Loading clinical trials...
Loading clinical trials...
Showing 1-20 of 1,730 trials
NCT07136012
The primary objective is to evaluate the effect of olpasiran, compared to placebo, on the risk for coronary heart disease death (CHD death), myocardial infarction, or urgent coronary revascularization in participants at risk for a first major cardiovascular event with elevated lipoprotein(a) (Lp\[a\]).
NCT07669168
The Health Ahead Comparative Effectiveness Study is a pragmatic, parallel-arm interventional platform that systematically compares successive changes to preventive health screening - each isolated as a single variable against current practice - on the path toward a fully automated screening system deployable in any environment, including the most isolated and resource-limited communities. Each comparison is evaluated with a common set of engagement, behavior-change, experience, cost, and longitudinal outcome measures, allowing results to accumulate on a consistent yardstick across the life of the platform. The first comparison evaluates static versus interactive personalized health report delivery. Subsequent pre-planned comparisons, added by protocol amendment, evaluate mobile community versus fixed laboratory screening; and a hybrid medical-droid plus human-delivery model versus human-only screening. All participants are simultaneously enrolled in the 100-Year Human Aging Study and the Human Observatory Study, contributing individual longitudinal and population-level causal inference data through those protocols.
NCT02991703
Arterial stiffness is an important marker of cardiovascular risk. It is measured by pulse wave velocity. The reference device to measure pulse wave velocity is the Sphygmocor which uses applanation tonometry. It is used in adults and children. An easier method called pOpmètre using saturation sensors is validated in adults but not in children. The objective of this study is to compare the pulse wave velocity values measured with the pOpmètre® with those of the SphygmoCor® to validate the pOpmètre in children between 4 and 8 years old.
NCT07256249
Selution Iberia registry is a post-market clinical follow-up, prospective, multicenter, international, longitudinal, observational study without a control group of consecutive unselected "real-world" patients with coronary artery disease in whom it was decided to use the SELUTION SLRTM device in the treatment of primary native lesions and ISR (in-stent restenosis) in all settings, in order to evaluate its effectiveness and safety. The primary objective is to evaluate the effectiveness and safety of the Sirolimus-eluting balloon SELUTION SLRTM based strategy in the treatment of native coronary artery stenosis and in-stent restenosis. The primary endpoint will be the incidence of major adverse cardiovascular events at 12 months, including death, non-fatal myocardial infarction or target lesion revascularization for ischemia, in an unselected "real-world" patient setting. Both Device Oriented Composite Endpoint (Cardiovascular death, device failure-related myocardial infarction or device failure-related ischaemia) and Patient Oriented Composite Endpoint (all cause death, any stroke, any myocardial infarction or any revascularization) will be detailed.
NCT07654231
The overall objective of this pilot randomized clinical trial is to determine whether low-dose Colchicine (LoDoCo) improves vascular disease including vascular calcification, peripheral arterial disease (PAD), and chronic kidney disease-mineral and bone disorder (CKD-MBD) biomarkers in patients with chronic kidney disease (CKD) stage 3 over a 12-month intervention period, compared with usual care. Successful completion of this study will generate critical preliminary data to support a larger clinical trial aimed at evaluating inflammation-targeted therapies to mitigate CKD-MBD, including vascular calcification and related PAD, as well as osteoporosis, ultimately reducing cardiovascular events and mortality in patients with CKD. Additionally, this work has the potential to redefine the diagnostic framework for CKD-MBD.
NCT06675552
Heart failure (HF) is a global public health issue that affects more than 63 million people worldwide. The clinical and economic burden of HF on health care systems is substantial. Heart failure with reduced ejection fraction (HFrEF) represents approximately 50% of the HF patient population.The burden of HF is expected to increase substantially as the population ages, and despite improvements in treatment, hospitalisation and mortality rates remain especially high in HFrEF patients. The current guideline recommendation of directed medical therapy for HFrEF combines four drug classes with proven prognostic benefit: Angiotensin receptor-neprilysin inhibitor (ARNI)/angiotensin converting enzyme inhibitors (ACE I)/angiotensin receptor blockers (ARB), betablockers (BB), mineralocorticoid receptor antagonists (MRA), and sodium-glucose co-transporter 2 inhibitors (SGLT2i). The 2023 ESC (European Society of Cardiology) HF guideline update additionally recommends a rapid in-hospital sequencing approach of guideline-directed medical therapy (GDMT) with frequent physician visits during the first 6 weeks post discharge. Studies investigating the implementation of GDMT in a real-world setting have shown that a significant proportion of patients did not receive the recommended drug combination therapy. Delayed initiation of GDMT contributes to the low number of patients receiving guideline concordant HFrEF therapy, which ultimately may affect patient outcomes. One approach to implement the 2023 ESC guideline updates for heart failure treatment regarding early in-hospital initiation and rapid up-titration of GDMT could be to provide specific training on GDMT recommendations. Such a standardised training is offered to the physicians treating HF patients within selected hospitals of the German Helios hospital network (Helios-GDMT-program). Evidence is needed in order to assess whether in-hospital initiation and up-titration of all phenotype concordant classes of GDMT at hospital discharge can be observed after standardised physician training and whether the GDMT-program implementation also translates into real-world routine outpatient care with respect to use of GDMT and clinical outcomes.
NCT07465926
This retrospective observational target-trial emulation uses electronic health record data from the TriNetX US Collaborative Network to compare early treatment intensification strategies in adults with obesity, type 2 diabetes, and cardiovascular-kidney-metabolic stage 2-3 who initiate a GLP-1 receptor agonist or an SGLT2 inhibitor. The study compares patients who, within 90 days of starting background therapy, add the alternate agent, add a DPP-4 inhibitor or sulfonylurea, or do not receive early add-on therapy. The primary outcome is all-cause mortality over 36 months, with secondary cardiorenal outcomes also evaluated. Propensity-score methods are used to reduce bias from nonrandom treatment selection.
NCT07613294
Lipoprotein(a), also known as Lp(a), is a protein that carries cholesterol and proteins in your blood. People with high Lp(a) have a higher risk for heart disease. The main purpose of the study is to investigate how lepodisiran, compared to a placebo, affects the amount and type of plaque in the heart's vessels using an imaging technology known as Coronary Computed Tomography Angiography (CCTA) in adults who have high levels of Lp(a). Participation will last about 120 weeks.
NCT07517263
This open-label extension study will provide post-trial access to pelacarsen (TQJ230) to participants who have successfully completed the double-blind parent study (CTQJ230A12301).
NCT05485961
This is a two-part, phase 2b and phase 3 combined prospective, interventional, multicenter, randomized, double-blind, placebo-controlled study. Part 1: Phase 2b is a dose-finding study for CSL300 vs placebo. Part 2: Phase 3 aims to assess the efficacy of CSL300 vs placebo on cardiovascular (CV) outcomes and safety in subjects with systemic inflammation and either atherosclerotic cardiovascular disease (ASCVD) or diabetes with end stage kidney disease (ESKD) undergoing maintenance dialysis.
NCT06281665
The objective of this research project is to conduct a single-site pilot trial to assess the feasibility and effect of low-dose aspirin to augment vascular recovery in the immediate postpartum period after preeclampsia through two specific aims: 1) to pilot test the feasibility of conducting a randomized controlled trial of postpartum low dose aspirin vs. placebo, and 2) to assess the effect of postpartum aspirin on endothelial function and blood pressure. Our central hypothesis is that postpartum administration of low-dose aspirin following preeclampsia will be feasible, improve endothelial function, and lower BP at 6 months postpartum. Subjects will undergo 3 study visits involving BP measurements, blood draws, questionnaires, and/or microiontophoresis. Up to 60 adult subjects will be enrolled at Magee-Women's Hospital.
NCT06903442
Some patients who come to the emergency department with chest pain and have not had a heart attack, are at an increased risk of having a heart attack in the future. The investigators know this by taking a blood test (troponin) which looks at damage to the patient's heart. These patients are often sent home from hospital with no information about their risk of heart disease. A patient survey revealed that patients in the emergency department would like to receive more information about heart disease. In this study the investigators will provide patients who are at increased risk of cardiovascular disease with their troponin value. The investigators will deliver this information within a cardiovascular brief intervention, which is a short conversation with a patient about their health. In a previous study the investigators carried out some interviews with patients to find out how their results should be delivered and what information should be included in a cardiovascular brief intervention. The investigators also asked them the best way to provide patients with this information. The aim of this part of the study it to determine if the new cardiovascular brief intervention helps patients understand their risk and if it results in them making changes to their health.
NCT07615296
The goal of this clinical trial is to learn whether an ultra-low LDL-C target (\<1.0 mmol/L) can improve clinical outcomes compared with a moderately low LDL-C target (1.0-1.39 mmol/L) in Chinese patients with extreme-high-risk atherosclerotic cardiovascular disease (ASCVD). It also aims to evaluate long-term safety and cost-effectiveness, and explore potential benefit subgroups and underlying mechanisms. The main questions it aims to answer are: Does an LDL-C target \<1.0 mmol/L reduce major adverse cardiovascular events (MACE-4: cardiovascular death, non-fatal myocardial infarction, non-fatal ischemic stroke, urgent coronary revascularization) compared with a target of 1.0-1.39 mmol/L?What are the long-term safety risks including cognitive decline, hemorrhagic stroke, new-onset diabetes, new malignancies and severe adverse drug reactions under different LDL-C targets?Researchers will compare participants receiving an LDL-C target \<1.0 mmol/L with those receiving a target of 1.0-1.39 mmol/L to see if the ultra-low LDL-C strategy provides better clinical benefit with acceptable safety and economic value. Participants will: Receive lipid-lowering therapy following a mandatory titration-maintenance-off-target correction algorithm according to their assigned LDL-C target Undergo routine follow-up every 3 months, cognitive assessment every 6 months, and comprehensive annual re-examinations for a median of 2 years and up to 5 years Have centralized blinded lipid testing and endpoint adjudication by an independent Clinical Event Committee
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.
NCT06249776
The study aims to evaluate the safety and efficacy of the Supernova stent retriever device, developed by Gravity Medical Technology, for treating acute ischemic stroke. The device is used to remove blood clots and restore blood flow to the brain .
NCT07604207
What if heart disease starts outside the heart? This research will study how to simultaneously assess brain and body physiology, how they are jointly related to heart function, and how their response to physical and mental stress differs in patients with heart disease.
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.
NCT06303869
The goal of this study is to verify whether the use of deep brain stimulation can improve motor function of the hand and arm and speech abilities for people following a stroke. Participants will undergo a surgical procedure to implant deep brain stimulation electrode leads. The electrodes will be connected to external stimulators and a series of experiments will be performed to identify the types of movements that the hand and arm can make and how speech abilities are affected by the stimulation. The implant will be removed after less than 30 days. Results of this study will provide the foundation for future studies evaluating the efficacy of a minimally-invasive neuro-technology that can be used in clinical neuro-rehabilitation programs to restore speech and upper limb motor functions in people with subcortical strokes, thereby increasing independence and quality of life.
NCT07013929
The purpose of the Spyral InSight Early Clinical Feasibility Study is to characterize the physiological response to renal nerve stimulation (RNS) in humans prior to and post renal denervation.