31 Clinical Trials for Various Conditions
This study will look at how pacing your heart may assist your daily activities and how you are feeling.
The investigators are studying whether metabolic abnormalities in cardiac and skeletal muscle in patients with heart failure with preserved ejection fraction (HFpEF) are associated with debilitating exercise intolerance.
The overall goal of this PET-MR imaging trial is to evaluate 11C-Martinostat, a histone deacetylase targeted radioligand, in patients with aortic stenosis, individuals with diabetes, and healthy volunteers.
In this single-center, longitudinal observational study, we will comprehensively examine clinical characteristics, proteomic, metabolomic, genomic and imaging data to better understand how different heart failure types may develop and progress over time. We will evaluate distinct sub-groups of heart failure (also known as heart failure phenotypes) and cardiomyopathies including amyloidosis with an ultimate goal of bringing the right medications and therapy to the right patients to optimize benefit and minimized side effects, an effort to improve precision medicine in heart failure.
Heart failure with preserved ejection fraction (HFpEF) accounts for approximately half of the heart failure population in the United States. The primary chronic symptom in patients with HFpEF is severe exercise intolerance quantified as reduced peak oxygen uptake during whole body exercise (peak V̇O2). To date, studies have focused almost exclusively on central cardiac limitations of peak V̇O2 in HFpEF. However, in stark contrast to heart failure with reduced ejection fraction (HFrEF), drug therapies targeting central limitations have invariably failed to improve peak V̇O2, quality of life, or survival in HFpEF. Emerging evidence from our lab suggests reduced skeletal muscle oxidative capacity may contribute to exercise intolerance in HFpEF patients. However, the mechanisms responsible for peripheral metabolic inefficiency remain unclear. Reduced blood flow (oxygen delivery), and slowed oxygen uptake kinetics (O2 utilization) may both contribute to reduced peripheral oxidative capacity. Importantly, reduced oxidative capacity may result in increased production of metabolites known to activate muscle afferent nerves and stimulate reflex increases in muscle sympathetic (vasoconstrictor) nervous system activity (MSNA). However, to date there have been no studies specifically investigating the contribution of peripheral metabolic and neural impairments to reduced exercise capacity in HFpEF. The overall aim of this proposal will be 1) to identify impairments in peripheral vascular, metabolic, and sympathetic neural function and 2) to assess the ability of small muscle mass (knee extensor, KE) training, specifically targeting these peripheral skeletal muscle deficiencies, to improve aerobic capacity and exercise tolerance in HFpEF. GLOBAL HYPOTHESIS 1: HFpEF patients will demonstrate reduced skeletal muscle oxygen delivery, slowed oxygen uptake kinetics, and elevated resting and metaboreflex mediated MSNA. Hypothesis 1.1: The vasodilatory response to knee extensor exercise will be impaired in HFpEF patients. Specific Aim 1.1: To measure the immediate rapid onset vasodilatory response to muscle contraction, as well as the dynamic onset, and steady state vasodilatory responses to dynamic KE exercise. Hypothesis 1.2: Skeletal muscle oxygen uptake kinetics will be slowed in HFpEF. Specific Aim 1.2: To measure pulmonary oxygen uptake kinetics during isolated KE exercise in order to isolate peripheral impairments in metabolic function independent of any central impairment. Hypothesis 1.3: HFpEF patients will demonstrate elevated MSNA at rest, and exaggerated metaboreflex sensitivity during exercise. Specific Aim 1.3: To test this hypothesis the investigators will measure MSNA from the peroneal nerve at rest, and during post exercise ischemia to directly assess metaboreflex sensitivity in HFpEF. GLOBAL HYPOTHESIS 2: Isolating peripheral adaptations to exercise training using single KE exercise training will improve peripheral vascular, metabolic, and neural function and result in greater functional capacity in HFpEF. Hypothesis 2.1: Isolated KE exercise training will improve the vasodilatory response to exercise, speed oxygen uptake kinetics, and reduce MSNA at rest HFpEF. Specific Aim 2.1: The assessments of vascular, metabolic, and neural function proposed in hypothesis 1 will be repeated after completing 8 weeks of single KE exercise training. Hypothesis 2.2: Single KE exercise training will improve whole body exercise tolerance, peak V̇O2, and functional capacity in HFpEF. Specific Aim 2.2: To test this hypothesis the investigators will measure maximal single KE work rate, V̇O2 kinetics and peak V̇O2 during cycle exercise, as well as distance covered in the six minute walk test.
Heart failure with preserved ejection fraction (HFpEF) is a leading cause of mortality in the elderly. Outcomes of patients with HFpEF are poor and so far, no treatment has been shown to decrease morbidity or mortality. Recent animal and human studies suggest that a systemic proinflammatory state, produced by comorbidities, including aging, plays a central role in the development of HFpEF, supporting the notion that attenuating the proinflammatory state is an attractive therapeutic target for HFpEF. We have previously shown that low-level transcutaneous electrical stimulation of the vagus nerve (tVNS) suppresses inflammation in patients with atrial fibrillation. The overall objective of this proposal is to examine the effects of tVNS on diastolic dysfunction, exercise capacity and inflammation in patients with HFpEF. Our specific aims include: 1. To examine the effect of intermittent (1 hour daily for 3 months) tVNS on diastolic dysfunction and exercise capacity, relative to sham stimulation, in patients with HFpEF and 2. To examine the effect of intermittent (1 hour daily for 3 months) LLTS on inflammatory cytokines relative to sham stimulation, in patients with HFpEF. The proposed proof-of-concept studies will provide the basis for the design of further human studies using LLTS among populations with HFpEF. In light of the increasing number of elderly patients with HFpEF and the poor success of the currently available treatment options, an alternative and novel approach such as tVNS has the potential to impact clinical practice and improve health outcomes among a large number of patients. It is anticipated that these investigations will contribute to the broader understanding of the role of inflammation in the pathogenesis of HFpEF and how its inhibition can be used to provide therapeutic effects. Moreover, it is anticipated that a better understanding of how modulation of inflammation affects one of the hallmarks of HFpEF, diastolic dysfunction, will lead to the development of novel pharmacological and non-pharmacological approaches to treat this disease.
The investigators hypothesize that a dietary intervention aimed at increasing unsaturated fatty acids (UFA) consumption is feasible and has the potential to improve cardiorespiratory fitness, metabolic flexibility and glucose tolerance in symptomatic obese heart failure with preserved ejection fraction (HFpEF) patients.
The objective of this project is to determine if Neo40, a nitric oxide generating lozenge, when consumed twice daily by subjects with HFpEF, will increase exercise tolerance, decrease symptoms and improve quality of life for patients.
This study is designed to demonstrate feasibility of study conduct and that acceptable adherence to adaptive servo-ventilation (ASV) therapy can be achieved in recently hospitalized HFpEF patients with moderate to severe sleep apnea. All subjects meeting the criteria will receive ASV therapy.
* Heart Failure with Preserved Ejection Fraction (HFpEF) is a common form of heart failure * Standard treatment for heart failure, show less than ideal results in HFpEF * Evidence of systemic inflammation is common in all forms of heart failure, including HFpEF * The main hypothesis of this study is that systemic inflammation contributes to heart failure symptoms and exercise limitations in patients with HFpEF * The main objective is to treat patients with HFpEF and evidence of systemic inflammation with an anti-inflammatory drug targeting Interleukin-1 (or placebo) to determine effects on cardiovascular function
The main objective is to test the hypothesis that inorganic nitrate supplementation will: (1) Improve exercise efficiency and performance; (2) Enhance the systemic vasodilator reserve during exercise and specifically, the vasodilator response in exercising muscle; (3) Reduce arterial wave reflections and arterial load; (4) Improve skeletal muscle mitochondrial function in subjects with heart failure with preserved ejection fraction.
The goal of this clinical research study is to test what effects a ketone drink will have in people with heart failure with preserved ejection fraction (HFpEF), including on exercise and heart function. Patients with HFpEF often have difficulty exercising, and our goal is to understand whether a ketone drink changes much patients can exercise. The study has three visits, including a baseline visit to assess for study eligibility, and two visits (one after 8 weeks of a ketone drink or a placebo drink, and another one after 8 weeks of whichever drink the participant did not receive the first time).
This is a prospective non-blinded randomized control pilot study comparing the effect of pulmonary vein isolation against medical management of atrial fibrillation in patients with Heart Failure with preserved Ejection Fraction (HFpEF).
This study is designed to evaluate the effects of a diet rich in unsaturated fatty acids (UFA)-also known as 'healthy fats'-in patients with obesity and heart failure with preserved ejection fraction (HFpEF) on dietary consumption of UFA as well as fatty acids plasma levels.
This is an open-label, single-center study to examine distinguishing features of the structure and function of the oral and gut microbiome in volunteers with PH in the breakdown of oral nitrate and effect on hemodynamics.
PH-HFpEF patients will receive weekly open-label doses of levosimendan and be periodically evaluated for safety and effectiveness in extended use.
Phase 2 study to evaluate the efficacy and safety of intermittent levosimendan compared with placebo in hemodynamic improvement with exercise in PH-HFpEF subjects
The GUIDE-HF IDE clinical trial is intended to demonstrate the effectiveness of the CardioMEMS™ HF System in an expanded patient population including heart failure (HF) patients outside of the present indication, but at risk for future HF events or mortality.
The purpose of this American Heart Association-funded and NIH-funded study is to examine circulating RNAs in the acute CHF setting, how they change with decongestive therapy, and their function in vitro and in vivo. The investigators are testing the hypothesis that ex-RNA levels change significantly during decongestion therapy and can be used as a marker of those individuals who respond to CHF therapy (in terms of cardiac structure or outcome). Additionally, the translational research design allows the investigators to assay the effects of these RNAs on tissue phenotypes in vitro.
Pulmonary hypertension (PH) is a serious condition characterized by a mean pulmonary artery pressure \>=25mmHg on right heart catheterization (RHC). Despite advances in PH care, outcomes are still sub-optimal and further research is required into the pathobiology of the disease and development of biomarkers that can guide clinical care. The investigators are establishing a biobank to collect samples (blood, urine, stool) from patients with pulmonary hypertension, patients at high risk for pulmonary hypertension, healthy controls, and patients undergoing right heart catheterization. Specimens will be stored for future investigations.
Heart failure often causes fluid to accumulate in the body, leading to congestion and swelling. However, some people who have had heart failure for a long time seem to have very little congestion or swelling, even when the heart failure is poorly treated. The investigators think that this is because lymphatic vessels are able to grow and remove fluid to prevent congestion. The investigators do not know how lymphatic vessels grow. This study will investigate the blood levels of various proteins to try to figure out how the lymph vessels of people with long-standing heart failure might grow.
The WHISH-2-Prevent Heart Failure (HF) study is an ancillary study to the Women's Health Initiative Strong and Healthy (WHISH) exercise pragmatic trial. The WHISH-2-Prevent HF trial examines the intervention effect of physical activity (PA) on both incident HF and HF burden (recurrent HF and CVD death in those with HF) in a cost effective manner in elderly women. In addition, it will allow a dose-finding analysis to better understand the type, intensity and frequency of PA that leads to a reduced risk and burden of HF. The focus of the parent WHISH trial is on atherosclerotic cardiovascular disease and not heart failure.
Diastolic dysfunction refers to abnormal mechanical properties of the myocardium and includes abnormal LV diastolic distensibility, impaired filling and slow or delayed relaxation- regardless of whether the ejection fraction is normal or depressed and whether the patient is asymptomatic or symptomatic. Epidemiologic studies have demonstrated high prevalence of diastolic heart failure (DHF). The quality of life of these patients is impaired and the clinical outcomes are similar to those with heart failure with systolic dysfunction. Therefore diastolic dysfunction has significant adverse economic impact that is expected to grow further with time. Clinical characteristics alone may not be sufficient to diagnose diastolic dysfunction. A number of invasive and non-invasive parameters have been proposed to diagnose diastolic dysfunction. Most of the presently used non-invasive parameters have a number of limitations. High fidelity measurement of the left ventricular pressures is needed to accurately diagnose diastolic dysfunction. Obtaining it in routine clinical practice is impractical. In this protocol the investigators have proposed a novel non-invasive parameter called 'Torsional Hysteresis' as a measure of diastolic function. This will be measured using non-invasive cardiac MRI technique. During left ventricular contraction and relaxation, myocardium deforms. During cardiac cycle the myocardium goes back to baseline state prior to beginning of each contraction. However the rate with which it returns to the baseline state is variable. Torsion indicates relative wringing motion of the ventricle around a left ventricular axis and is a global parameter of left ventricular deformation. The parameters have defined a new parameter called torsional hysteresis based on non invasive cardiac MRI assessment. The parameters have hypothesized that for diastolic dysfunction, the torsional hysteresis area is increased as compared to no diastolic dysfunction group.
The purpose of this study is to examine how dietary changes affect the heart and blood vessels in patients with hypertension (high blod pressure) who have a condition called 'heart failure with preserved ejection fraction" (HFPEF). This condition is also known as "diastolic heart failure" or "heart failure with normal ejection fraction", and occurs even though the heart's pumping function is normal.
Diastolic heart failure (also known as "heart failure with normal ejection fraction" or "heart failure with preserved ejection fraction") occurs even though the heart muscle's pumping function is normal. In many cases diastolic heart failure is related to stiffening of the heart and blood vessels in people who have high blood pressure. Current guidelines suggest that patients should limit the salt content of their diet, as too much salty food can cause fluid retention and other problems in diastolic heart failure. Studies in animals with diastolic heart failure suggest that antioxidant chemicals found in grapes can block some of the harmful effects of salty diets. Because it is often difficult for patients with diastolic heart failure to maintain a low salt diet, the investigators are researching the effects of the antioxidant properties of grape seed extract, a natural supplement made from grape seeds. The investigators hypothesize that supplementing the diet with grape seed extract (GSE) can decrease the levels of harmful chemicals and improve heart and blood vessel function in patients with diastolic heart failure and a history of high blood pressure. The University of Michigan research group plans to enroll 25 patients with a history of high blood pressure and diastolic heart failure in a research study. The study will assess the effects of GSE on hormones and other chemicals that can cause heart and blood vessel damage. The investigators will also study the effects of GSE on the ability of the blood vessels and heart muscles to relax at the proper time and speed. Finally, the investigators will observe how GSE affects participants' overall ability to exercise, quality of life, and blood pressure control. Study participants will be randomly assigned to take either GSE or placebo (looks like but does not contain GSE) capsules twice a day for six weeks. After a two-week break, all subjects will cross over to the opposite group of capsules for an additional six-week period. At the start of the study and at the end of each six-week time period study participants will have non-invasive heart and blood vessel testing, blood work and urine tests, and blood pressure monitoring.
The primary objective of this study is to determine whether treatment with aliskiren (300 mg) compared to placebo will improve treadmill exercise time in older (age ≥ 55 years) patients with heart failure and normal ejection fraction (HFNEF).
Heart failure with preserved systolic function (HF-PSF, or 'diastolic heart failure') accounts for half of hospitalizations for heart failure in patients over the age of 65. Most HF-PSF patients have systemic hypertension (HTN), and characteristic HTN-induced cardiovascular changes contribute to HF-PSF. However, it is unclear why most patients with HTN never develop HF-PSF or which specific aspects of HTN predispose to HF-PSF. In the Dahl S rat, the primary animal model of HF-PSF, high dietary sodium intake suppresses the systemic renin-angiotensin-aldosterone system, but upregulates renal and cardiac renin-angiotensin-aldosterone system by inducing oxidative stress. In humans, the magnitude of blood pressure response to sodium ingestion and depletion can categorize subjects as "salt-resistant" and "salt-sensitive." Human salt sensitivity is associated with structural and loading conditions that increase the risk for HF-PSF, including HTN, ventricular hypertrophy and diastolic dysfunction, arterial stiffening, and increased plasma volume. High dietary sodium intake induces oxidative stress in salt-sensitive humans. In humans with HTN and normal ventricular systolic function that do not have heart failure, increased oxidative stress predicts impaired exercise capacity, ventricular hypertrophy, diastolic dysfunction, arterial stiffening, and vascular endothelial dysfunction. The investigators have proposed that "salt sensitivity" and the accompanying oxidative stress on the typical high-sodium Western diet may contribute to the initiation and progression of HF-PSF. In patients with HF-PSF, the investigators will relate dietary changes to biochemical and cardiovascular functional measures. The investigators will study subjects on ad-lib diet and and following three weeks of rigorous dietary modification with the Dietary Approaches to Stop Hypertension (DASH)/sodium-restricted diet (SRD). This diet is richer in natural antioxidants and lower in sodium than the usual American diet. The DASH/SRD is recommended to lower blood pressure in patients with HTN, and is particularly effective in elderly, obese, and salt-sensitive hypertensives. Dietary sodium restriction is recommended for all HF patients including those with HF-PSF. The investigators hypothesize that the DASH/SRD will have favorable effects on oxidative stress, ventricular and vascular function, and blood pressure control in patients with hypertensive HF-PSF.
Heart failure (HF) is a disease that is caused by a reduced heart muscle function. Reduced heart muscle function can occur as a consequence of reduced pumping activity from a weak heart muscle or because of a stiff heart muscle. This study is looking at the effectiveness of Natrecor (nesiritide) in patients that require hospitalization due to worsening heart failure as a result of a stiff or thickened heart muscle. Natrecor is a man-made version of a protein that my body makes on its own and has been approved for the treatment of patients requiring hospital admission for heart failure and have shortness of breath at rest or with minimal activity. Natrecor has shown to lower the pressures in the heart and decreases the congestion in the lungs. This study is being done to see if the addition of a Natrecor to standard medical therapy for HF will improve symptoms faster or more completely than giving only the standard treatment for CHF.
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.
Primary Objective - To determine if implantation of a permanent CRT pacing device (with LB-CRT, or conventional BiV-CRT with a coronary sinus LV lead) can improve electromechanical function, HF symptoms, and natriuretic peptide levels among patients with symptomatic HF, LVEF \> 35%, and LBBB.