View clinical trials related to Congestive Heart Failure.
Filter by:Heart failure (HF) is a systemic clinical syndrome defined as cardiac dysfunction, which causes inadequate blood supply to meet metabolic needs. One of the most expressive markers of HF is neurologic exacerbation, with expected sympathetic hyperactivation, increased activity of the renin-angiotensin-aldosterone system and elevation of vasopressin levels. These changes compensate the low cardiac output in the onset of ventricular dysfunction ensure a long term high blood perfusion pressure,though aggravate this dysfunction and contributes to the HF progression. There are evidences ofthe therapeutic effects of respiratory exercise techniques for HF patients. However, it demands new data for larger prescription and employment of these kind of exercises. Advanced technologies allowed the elaboration of the application for slow breathing CardioBreath. So far, it requires the possibility of comparison of their effects versus widely validated Inspiratory Muscle Trainig (IMT) on respiratory and cardiovascular outcomes in order to elucidate their specific benefits. In this way compare CardioBreath ® App versus IMT through a crossover randomized clinical trial design may elucidate the response effects of these interventions in these patients.
The objective of this study is to widely implement and evaluate the Care Transitions App in a randomized controlled trial. The app the investigators designed for patients with multiple chronic conditions has four envisioned modules: 1) falls-reduction content, 2) a digital post-discharge transitional care plan (e.g., after hospital care plan, including education, medications, follow-up appointments, warning signs to watch for, nutrition, and other care plan activities), 3) a new module for patients with MCC (diabetes, congestive heart failure, and chronic kidney disease) including condition-specific post-discharge care plans with relevant symptom management activities, 4) a new post-discharge report module which summarizes key care transition findings and allows for patients to enter notes and questions for their providers and their own goals for recovery.
Heart failure (HF) is a condition in which the heart cannot pump blood adequately. It is increasingly common, consumes 4% of the UK National Health Service (NHS) budget and is deadlier than most cancers. Early diagnosis and treatment of HF improves quality of life and survival. Unacceptably, 80% of patients have their HF diagnosed only when very unwell, requiring an emergency hospital admission, with worse survival and higher treatment costs to the NHS. This is largely because General Practitioners (GPs) have no easy-to-use tools to check for suspected HF, with patients having to rely on a long and rarely completed diagnostic pathway involving blood tests and hospital assessment. The investigators have previously demonstrated that an artificial intelligence-enabled stethoscope (AI-stethoscope) can detect HF in 15 seconds with 92% accuracy (regardless of age, gender or ethnicity) - even before patients develop symptoms. While the GP uses the stethoscope, it records the heart sounds and electrical activity, and uses inbuilt artificial intelligence to detect HF. The goal of this clinical trial is to determine the clinical and cost-effectiveness of providing primary care teams with the AI-stethoscope for the detection of heart failure. The main questions it aims to answer are if provision of the AI-stethoscope: 1. Increases overall detection of heart failure 2. Reduces the proportion of patients being diagnosed with heart failure following an emergency hospital admission 3. Reduces healthcare system costs 200 primary care practices across North West London and North Wales, UK, will be recruited to a cluster randomised controlled trial, meaning half of the primary care practices will be randomly assigned to have AI-stethoscopes for use in direct clinical care, and half will not. Researchers will compare clinical and cost outcomes between the groups.
Previous research has investigated the use of remote patient monitoring in various clinical contexts, however there has not been a clinical trial examining use of the VitalCare platform for ambulatory management of heart failure. This trial will serve as a pilot study examining the feasibility of use of the VitalCare platform for ambulatory heart failure management and examine the effect of remote patient monitoring on patient engagement. To the investigators' knowledge, this will be the first study examining the effect of remote patient monitoring with the VitalCare platform on heart failure clinical outcomes, such as hospitalization for heart failure exacerbations and emergency room visits for heart failure.
Episodic and disjointed medical care for older, community-dwelling adults with chronic obstructive pulmonary disease (COPD) and congestive heart failure (CHF) leave them vulnerable to adverse events such as worsening disease trajectories, frequent emergency department (ED) utilization, and avoidable hospital admissions. It is imperative that an alternative means of health delivery be developed, establishing a coordinated, flexible care model to connect patients with the appropriate resources to address their acute needs and integrate with their medical homes to navigate fraught moments in their disease management. The Mobile integrated health (MIH) care delivery model may offer a solution by providing flexible and innovative on-demand care in the comfort of patients' homes. The MIH paradigm expands the use of highly trained paramedics outside of their traditional EMS role, by dispatching them into the community to perform in-home medical evaluations and treatment(s) in consultation with an actively involved, remotely located, supervising physician. These "community paramedics" evaluate patients and render care using mobile diagnostics and a variety of medications, allowing patients to remain in place until they can be evaluated definitively on an ambulatory basis. Utilizing a model of on-demand community paramedic visits paired with a telehealth consultation with a physician, this intervention will manage patients in place until they can access planned ambulatory follow up, decreasing the use of prehospital emergency transport services, emergency department utilizations, and hospital admissions as well as limiting transitions of care and allowing ambulatory providers to maintain longitudinal oversight of disease management The objective of this project is to study the feasibility of the refined MIH model for the care of community dwelling patients with congestive heart failure and chronic obstructive pulmonary disease. Investigators will conduct a small pre/post pilot intervention trial enrolling 50 patients into a pilot MIH program. Primary outcomes will include participant satisfaction, patient activation, and subject retention. Investigators will also collect outcomes data including ED visits, hospitalizations, and hospital lengths of stay.
Clinical trial participation has always been substantially skewed toward certain demographic groups. However, there has been little study on whether trial qualities impact participation in either a positive or negative way. The goal of this research is to identify the characteristics that consistently restrict patients' ability to participate in or complete a trial in which they were initially interested. This data will be evaluated via a number of demographic lenses in order to find trends that could benefit future Congestive Heart Failure sufferers.
This study aims : To assess the frequency of heart failure in patients with end-stage renal disease on regular dialysis. To identify the risk factors of heart failure in patients with end-stage renal disease. To assess the impact of duration of dialysis on heart failure and its prognosis
Randomized, controlled, unblinded, adaptive design clinical trial to evaluate the safety and efficacy of PolyCore (Polydextrin, L-Carnitine, D-xylitol) peritoneal ultrafiltration (PUF) in patients with heart failure and reduced ejection fraction (HFrEF).
This is a prospective, single arm, early feasibility study (EFS) designed to evaluate the safety and device performance of The RenalGuard System in the management of patients admitted with signs and symptoms of congestive heart failure who require diuresis for the treatment of volume overload.
The investigators will conduct a feasibility study of an enhanced transitional care intervention, that will: 1) automate identification and risk-stratification of patients with CHF and IHD with social vulnerabilities; 2) incorporate a new standardized social vulnerabilities screening tool into clinical care; 3) enable electronic referrals to community resources; and 4) add novel community-based interventions to the existing medically-oriented transitional care intervention that is the standard of care at the study hospital (Parkland Hospital in Dallas, Texas) and other hospitals nationwide.