View clinical trials related to Heart Failure.
Filter by:This study aims to evaluate the utility of a wearable heart monitoring patch that can be worn on the body to collect various measurements related to heart failure and develop a concept to potentially be used as a new measurement. It is crucial to test out new ways that make it easier to do research for new drugs and increase our chances of knowing how well they will work early on in the development process. Results from this study will be useful in planning future development programs for drugs aimed at treating patients with heart disease. This study will be conducted in a single hospital, it is non-randomised (not chosen by chance), exploratory, study in the United Kingdom (University Hospitals of Leicester NHS Trust). It aims to involve up to 80 men and women recently admitted due to sudden, severe heart failure symptoms. Participants will be part of the study for about two months, with one hospital visit after discharge, as commonly done in heart failure centres. - Visit 1 (Pre-Screening/Screening/Enrolment) will assess the participant's eligibility for participating in the study and for collecting data following hospitalisation for acute decompensated heart failure (ADHF). Participants will be trained and receive an ECG patch to wear from that moment onwards at home for a period of 4 to 7 days. - Visit 2 (Follow-up visit) will be conducted approximately 6-8 weeks post Visit 1 and this will be the final study-related site visit. Participants will receive an ECG patch to wear at home for a second time for a period of 4 to 7 days. - Visit 3 (Review of Medical Records). It is a review of the health status using medical records by the study team. The participant is not expected to attend the hospital for any appointments
The present study is a prospective, multicenter, non-inferiority, randomized controlled trail. It aims to investigate whether the efficacy of conduction system pacing (CSP) is non-inferior to biventricular pacing (BiVP) in patients with heart failure and right ventricular pacing (RVP) requiring upgrading to cardiac resynchronization therapy (CRT).
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.
Heart failure is a common and serious disease responsible for significant healthcare costs and the need of hospitalizastions. The course of the disease is characterized by periods of progressive deterioration with repeated hospital admissions, especially in the final stages of life. Telemedical self-monitoring is a promising alternative for remote monitoring that can provide individualized treatment, smooth titration of medications and reduce hospital stays. However, the evidence for its benefits is limited, which requires further research. Our hypotheses are that self-monitoring in heart failure can: 1. Reduce avoidable inpatient care and mortality. 2. Optimize the escalation of medications to optimal medical therapy. 3. Increase self-care and security. 4. Improve the prediction of deterioration in heart failure. Work Plan: We will compare six months of telemedical monitoring with standard care, and integrate telemedical data with electronic health records (EHR) for analysis and development of prognostic models for clinical outcomes (data collection is ongoing). Consecutive heart failure patients (target 300) will receive digital equipment for reporting vital parameters, experiences, and symptoms over six months. Medication adjustments are made remotely, and physical visits as needed. Data on mortality, healthcare needs, and health economics will be collected over two years after the monitoring period. We plan to retrieve a matched control population from the Swedish heart failure registry (SwedeHF). Telemonitoring data and EHR will be analyzed with traditional regression models and machine learning for identifying predictive factors for i) death, ii) readmission for heart failure or other cardiovascular disease. Significance: The study can contribute to more cost-effective, patient-centered, and medically purposeful care of heart failure.
This study is researching an experimental drug called REGN5381 (called "study drug"). The study is focused on patients with heart failure with reduced ejection fraction (ie, the heart is not functioning as well as it should). The aim of the study is to see how safe, tolerable, and effective the study drug is. The study is looking at several other research questions, including: - What side effects may happen from taking the study drug - How much study drug is in the blood at different times - Whether the body makes antibodies against the study drug (which could make the drug less effective or could lead to side effects)
Heart failure (HF) is a major healthcare problem. In patients with Heart Failure with Reduced Ejection Fraction (HFrEF), aldosterone antagonists reduce mortality and hospitalization rate. Gender-related differences have been described in the regulation of renin angiotensin aldosterone system (RAAS), which is at the core of the pathophysiology of HF. Regarding gender-related differences in the use of MRAs, less is known about the effects of androgens on RAAS. In this single-center prospective cohort, a total of 100 adult (≥ 18 years) ambulatory patients of both sexes with the diagnosis of HF with HFrEF (LVEF≤ 40%) and NYHA class II-IV under optimized medical therapy started an aldosterone antagonist are enrolled and followed-up for 6 months. Patients are categorized according to their apparent sexual gender into two groups: the male group and the female group.
The study team will examine the effects of elevated plasma ketone levels following initiation of SGLT2 inhibitor therapy in high-risk type 2 diabetes mellitus (T2DM) individuals with heart failure (HF) with reduced ejection fraction (HFrEF) providing an energy-rich fuel that is taken up with great avidity by the myocardium, to measure change in Left Ventricle diastolic and systolic function
Heart failure with preserved ejection fraction (HFpEF) is a prevalent form of heart failure characterized by impaired left ventricle pressures and diastolic dysfunction. Despite its increasing prevalence, effective treatment options for HFpEF remain limited, probably due to its heterogenous underlying pathological etiology involving chronic systemic inflammation and metabolic dysregulation. Identifying new predictors of poor prognosis is crucial for risk stratification and tailored management.
TIER-PC is an adaptive model of delivering palliative care that provides the right level of care to the right patients at the right time. It represents an adaption of the Mount Sinai PALLIATIVE CARE AT HOME (PC@H) program, which delivers home-based palliative care. TIER-PC increases the number and intensity of disciplines added to the patient's care team as their symptoms worsen and function declines. In Tier 1, patients who are able to care for themselves and no/mild symptoms receive a community health worker (CHW) trained to elicit illness understanding in a culturally competent way. In Tier 2, for patients with poorer function and mild symptoms, a social worker (SW), trained in serious illness communication, joins the CHW to further elicit patients' goals and prognostic understanding while communicating symptom needs to their primary clinician. In Tier 3, as function decreases and symptoms increase, an advance practice nurse (APN) joins the CHW and SW to manage complex symptoms. Finally, in Tier 4, for those older adults with the poorest function and most complex symptoms, a physician joins the team to ensure that the most complex needs (e.g., end-of-life treatment preferences and multifaceted symptom control) are met. The CHW follows patients longitudinally across all tiers and re-allocates them to the appropriate tier based on their evolving needs.