View clinical trials related to Plaque, Atherosclerotic.
Filter by:Branch atheromatous disease (BAD)-related stroke, characterized by subcortical single infarcts without severe stenosis of the large artery, but with a clear atherosclerotic mechanism, is now regarded as a separate stroke type. BAD is associated with early neurological deterioration and poor prognosis, but is lack of effective therapy. The goal of this randomized controlled trial is to test the efficacy and safety of intravenous tirofiban in patients with acute ischemic stroke caused by branch atheromatous disease. The main question it aims to answer is: Compared with standard antiplatelet therapy based on current stroke guideline, whether tirofiban used in acute phase of BAD could improve the proportion of excellent functional outcome (modified Rankin Scale: 0-1) at 90 days. Researcher will also compare the rate of major bleeding between treatment and control groups.
The goal of this observational study is to develop an automatic whole-process AI model to detect, quantify, and characterize plaques using coronary CT angiography in coronary artery disease patients. The main questions it aims to answer are: 1. Whether the AI model enables to detect and quantify coronary plaques compared with intravascular ultrasound or expert readers; 2. Whether the AI model enables to identify vulnerable plaques using intravascular ultrasound or optical coherence tomography as the reference standard. 3. Whether the AI model enables to predict future adverse cardiac events in a large cohort of 10,000 patients with non-obstructive CAD.
The goal of this clinical trail is to compare the differences in carotid plaque Treg cells' gene signature for activation, proliferation, and suppressive function using scRNA-seq in patients treated with IL-2 compared to control.
To evaluate the association of surem TRAF3IP2 levels with the atherosclerotic plaque development in human
Air pollution, microplastics and climate change pose serious public health risks. In recent years, air pollution has been associated with an increased risk of morbidity, all-cause mortality, cardio-respiratory-related mortality, and cancer. A growing body of evidence has recently confirmed a direct association between particulate matter with an aerodynamic diameter less than or equal to 2.5 mm (PM2.5), Ozone (O3) and aromatic polycyclic hydrocarbons with all-cause mortality irrespective of social context and geographic or economic disparities, suggesting a causal relationship between the two factors. The effects of air and environmental pollutants on public health have been observed also for short-term exposure to rapid increases in particulate matter. High PM 2.5 values have also been associated with a higher rate of atherosclerosis and coronary artery disease expressed by high calcium score values, with the elderly, male and diabetic patients being at greater risk. To date, however, the pathophysiological basis of the relationship between air pollutants, and long-term events remains speculative, and there is no evidence that can correlate the concentration of environmental pollutants directly with anatomical-pathological and/or biomolecular alterations. In this study the investigators will assess the presence and the burden of pollutants within the carotid plaques from patients undergoing carotid endarterectomy with pyrolysis-gas chromatography-mass spectrometry and electronic microscopy. Plaque stability will be explored trough molecular markers. Participants will be followed up for a composite of myocardial infarction, stroke, and all-cause mortality to evaluate whether the presence and the abundance of pollutants are associated with the development of the outcome through adjusted Cox regressions.
Intracranial atherosclerotic disease is the most common cause of ischemic stroke in Asia, also in China. Currently, despite vascular recanalization therapy, statins are one of the main drug choices for treating atherosclerotic plaque. High resolution magnetic resonance imaging (HRMRI) can accurately assess the status of intracranial and extracranial arterial plaque, and has high consistency with histopathology. Thus, HRMRI technology has been widely used to monitor the efficacy of drug treatment for atherosclerotic plaque in clinical trials or practice. As a non-invasive technique, HRMRI make it possible to assess the morphologic characteristics of vascular wall and plaque composition of intracranial artery in vivo. It can quantitative analysis including components such as lipid-rich necrotic core, fiber cap thickness, intra-plaque hemorrhage, calcification, etc. Therefore, it is crucial for evaluating the etiology of ischemic stroke and developing secondary prevention strategies. At present, there is a lack of large-scale and prospective study to evaluate the etiology of ischemic stroke including cryptogenic stroke based on HRMRI. In this context, this study aims to establish a multi center HRMRI database of intracranial arteries among Chinese patients with ischemic stroke.
Evaluation of carotid plaque vulnerability based on ultrasound imaging features, proteomics and metabolomics: a clinical multicenter study
The goal of this observational study is to learn more about plaque biology in asymptomatic carotid artery stenosis (ACAS) patients through imaging. The main questions it aims to answer are: - To determine the ability of 64Cu-CANF-Comb positron emission tomography (PET) to risk stratify ACAS patients for stroke event, to include transient ischemic attack or remote ipsilateral intervention. - To further understand the role of Natriuretic Peptide Receptor C (NPRC) in the evolution of carotid atherosclerosis. Participants will be asked to undergo a carotid PET-magnetic resonance imaging (MRI) examination to assess whether the carotid atherosclerosis uptake of 64Cu-CANF-Comb as measured by PET-MRI correlates with patient outcomes (stroke, transient ischemic attack, or remote ipsilateral intervention).
The rupture or erosion of an atherosclerotic plaque with thrombosis or embolization often underlie heart attacks and strokes. The early identification of patients with atherosclerotic plaques prone to rupture or erosions, vulnerable plaques (VP), and their treatment before the occurrence of events is, therefore, one of the greatest cardiovascular challenges today. Possible approaches for early detection of VP include imaging techniques allowing visualization of plaque structure, circulating biomarkers and better understanding of the pathophysiologic mechanisms of the disease. In the carotid plaque imaging project the investigators study human atherosclerotic plaques (that are removed by endarterectomy) to disclose their underlying structure and mechanisms, finding possible novel therapeutic targets or markers for VP. The investigators also study plaque structure with imaging methods and try to develop new ways to detect VP using circulating or imaging markers.
Primary Study Objective : To compare the effects of low-dose rivaroxaban plus aspirin versus aspirin on atherosclerotic plaque inflammation using serial FDG Positron Emission Tomography/Computed Tomography(PET-CT) imaging of carotid artery and ascending aorta. Secondary Study Objective : To compare the effects of low-dose rivaroxaban plus aspirin versus aspirin on biomarkers including high-sensitivity C-Reactive Protein(CRP) and lipid profiles.