagliflozin tablets. Placebo tablets look like vicadrostat tablets but do not contain any medicine. Participants take the study medicines as tablets once a day for between 1 and about 3.5 years. During this time, they can continue their regular treatment for heart failure. Participants can stay in the study as long as they benefit from treatment and can tolerate it, for a maximum of about 3.5 years. During this time, they visit the study site regularly. The exact number of visits is different for each participant, depending on how long they stay in the study. The study staff may also contact the participants by phone. Participants also regularly answer questions about their well-being. The doctors document when participants experience worsening of their heart failure symptoms, must go to hospital due to heart failure, or die during the study. The time until these events are observed is compared between the treatment groups to see whether the treatment works. The doctors also regularly check participants' health and take note of any unwanted effects.
The purpose of this study is to find out if additional images taken during a stress echocardiogram study and risk score calculation will help the doctor determine if shortness of breath or chest pain are caused by stiff heart (heart failure with preserved ejection fraction or HFpEF).
The purpose of this early feasibility study is to evaluate the safety and feasibility of the device for percutaneous shunting of the interatrial septum and improvement of heart failure related symptoms. The primary goal is to determine if the device is safe to use. The findings from this study may be used to refine the intended patient population, the design of the device, or develop a subsequent randomized study.
To work best, clinical decision support tools (CDS) must be timed to provide support when healthcare decisions are made, which includes virtual visits (phone or video). Unfortunately, most CDS tools are either missing from virtual visits or not designed for the unique context of virtual visits (e.g., availability of physical assessments and labs, different workflows), which could generate new inequities for patients more likely to use virtual visits. The objective of this study is to test the reach, feasibility and acceptability of a new CDS tool for heart failure with reduced ejection fraction (HFrEF) during virtual visits. This new CDS tool was developed through an iterative design process, and will be compared to an existing HFrEF CDS tool in a randomized pilot study at outpatient cardiology clinics throughout the UCHealth system.
Recent medical guidelines for the management of heart failure (HF) have established a combination of specific classes of medications as the best treatment for patients with heart failure with reduced ejection fraction (HFrEF). However, studies have shown that these medications, known together as guideline-directed medical therapy (GDMT), are not being used in clinical practice less often than they could be. Several tools to promote broader use of these treatments (including patient checklists) have shown promise for increasing use of GDMT. However, these tools have not been broadly implemented within large health systems. The goal of this study is to see if using these tools broadly within cardiology clinics will increase the use of GDMT. This study is important because it could help improve the use of GDMT, which may lead to improved patient care and outcomes.
This clinical trial investigates the safety and preliminary effectiveness of YAP101, a gene therapy designed to improve heart function in adults with ischemic heart failure and reduced ejection fraction (HFrEF). Ischemic heart failure, often resulting from a prior heart attack, leads to poor heart function and quality of life. Current treatments are limited, and there is an urgent need for new therapies. YAP101 works by delivering a gene therapy using a specialized vector to heart cells, targeting a pathway involved in heart repair. By temporarily activating heart muscle regeneration, YAP101 aims to restore damaged tissue, reduce scarring, and improve the heart's pumping ability. The study will enroll participants who will receive a one-time dose of YAP101 via a minimally invasive cardiac injection. Researchers will monitor participants over 12 months to assess safety and changes in heart function, exercise tolerance, and quality of life.
The goal of this clinical trial is to explore the impact that an at-home cardio-oncology rehabilitation (CORE) may have on short-term cardiovascular fitness and psychosocial wellness in pediatric cancer survivors. The main question it aims to answer are * To evaluate the efficacy of an at-home CORE model on short-term cardiovascular fitness and psychosocial wellbeing in adolescent cancer survivors. * To evaluate the exercise adherence rate among adolescents at risk for heart failure and assess barriers to compliance. * To explore which specific CORE resources are of most value to patients in creating sustainable healthy lifestyle modifications. * Hypothesis: Pediatric cancer survivors who implement exercise and dietary recommendations will demonstrate improvement in cardiovascular fitness and general wellness. A multidisciplinary team approach can facilitate adherence to a moderately rigorous exercise prescription, and thus enhance the health benefits of a CORE program at CHLA. Participants will undergo cardiovascular studies and a quality-of-life survey prior to exercise intervention, and at the end of the 6-month study period.
This observational study is being done to learn more about heart attack recovery in patients supported with the Impella 5.5 left ventricular assist device (LVAD) as part of their standard of care. There are three stages in this study: screening, treatment and post treatment. There will be two phases of enrollment: First phase will enroll 10 patients; second phase will enroll an additional 40 patients. Approximately 50 participants will take part in the study at Columbia University Irving Medical Center. Participation in this research is expected to last approximately 14 months. This time estimate includes a screening period for about 1- 3 days, treatment period of 40 days and post treatment follow-up period for 1 year. Data will be collected through 1- year after heart transplant. Clinical data (medical history, vital signs, laboratory assessments) from medical records, to perform functional and neurocognitive testing, and to obtain blood and discarded heart tissue from for the purpose of this research study. Participants will be asked to share their records for echocardiography, right heart catheterization, laboratory data and clinical information. Participants are required to complete an assessment a 6-minute walk, hand grip strength test and questionnaire to evaluate neurocognitive status.
The aim of this mixed methods randomized controlled trial is to test the integrated nurse-led intervention bundle for family home care management of end-stage heart failure and palliative care in rural Appalachia. This intervention bundle is designed to address rural disparities in access to health care, with the help of the faith-based nurses and local volunteer visiting neighbors.
This retrospective, non-randomized cohort study will evaluate how well the Cordella PA Sensor System works compared to standard medication treatment in people with chronic heart failure. The study will track patients for two years to see if those using the Cordella system have fewer deaths and hospitalizations related to heart failure.
The purpose of this study is to determine if transseptal extra-corporeal membrane oxygenation (ECMO) can bridge pulmonary hypertension- right heart failure (PH-RVF) patients to lung transplant safely.
The ENGAGE-HF mobile application tracks three key features over time: (1) heart failure health status, (2) vital signs (e.g., blood pressure, heart rate) and weight, and (3) the quality of heart failure medication therapy. Helping patients understand how these characteristics interact and change over time may improve their ability to understand and manage heart failure. In this study, the investigators aim to evaluate whether the ENGAGE-HF mobile application, by facilitating the behavior change strategies of self-monitoring and feedback, and a clinician-facing dashboard, improves the optimization of heart failure guideline-directed medical therapies (GDMT) and quality of life. An optional sub-study of cognitive function will invite all eligible participants enrolled in the main study to participate.
The purpose of this study is to find out if the investigational drug called omecamtiv mecarbil can reduce the risk of the effects of heart failure, like hospitalization, transplantation, or death in patients with heart failure and severely reduced ejection fraction.
Heart failure (HF) affects more than 6 million adults in the U.S. alone, with increasing prevalence. Cardiovascular congestion with resultant limitation in physical activity is the hallmark of chronic and decompensated HF. The current HF physiologic model suggests that congestion is the result of volume retention and, therefore, therapies (such as diuretics) have generally been targeted at volume overload. Yet therapeutic approaches to reduce congestion have failed to show significant benefit on clinical outcomes, potentially due to an untargeted approach of decongestive therapies. The investigators' preliminary work suggested a complimentary contribution of volume redistribution to the mechanism of cardiac decompensation. The investigators identified the splanchnic nerves as a potential therapeutic target and showed that short-term interruption of the splanchnic nerve signaling could have favorable effects on cardiovascular hemodynamics and symptoms. As part of the investigators' proposal, the investigators will test the safety and efficacy of prolonged splanchnic nerve block in a randomized, controlled, blinded study in patients with HF and reduced ejection fraction (HFrEF). The results will help test the hypothesis of volume redistribution as a driver of cardiovascular congestion and functional limitations and pave the way for splanchnic nerve blockade as a novel therapeutic approach to HF.
The TEAM-MGH study will formerly evaluate impact of the GDMT Clinic versus matched usual care patients on the proportion of GDMT administration over a 12 week period in approximately 300 total patients with HF across the spectrum of LVEF (with a minimum of 150 with HFrEF). The study will also assess impact of the GDMT Clinic on health status, functional capacity, biomarker profiles, cardiac remodeling and cardiovascular events.
Participants include men and women ≥ 40 years of age with T2DM, established CV disease, a history of HTN with an SBP of at least 130 mmHg at screening, who meet the predefined serum potassium level, and with at least one additional risk factor for HF. The study will include an optional pre-screening period to facilitate sites' identification of potentially eligible participants to enter the full screening assessments. Participants will not be required to visit the site and no informed consent is required for the optional pre-screening period. The pre-screening assessments do not replace the full screening tests at Visit 1. Upon entering the screening period, all consented participants (after signature of screening ICF) will be screened during an up to 14-day screening period. Participants who meet all screening inclusion/exclusion criteria but are not treated with SGLT2i or are treated for less than 4 weeks will enter a run-in period with dapagliflozin 10 mg once daily for at least 4 weeks (and not more than 6 weeks) before randomisation. Site visits will take place at approximately 2-, 4-, 8-, 16-, and 34-weeks following randomisation. Thereafter visits will occur approximately every 4 months. The study closure procedures will be initiated when the predetermined number of the first secondary endpoint events (ie, the composite of hospitalisation for HF or CV death) is predicted to have occurred i.e., the PACD. In case of premature discontinuation of the blinded study intervention, participants will remain in the study. Unless a participant meets the dapagliflozin specific discontinuation criteria, they will continue to receive open label dapagliflozin 10 mg. It is important that the scheduled study visits and data collection continue according to the study protocol.
The overarching goal of this research proposal is to study the feasibility and clinical impact of implementing an Inova system-wide heart failure treatment algorithm for patients with symptomatic heart failure due to reduced left ventricular ejection fraction (HFreF) and secondary MR Aim is to check the effectiveness of the IHFTA in identifying patients who are most likely to benefit from percutaneous transcatheter Mitraclip repair in real world
This is a three-arm, randomized, controlled trial to test the effectiveness of gamification plus a social incentive - either social support or competition - to increase adherence to physical activity among individuals with HFpEF. There will be a 2-week run-in period to obtain baseline measures of physical activity, followed by a 6-month intervention period and then a 3-month follow-up period.
To describe and compare the symptom burden in cancer patients with concurrent diagnosis of heart failure (HFrEF compared to HFpEF).
Heart failure is a world epidemic. LVADs are increasingly used as they have demonstrated improved survival rates compared to optimal medical management. Improving outcomes have been seen with the newer LVAD technology, the HeartMate 3 (Abbott, Chicago, IL), however, hemocompatibility related adverse events, including thrombosis and bleeding, are still a major cause of morbidity and mortality. The recent ARIES trial showed that in patients with advanced heart failure treated with a HeartMate3 LVAD, avoidance of aspirin as part of an antithrombotic regimen, which includes vitamin K antagonist (VKA), is not inferior to a regimen containing aspirin, does not increase thromboembolism risk, and is associated with a reduction in bleeding events. This clinical investigation is a prospective, randomized, controlled study of advanced heart failure patients supports with the HeartMate3 for more then 3 months with two different antithrombotic regimens: VKA with and without aspirin. The objective of this investigation is to study the safety and efficacy of an antithrombotic regimen without antiplatelet therapy.
This will be a global Phase IV, open-label, randomised study to evaluate the safety and tolerability of acalabrutinib (monotherapy, 100 mg orally \[po\], twice daily \[bd\]) compared to investigator's choice of treatment, in patients with CLL (TN or R/R) and moderate to severe cardiac impairment. All patients will have cardiac impairment as defined by LVEF of \< 50%. Randomisation will be stratified by LVEF \> 40% vs ≤ 40% to stratify for moderate and severe cardiac impairment, which for this study are defined as follows: Severe cardiac impairment: in those with LVEF ≤ 40% Moderate cardiac impairment: in those with LVEF \> 40% to \< 50%. The study is planned to take place in approximately 20 centres globally. The study will be conducted in centres that have established close collaboration between the Haematology and Cardiology divisions, preferably with a cardio-oncologist on the team. An IDMC will be responsible for making recommendations for study continuation.
Patients with heart failure (HF) exhibit greater structural brain alterations and higher dementia risks than the general population. Neural atrophy in nearly every region of medical limbic circuit has been observed in HF patients. Reduction of cerebral blood flow has been suggested as the pathophysiological pathway linking HF and structural brain changes. Indeed, lower cardiac index levels were related to lower cerebral blood flow in older adults without stroke, dementia, or heart failure. A few prior studies have examined the subcortical structural differences in patients with HF compared to controls. Brain volume loss (including putamen and hippocampal volumes) have been reported in patients with low ejection fraction. Significant gray matter loss was found in specific brain regions of HF patients and included structures that serve demonstrated roles in cognitive functions. In the investigator's previous study (Comprehensive Imaging Exam of Convalesced COVID-19 Patients - COVID-19 RELATED SUBMISSION-IRB00252436), involving 100 participants (volunteers with normal heart function (ejection fraction; 50%)), the investigators observed significant correlations between thalamic volumes and ventricular stroke volumes in volunteers. Building on these findings, the investigators intend to expand the research to include individuals with heart failure (HF), employing the same MRI protocol. The study will involve obtaining a set of T1-weighted brain images to measure the volumes of seven subcortical structures. The investigators goal is to explore the relationship between subcortical volumes and cardiac parameters. Additionally, the investigators will examine whether patients with HF experience a more rapid reduction in subcortical volumes compared to those with normal cardiac function (EF;50%).
TX000045-003 is a double-blind, randomized, parallel group, placebo-controlled, proof- of-concept (POC) study, evaluating 2 dose regimens of TX000045 over the course of a 24-week treatment period (the APEX study).
A pragmatic, randomized clinical trial to evaluate the effect of a heart failure (HF) risk assessment and prevention strategy incorporating HF clinical risk scores (WATCH-DM) with cardiac biomarker (NT-proBNP) paired with a clinical decision support tool to implement an intensive prevention strategy among patients with high risk focused on implementation of evidence-based HF preventive therapies.
The purpose of this study is to evaluate how safe and effective a remote, virtual, cardiology program is that provides heart failure education to patients, monitors for worsening heart failure, and quickly adjusts heart failure medications, compared to usual care medication use and adjustment, in participants with decompensated heart failure that are recently hospitalized.
A Study of HS135 for the Treatment of in Obese Patients with Pulmonary Hypertension and Heart Failure with Preserved Ejection Fraction (PH-HFpEF)
In a randomized controlled trial, to study the utility of inspiratory muscle training (IMT) to improve functional outcomes in adults aged ≥70 years with heart failure (HF) who have been referred to palliative care for end-stage HF management. * The study team hypothesize that older HF patients will be able to use IMT safely, reliably, and effectively in a 12-week home-based training regimen. * The study team hypothesize that physical function (sit to stand, gait speed, grip strength), respiratory/pulmonary function, self-efficacy, fatigue and quality of life will increase among older HF patients randomized IMT versus those randomized to usual care.
This observational study involves ADHF patients at two sites in the United States and Germany. After informed consent and screening assessments, participants will perform daily voice recordings during their hospital stay, from admission until discharge. Alongside voice data, additional clinical information such as left ventricular ejection fraction, NTpro-BNP levels, and ECG-data will be collected for comprehensive analysis. The study's goal is to identify voice-based indicators of heart failure progression, with the potential to enhance remote monitoring and self-management strategies for heart failure patients.
A Phase 1, Open label, Multiple Ascending Dose Study to Assess Safety and Tolerability of STM-01 in Participants with Heart Failure with Preserved Ejection Fraction (HFpEF)