Active clinical trials for "Atherosclerosis"

The cerebral and spinal vasculature possesses several unique properties: it is composed of relatively small vessels, it has a highly connected network architecture, and, due to the confined space around the brain, disruptions in flow (rupture, shunting, or blockage) can cause a clinical impact quickly. These features apply across various pathological conditions that alter the distribution of blood through the cerebral vasculature, such as aneurysm, intracranial atherosclerotic disease (ICAD) and arteriovenous malformation (AVM) as well as others. Neurovascular disease is a leading cause of mortality due to stroke in the United States and encompasses a broad range of pathologies including but not limited to cerebral arteriovenous malformation, intracranial atherosclerotic disease, intracranial aneurysms and other neurovascular abnormalities. Novel modalities for assessing disease states in patients with these pathologic conditions are constantly being developed and the understanding of risk factors, disease progression, and effective therapy is rapidly evolving. Neurovascular imaging is at the forefront of this progress. The identification of new predictive biomarkers regarding the risk of rupture, progression, or recurrence will improve prognosis and treatment planning. In this study, there will be evaluation of the various types of brain lesions and different treatment options that have been used by the treating physicians and, grade outcome based on the standard of care MRI imaging. This can help the Investigators stratify the treatment routes, that are better than the other by assessing the mortality and morbidity rates. Investigators are evaluating intracranial lesions and their treatment outcomes can help analyze which standard of care treatment is better than the others at a setting like Northwestern.

SEMA-VR is a prospective, randomized, 6-month long, open-label study of semaglutide. Approximately 100 participants with type 2 diabetes and/or obesity will be randomized (1:1) to receive semaglutide at escalating doses (up to 1.0 mg/week) or usual care without semaglutide for 6 months. The goal of this trial is to understand how semaglutide exerts cardio-protective effects in people with type 2 diabetes and/or obesity. The main question it aims to answer is: • Does semaglutide treatment preserve or increase the number of vessel-repairing cells circulating in the blood? Participants will: Be allocated to receive either semaglutide or usual care for 6 months Provide a blood sample at the baseline visit and another blood sample at the 6-month visit Researchers will compare participants receiving semaglutide to those receiving usual care for any differences in the 6-month change in the number of vessel-repairing cells in the blood.

The goal of this cross over study is to investigate the effect of short term time restricted eating (TRE) on the innate immune system in patients with a history of myocardial infarction.

This is a 2-part (phase 2b/3) 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 on CV outcomes and safety in subjects with ASCVD or diabetes mellitus and evidence of systemic inflammation who are undergoing maintenance dialysis.

The purpose of this study is to characterize the distribution of lipoprotein(a) (Lp(a)) levels among participants with a history of ASCVD as defined by their medical history and is 2-fold: Evaluate the distribution of Lp(a) value in the overall participants with documented history of ASCVD Evaluate the distribution of Lp(a) value in participants with documented history of ASCVD by demographics and regions

Atherosclerosis is the underlying cause of the majority of cardiovascular diseases, including myocardial infarction and strokes, and results in tremendous morbidity and mortality. A Western-type diet is a major risk factor for atherosclerosis because of the high saturated fat, cholesterol, and refined carbohydrate contents. Dietary strategies to reduce cardiovascular disease burden therefore focus on restriction of saturated fat, cholesterol, and refined carbohydrates whereas "lean" protein intake is recommended and has become popular. However, results from studies conducted in animal models suggest high dietary protein intake is also atherogenic. The investigators' extensive preliminary data in animal models show that dietary protein increases atherosclerotic plaque formation and size and promotes necrotic core formation, a characteristic of rupture-prone plaques. The goal of the current proposal is to provide deeper insights into the relationship between protein intake and the pathogenesis of atherosclerosis by studying the mechanisms involved in protein-mediated atherogenesis and formation of necrotic plaques. The overarching hypothesis is that high protein intake drives atherosclerosis via leucine-mediated mTORC1 signaling in macrophages, which inhibits macrophage mitophagy and aggrephagy and stimulates macrophage proliferation. Furthermore, the investigators hypothesize that proteins from animal sources are more atherogenic than proteins from plant sources, because animal proteins contain more leucine than plant proteins. The investigators will test these hypotheses by using a sophisticated array of experimental strategies, including assays in primary macrophages and human monocyte-derived macrophages and genetically engineered mouse models. In addition, they will begin to translate the results obtained in vitro and in animals to people, and explore approaches to pharmacologically target the pro-atherogenic pathways as novel cardiovascular therapeutics. This proposal represents a paradigm shift in how a Western-type diet affects vascular health which has important implications since many adults in Western societies consume excess protein and dietary protein is heavily marketed for its presumed beneficial health effects.

The plot study aims to evaluate the effect of 8 weeks of stress reducing intervention on atherosclerotic plaque inflammation in adults, as quantified by positron emission tomography (PET) with fluorine-2-deoxy-D-glucose (FDG) in individuals with increased psychosocial stress.

The POLARSTAR study is an early feasibility study to evaluate the performance and safety of the CryoTherapy System (CTS) for the treatment of coronary plaque lesions that are not obstructing blood flow but are at high-risk of rupture which would cause a major heart attack. The CTS is used to apply local freezing of the lesion using a balloon catheter, controlled by a console that regulates in- and outflow of a cooling agent into the catheter. The treatment is expected to stabilize the lesion, diminishing the risk of rupture. The study will enrol subjects with acute coronary disease who have suitable coronary lesions. Subjects will be followed for 1 year after the CTS treatment. Baseline identification of lesions will be done using Coronary CT-angiography (CCTA), which will be repeated at 3 and 9 months after procedure.

This study proposes to develop an MRI technique named Coronary Atherosclerosis T1-weighed Characterization (CATCH) that will improve the quality and reliability of coronary atherosclerosis evaluation, as well as simplify the scanning process and significantly shorten imaging time compared with conventional imaging methods.

This study will be a placebo-controlled, double-blind, randomized, phase 3 study in participants with underlying heterozygous familial hypercholesterolemia (HeFH) and/or ASCVD to evaluate the efficacy, safety, and tolerability of obicetrapib as an adjunct to diet and maximally tolerated lipid-lowering therapy