View clinical trials related to Heart Failure.
Filter by:Heart failure is a major cause of death and hospitalization in Canada. Many of the symptoms experienced by patients with heart failure relate to having fluid accumulate in the lungs causing difficulty breathing, swelling in the legs, and an increase in weight. Thus, one of the cornerstones of managing heart failure includes the use of medications known as diuretics that target the kidneys to reduce fluid accumulation via urination. Deciding on the correct dose of this medication can be quite nuanced as under-dosing can lead to accumulation of fluid, and over-dosing can dehydrate patients and potentially result in lightheadedness/fainting and damage to the kidneys. Currently, options for prescribing diuretics for heart failure include 1) giving patients a regular, fixed dose or 2) having patients monitor their daily weight as a surrogate of their fluid status and then take a dose of diuretic based on a pre-prepared scale. The rationale behind the flexible weight-based diuretic scale is that it can potentially detect early fluid accumulation and thus possibly prevent hospitalization or ED visits, and it also avoids over-dosing and potentially dehydrating patients. Currently, it is not clear whether the flexible diuretic regimen is better than the fixed-dose regimen in preventing ED visits, hospitalizations, kidney damage, or death and as such, this pilot study will directly compare the two commonly used regimens in the management of chronic heart failure patients.
Data regarding the safety and efficacy of ivabradine use in severely decompensated HFrEF requiring inotropic support is limited to case series.1 This study aimed to evaluate ivabradine safety and tolerability in admitted cardiogenic shock patients who started on dobutamine infusion for inotropic support.
Amyloid deposition in the heart is called cardiac amyloidosis (CA); 95% is immunoglobulin light chain amyloidosis (AL) and transthyretin amyloidosis (ATTR). Hereditary (ATTRm) or wild-type (ATTRwt) depends on whether the ATTRm gene is mutated or not. The most common mutation in Taiwan is A97S, 80% have left ventricular hypertrophy. The good prognosis depends on early diagnosis and correct treatment strategy. Bone-avid tracers such as 99mTc-PYP/DPD/HMDP could detect CA. The mechanism is not clear yet, which may be related to the microcalcification. AL amyloidosis is mostly between visual score grade 0-2, and ATTR-CM is usually grade≥2 on PYP scan, or heart to contralateral (H/CL) ratio, and it might replace invasive myocardial biopsy. However, there are no large-scale clinical studies, lack of standardization data, and limited information in comparison between clinical and imaging parameters. This project will enroll patients with suspected or diagnosed with CA according to CA diagnostic algorithm. Clinical data and image parameters are collected and compared. The project aims to set up prediction models based on the multi-parameters of PYP scan using artificial intelligence technology, including imaging registration and alignment technology, and standardization. We further use the key cardiovascular data elements and imaging-derived database using model training network to extract image features to develop the diagnostic and prognostic prediction models, which are expected to validate the clinical significance and improve patient-centric performance and efficient clinical decision making.
The purpose of this study is to examine if educational intervention in high risk patients can lead to decreased hospital readmissions when compared to patients who are not in the intervention program. Additionally, to determine patient satisfaction with the educational program.
The RECOVER HF pilot is a feasibility study for evaluating a randomized, doubled-blinded study design to determine the benefits and risks of chronically delivering Synchronized Diaphragmatic Stimulation (SDS) in Heart Failure patients on GDMT with NYHA II/III, EF<=40% and QRSd,=130ms.
The main purpose of this study is to assess the efficacy and safety of LY3540378 in adults with worsening heart failure with preserved ejection fraction
Heart failure is the major pandemic of the 21st century. The number of patients and of Heart Failure-related deaths is progressively increasing. This means a devastating economic and health organization burden. In fact, chronic heart failure patients are at high risk of death, and the course of the disease is often insidious and uncertain with a progressive deterioration requiring the need for repeated and successive hospitalizations with an ominous prognosis: with each admission for acute heart failure there is a short-term improvement, a phase characterized by a degree of stability, and then a worsening phase follows until a new need for a new hospitalization. Moreover, with each subsequent hospitalization, myocardial function progressively declines, gradually worsening the patient's quality of life until the fatal event. For these reasons, one of the major unmet needs is the identification of patients with a negative trajectory of Heart Failure. Accordingly, early identification of Heart Failure worsening is mandatory to improve patient condition and reduce Heart Failure costs, which are mainly associated with hospitalizations. Our main goal through this project is to create clinical tool for detection of early signs of chronic heart failure (CHF) worsening that will allow timely therapeutic intervention. This timely manner intervention can lead to a much better outcome for the patient, possibly reducing the need for hospitalization or lower the number of hospitalization days. The aim of this project is to develop clinical decision tool based on artificial intelligence (AI) algorithms to early detect the signs of exacerbation of chronic heart failure and predict the risk of its progression, by integrating high quality medical data obtained through a wearable device (L.I.F.E. Italia Srl's "wearable clinic" - a vest with accessories, which is a TRL 9 medical grade sensorized garment, already available on the market). Specifically, the focus will be on the early detection of CHF worsening in patients who have already been diagnosed with CHF.
SUMMARY Rationale Patients with heart failure may suffer from a poor quality of life (QoL) due to frequent hospital admittance, medication intake, and symptoms as a result of progression of their disease. The general salt intake in the Dutch population is too high, leading indirectly to hypertension resulting in worsening of cardiovascular disease such as heart failure. Patients with heart failure are highly salt sensitive. A quarter of the daily salt intake originates from bread. Salt restriction is difficult to maintain. The aim of this study is to lower the daily salt intake by providing a palatable low salt bread to patients with heart failure. This may lead to a stable disease and therefore an improvement in quality of life. Objective The aim of this study is to investigate whether substitution of normal bread by a new palatable form of low salt bread is effective in reducing salt intake in patients with chronic heart failure. The investigators will evaluate the effectiveness, the compliance and the outcome of the presumed salt reduction. Study design This is a single center, randomized, double blinded, cross-over trial with a follow-up period of twelve weeks performed in VieCuri, Medical Centre in Venlo. Study population In this study, 20 patients visiting the outpatient clinic with heart failure NYHA class 3-4 will be included. All patients are 18 years or older. Intervention Given the study design all 20 patients receive a low salt bread (0.05 gram sodium per slice) for one period and received bread with a normal amount of sodium (0.35 gram sodium per slice) in the other period. After six weeks follow up, the groups change the intervention. Main study parameters/endpoints The investigators expect a reduction of daily salt intake of 1.5 gram sodium by an average of 5 slices bread a day. Nature and extent of the burden and risks associated with participation, benefit and group relatedness Patients should visit the hospital three times. Prior the hospital visit they have to collect 24- hour urine. During all visits blood samples will be taken and a physical exam is performed. Also blood pressure will be measured. Most of these parameters are also collected for clinical purposes. Patients should at the same time report their daily intake in a personal food diary and fill in questionnaires about their opinion of the bread and quality of life.
Introduction: Muscle wasting is a serious complication that affects a large proportion of patients with heart failure (HF). Muscle wasting is a strong predictor of frailty and reduced survival in HF patients. Currently, standard treatments for slowing muscle loss in patients with HF are not available. The main intervention remains various types of physical activity programs. Telemonitoring is a promising strategy for improving heart failure outcomes by making it possible to monitor patients remotely. There are numerous examples of home-based exercise programs administered through telehealth services that have been beneficial for maintaining physical activity levels. These results highlight the potential utility of telehealth services for combatting sedentarism and muscle wasting among epidemic and post-epidemic phases. Objective: The purpose of this study is to evaluate the effect of a multi-component physical activity program based on home telemonitoring on patients with heart failure and muscle wasting. Methods: This study used an quasi-experimental study, two-group repeated measurement design. The experimental group received the Home-based exercise with telemonitoring and control group according to regular nursing care. Data were collected at baseline (T0), and post-tests will be conducted right after the intervention period (T1). Additionally, detraining effects will be measured 12 weeks after program cessation (T2) . Data were collected including demographic questionnaire, sarcopenia, cachexia assessment, clinical blood parameters from patient record, physical activity, loneliness, and quality of life. Scientific or Clinical Implication of the Expected Results: The study results can be used to design designated interventions and provide information for policymaking.
The goal of this cohort study is to observe the effectiveness of Yiqi Fumai Lyophilized Injection (YQFM) in patients with acute heart failure (AHF). It mainly aims to assess the effectiveness of YQFM on the 90-day mortality or readmission rate in patients with AHF and compare the results with AUGUST-AHF RCT study. There will be no intervention, but information will be collected during the hospital stay and during the follow-up period of 180 days . Researchers will compare exposed group(patients who received YQFM) and non-exposed group(patients who didn't received YQFM) to see if there is difference on the 90-day mortality or readmission rate.