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Browse 6,279 clinical trials for heart disease. Find studies that match your criteria and connect with research centers.
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NCT07588984
This research program includes two coordinated prospective studies (FLOURISH and THRIVE) evaluating the real-world effectiveness of Noom's digital health programs on weight, cardiometabolic biomarkers, physiological health indicators, and program engagement. FLOURISH is a 6-arm prospective cohort study comparing an Education-only control, Noom Weight, standard-dose compounded semaglutide, microdose compounded semaglutide, standard-dose tirzepatide (Noom Plus), and microdose tirzepatide (Noom Plus Microdose). THRIVE is a nested 2-arm prospective study comparing a Proactive Health program to a Noom Free Tier control. Participants complete monthly surveys, remote biomarker collection (Tasso device), connected-scale weigh-ins, and in-app biometric assessments (FaceScan, BodyScan). Microdose and Free Tier arms also use wearable fitness trackers. Primary outcomes are changes in cardiometabolic biomarkers, weight, body composition, and GLP-1 side effect profile. Total N = 2,310; 24-month duration.
NCT04777383
Many acute and chronical medical conditions, such as, shock, sepsis, diabetes, hypertonia, and cardiovascular disease are associated with a perturbated or lost ability of regulating the diameter of the blood vessels. These changes in regulatory function can be seen especially in the smaller vessels in the body. It is therefore clinically relevant to develop investigation models that can detect and quantify such changes at an early stage. Historically, basic vascular function was investigated by mounting a section of a blood vessel on a tension sensor, submerging it in a temperature controlled and buffered solution to which vasoactive substances were added. This in vitro model has contributed substantially to our current knowledge of vascular pharmacology and function. However, using this method means that the vessel is removed from its natural environment and, hence no longer influenced by systemic or local mediators for controlling vessel diameter. The present study aims to investigate the local changes in blood flow and concentration of red blood cells of the superficial vessels in the skin of the forearm of healthy volunteers in response to various vasoactive substances. The purpose is to better understand how the regulation of diameter works in and to find a model that can give an early warning to when it does not function optimally. The vasoactive substances will be delivered through the skin to the vascular bed by a non-invasive method called iontophoresis. An electrode chamber containing a solution of the substance to be studied is placed on the subject's skin by double adhesive tape. The chamber comes with a transparent lid that prevents leakage and enables supervision of the effect on the underlying vasculature. When a voltage is applied the charged drug molecules begin to move through the skin and interact with the vessels. In the present study, a total electrical dose of 12 millicoulomb (mC) is going to be used (600 seconds x 0.02 milliampere). The effect of the applied drug is measured using two non-contact, optical measurement techniques. A better understanding of the pharmacology and regulation of blood vessels may lead to the developement of techniques that allow earlier detection of perturbations in vessel regulation and the onset of preventive medical treatment.
NCT06563895
Transthyretin amyloidosis (ATTR) is a disease where the normally occurring transthyretin (TTR) protein falls apart and forms amyloid, a sticky plaque-like substance that accumulates in different organs in the body and can cause damage to the organ. There are two ways that the TTR protein can fall apart. One way occurs as a person ages, where the normal TTR protein can fall apart and form amyloid that may no longer be sufficiently cleared by the body. This type of ATTR is known as wild-type ATTR (ATTRwt). The other way occurs when a person inherits a defective TTR gene that causes the TTR protein to spontaneously fall apart. This form of the disease is known as variant ATTR (ATTRv) and can be detected in adults by a genetic test of their TTR gene before they age. Amyloid build-up in the heart causes the heart wall to become thick and stiff and can result in heart failure and even death. Accumulation of TTR amyloid in the heart is known as transthyretin amyloid cardiomyopathy or ATTR-CM. Amyloid can also deposit in the nerve tissues leading to nerve problems. Accumulation of TTR in the nerves is known as transthyretin amyloid polyneuropathy or ATTR-PN. Acoramidis is an experimental drug designed to bind tightly to TTR in the blood and stabilize its structure, so it does not form the harmful amyloid plaques that can cause damage to organs. This study is intended to determine if treatment with acoramidis in participants with ATTRv who have not yet developed any symptoms of disease can prevent or delay the development of ATTR-CM or ATTR-PN disease. If adults with an inherited defective TTR gene are treated early before any of the symptoms of disease have developed, it may be possible to delay the onset or prevent the disease entirely.
NCT07578090
This project aims to develop a community-based health promotion intervention model for populations at potential risk of metabolic syndrome. Through exercise training and lifestyle modifications, the project seeks to improve cardiopulmonary function and disease control, align with current public health policies, and establish an evidence-based model with strong potential for broader implementation.
NCT03999138
Researchers are testing a more accurate way to measure how much fluid is in the lungs (also called pulmonary edema, or "increased lung water") in people with Heart Failure (HF) using MRI (Magnetic Resonance Imaging). There is little known about the exact level of lung water in patients with AHF or how these levels change from the time of hospital admission to discharge. The purpose of this research study is to measure the lung water in patients hospitalized for HF, to determine the change in lung water over the course of hospitalization and treatment, and to find out if lung water levels can predict if patients are higher or lower risk for returning to the hospital or dying from heart failure.
NCT05278962
The main purpose of this study is to observe outcomes of sodium-glucose co-transporter 2 inhibitors (SGLT2i) in heart failure (HF) patients with left ventricular assist devices (LVAD).
NCT06762964
The purpose of this research is to determine whether treatment with the study drug dapagliflozin for 3 months affects peripheral venous pressure at rest and during exercise in adults with failing Fontan circulation.
NCT03103932
This is a multi-centre, single blind, randomized study. Patients admitted to hospital with acute decompensated heart failure will be randomized to biomarker guided discharge algorithm vs usual care in a 2:1 ratio. NTproBNP and other biomarkers will be measured within 24 hours of admission. The NTproBNP results will be used to further stratify participants randomized to the biomarker guided group into lower and medium to higher risk pathways. Biomarkers will be repeated after 2-3 days and again prior to discharge. Specific care pathways will be followed for each of the lower risk and medium-higher risk groups. Biomarkers will be repeated 30 days post discharge. Participants will be followed with a phone call at 3 months and return for a follow up visit at 6 months post discharge for outcome evaluation.
NCT04626505
The purpose of this research study is to compare the safety and effectiveness of 2 different doses of a study drug called ziltivekimab to placebo (an inactive substance) in reducing inflammation and improving some of the bad effects of inflammation on heart disease. Participants will be randomly (by chance) assigned to receive either ziltivekimab or placebo. The chance that participants will be assigned into one of the three study arms of ziltivekimab (either 15 mg or 30 mg) or placebo is the same (approximately 33%). This is a double-blind study, which means neither participants nor the study doctor will know which group the participants are in. In case of an emergency, however, the study doctor can get this information. The study drug will be injected under the skin once every 4 weeks. In this study participants will receive 3 injections of study drug. The total study duration for each participant will be approximately 6 months.
NCT04347655
Background There are significant limitations in the current approaches to assessing 2 important areas of cardiovascular physiology - the systemic circulation and left ventricular (LV) performance. The investigators' have repurposed the concepts of "systemic vascular conductance" to assess systemic circulation, and the "head capacity principle" to assess LV performance. The investigators' now seek to test these concepts in human adults, with heart failure and without heart failure, using non-invasive methods. Hypothesis There will be a depressed head-capacity curve and reduced power among patients with heart failure which will indicate compromised left ventricular pump function. Methods The research study will involve a single outpatient visit per subject. The study will take place with the subject supine on a bed/table. The subjects will be instrumented with EKG electrodes and finger blood pressure cuffs. The continuous finger BP device performs a waveform analysis in real-time to determine the non-invasive stroke volume, cardiac output, and blood pressure. The patient will be supine for at least 5 minutes to collect baseline data before being handed a dynamometer device. The subject will then be asked to squeeze the dynamometer with maximum force for a minimum of 2 minutes while only engaging their forearm and remaining relaxed in the rest of their body. The subject will then release the dynamometer and remain supine, in recovery, for a minimum of 5 minutes. Following the handgrip test, the instrumentation will be removed and the patient's participation in the study will be complete. The study duration should be about 20 min.
NCT07168421
Limiting perioperative tachycardia (aiming for a heart rate \<90 beats per minute throughout the perioperative period) using the ultra-short acting beta-blocker landiolol in patients with cardiovascular risk factors undergoing major surgery might lower the incidence of perioperative myocardial injury. Feasibility of the intervention needs to be proven prior to conduction of a larger trial.
NCT04614467
This clinical trial will explore the efficacy and safety of GCSF-mobilized autologous CD34+ cells for the treatment of CMD in adults currently experiencing angina and with no obstructive coronary artery disease. Eligible subjects will receive a single administration of CLBS16 or placebo.
NCT06015191
The goal of this randomized controlled trial is to evaluate the effectiveness of video conferencing for the delivery of live-supervised, real-time cardiac rehabilitation (CR) exercise training to groups of adolescents with congenital heart disease (CHD) in their homes. Participants will be randomized to either the remote cardiac rehab (RCR) group or active control group. The RCR group will participate in live, group-based exercise training (3-5 participants per exercise session), in their homes 3 days per week for 45 minutes over 12-weeks. Exercise sessions will be led and supervised by a live health coach via telehealth video technology. The active control group will be provided informational handouts on health exercise for their cardiac diagnosis. The primary aim is to compare between group changes (0-12-weeks) in cardiorespiratory fitness (VO2peak). Secondary aims are to compare between group changes (0-12-weeks) in cardiac function (echocardiography), lean body mass, and physical frailty. Exploratory aims will compare between group changes (0-12-weeks) in physical function, quality of life, skeletal muscle function, and physical activity self-efficacy. Additionally, exploratory aims will explore the impact of demographic characteristics, program participation, program satisfaction, and daily physical activity on changes in cardiorespiratory fitness.
NCT07558902
This is a single-center, prospective, single-arm clinical trial to evaluate the efficacy and safety of renal denervation (RDN) using a multi-channel radiofrequency ablation system in patients with symptomatic heart failure, including both heart failure with reduced ejection fraction (HFrEF) and heart failure with preserved ejection fraction (HFpEF). The primary objective is to determine whether RDN can reduce serum N-terminal pro-brain natriuretic peptide (NT-proBNP) levels from baseline to 6 months post-procedure, and improve functional exercise capacity as measured by the six-minute walk test (6MWT). Approximately 20 eligible participants will undergo the RDN procedure while continuing their optimal guideline-directed medical therapy for heart failure. Assessments will be performed at baseline (pre-procedure), and at 30 days, 3 months, and 6 months post-procedure. Key evaluations include NT-proBNP measurement, echocardiography, 6MWT, New York Heart Association (NYHA) functional class assessment, and safety monitoring for adverse events. The study aims to provide preliminary clinical evidence on the effects of multi-channel RDN on cardiac biomarkers, functional status, and safety in heart failure patients, and to explore its potential as an adjunctive therapy for this population.
NCT07096726
The purpose of this study is to analyze the utility of a novel five-point ultrasound as a predictor of volume overload in diverse patients who are admitted with volume overload/congestive heart failure (CHF) exacerbation at Boston Medical Center (BMC), the largest safety-net hospital in New England. Current standard of care (SOC) involves the utilization of laboratory markers and physical exam, which is often inconsistent and equivocal. The investigators will assess will assess if ultrasound-assisted diuresis reduces recurrent episodes of volume overload/decompensated heart failure.
NCT07083011
The purpose of this study is to assess the performance of 68Ga- FAPI PET in heart failure with preserved ejection fraction (HFpEF)
NCT06307652
This is a Phase III, international, multi-centre, randomised, double-blind, parallel-group, double-dummy, active-controlled, event-driven study in patients with chronic HF and impaired kidney function who had a recent HF event. The aim is to evaluate the effect of balcinrenone/dapagliflozin vs dapagliflozin, given once daily on top of other classes of SoC, on CV death and HF events.
NCT03507205
The objective of this study is to evaluate the long-term efficacy and safety of coronary stenting with the various types of drug-eluting stents (DES) and to determine clinical device and procedural success during commercial use of DES in the real world. The investigators will compare EES (Xience V/Promus and Xience Prime), SES (Cypher), ZES (Resolute Integrity, Endeavor Resolute, Endeavor), and BES (Biomatrix, Biomatrix Flex, and Nobori).
NCT07352891
DigiCare-HFrEF is an investigator-initiated, multicentre, randomised, open-label, endpoint-blinded, superiority trial designed to evaluate whether a structured digital remote-management platform can optimise guideline-directed medical therapy (GDMT) in patients with heart failure with reduced ejection fraction (HFrEF) after hospital discharge. Eligible adults (≥18 years) with a confirmed diagnosis of HFrEF within the past 3 months (left ventricular ejection fraction ≤40%) who are not optimally treated with GDMT-defined as at least two of the four foundational drug classes (ACEi/ARB or ARNi, β-blocker, MRA, SGLT2 inhibitor) either not initiated or prescribed at \<50% of the target dose-will be randomly assigned in a 1:1 ratio to digital remote management or usual care. In the intervention arm, patients will report symptoms and key physiologic measures (e.g., blood pressure, heart rate, and body weight) via the platform; an algorithm will perform risk stratification and generate GDMT optimisation suggestions and decongestion prompts, as well as a comprehensive management for core health metrics, which are reviewed and confirmed by clinicians before implementation. The primary endpoint is the change in GDMT score from baseline to 3 months (ΔGDMT).
NCT07324720
1. Study Purpose This study aims to compare clinical outcomes between two revascularization strategies in patients with high-risk coronary artery disease and 50-90% angiographic stenosis: a plaque burden and vulnerability-based revascularization strategy guided by intravascular imaging versus an ischemia-based revascularization strategy guided by physiologic assessment. 2. Background Percutaneous coronary intervention (PCI), in conjunction with optimal medical therapy, is one of the main therapeutic strategies for improving outcomes in patients with CAD. To enhance the results of PCI, various diagnostic and adjunctive techniques have been developed-most notably, invasive physiologic assessment and intravascular imaging (IVI). Invasive physiologic indices such as fractional flow reserve (FFR) and instantaneous wave-free ratio (iFR) are recognized as the most accurate methods to determine vessel-level myocardial ischemia, and current guidelines recommend PCI based on these physiological measurements. Recently, angiography-derived FFR has also been developed, allowing ischemia assessment without pressure wire measurement, and has been endorsed as a useful tool for guiding PCI decisions. Intravascular imaging, on the other hand, provides detailed anatomical insights into atherosclerotic plaque morphology and plays a critical role in achieving procedural optimization. Current guidelines recommend the use of IVI, particularly in the treatment of complex lesions. While most previous IVI studies have focused on procedural optimization, more recent investigations have begun to explore the use of IVI for PCI decision-making itself. Emerging data suggest that revascularization decisions based on quantitative and qualitative plaque assessment using IVI are non-inferior to those based on invasive physiologic testing. Moreover, IVI enables the identification of vulnerable plaques, and studies indicate that intervening on such lesions may improve outcomes. At present, a physiology-guided decision-making strategy combined with IVI-guided optimization is considered the best evidence-based approach according to guidelines. However, recent data showing the potential advantages of IVI-guided decision-making and IVI-guided optimization-particularly in high-risk, complex patients and in those with vulnerable plaque morphology-suggest that IVI-based strategies may offer greater clinical benefit in such populations. Despite this, a comprehensive strategy that integrates both quantitative (plaque burden) and qualitative (vulnerability) aspects of plaque evaluation via IVI has yet to be clearly established. Therefore, this study seeks to propose IVI-based quantitative and qualitative criteria for high-risk CAD patients and to compare outcomes between a plaque burden and vulnerability-based revascularization strategy and the conventional ischemia-based revascularization strategy. For all patients undergoing PCI, IVI-guided optimization will be performed to ensure the highest possible procedural quality in both groups. 3. Study Procedures Patients undergoing coronary angiography for suspected or known CAD will be screened for eligibility. After providing a detailed explanation of the study, written informed consent will be obtained from those deemed appropriate for participation. Following coronary angiography, patients with significant coronary stenosis who meet all inclusion and no exclusion criteria will be enrolled in the study. Eligible participants will then be randomized in a 1:1 ratio to either the plaque burden and vulnerability-based revascularization group or the ischemia-based revascularization group. Stratified randomization will be performed according to participating center and presence or absence of acute coronary syndrome (ACS) to ensure balance between the groups.
