View clinical trials related to Plaque, Atherosclerotic.
Filter by:The purpose of this study is to evaluate whether the results of drug eluting balloon are non-inferior to the Nitinol stent implantation in the femoropopliteal segment.
Objectives: To compare the effects of clopidogrel versus ticagrelor on atherosclerotic plaque inflammation using serial FDG PET/CT imaging of carotid artery and ascending aorta. Hypothesis: Thrombosis and inflammation are tightly linked rather than separate entities. Therefore, P2Y12 receptor inhibitors may have an anti-ischemic effect by inhibiting plaque inflammation, and ticagrelor may be superior in efficacy to clopidogrel.
This will be a pilot study of 9 patients undergoing standard-of-care clinically indicated carotid endarterectomy. The nine patients will receive an injection of Indocyanine green (ICG) at a dose of 0.25 mg/kg (maximum 25 mg) as an intravenous bolus. Immediately following endarterectomy, the resected specimen will be immersed in normal saline. Ex vivo fluorescence reflectance imaging (FRI) and immunohistochemistry will be performed. The investigators hypothesize that compared to controls, ICG-injected patients will demonstrate increased ex vivo and microscopic ICG fluorescence signal within areas of plaque.
Biofilm has been identified as the major bacterial phenotype contributing to atherosclerosis. It has become very important to evaluate atherosclerosis and the role of biofilm using advanced technologies. It is also important to understand wound biofilm at a genetic and a molecular level.
The possibility to identify the risk of rupture of a carotid plaque will have tremendous impact in clinical decision making. A vulnerable plaque is considered to have a large lipid rich necrotic core (LRNC), a thin fibrous cap, the presence of inflammatory cells, intraplaque haemorrhage and/or neovascularisation (vasa vasorum). The investigators aim to validate imaging of plaque vulnerability with histology. Previous studies have evaluated the use of imaging to assess carotid plaque vulnerability, mostly showing a good correlation between imaging and histology and/or clinical characteristics. However, they have focused on single modalities, (magnetic resonance imaging [MRI], multidetector-row computed tomography (MDCT), ultrasonography (US) or transcranial Doppler (TCD), and have used relatively small cohorts The primary goal of this study is to investigate whether there is a correlation between neovascularisation in the carotid atherosclerotic plaque as observed with 3.0 Tesla dynamic contrast-enhanced MRI and histology. Moreover, the investigators aim to investigate the correlation between the volume of the LRNC as determined by dual-energy CT and histology. Secondly, the investigators will investigate the correlation between the volume of the LRNC, the fibrous cap status and the volume of the calcifications determined by MRI versus histology, the correlation between number of microembolisms and fibrous cap status and the correlation between the deformation pattern seen with ultrasound and the volume of the LRNC. The imaging parameters showing good correlation with plaque vulnerability characteristics can be used for further analysis in assessing the vulnerable plaque
The purpose of this study is to investigate the antiatherogenic effect of GSPE in clinical use
Gingival inflammation has been associated with cardiovascular diseases, including heart attack and stroke, because of elevation of blood risk markers such as cholesterol, glucose and C reactive protein. The treatment of gingival diseases decreases the concentration of these risk factors in the blood of cardiovascular patients.
Comparison of Fractional Flow Reserve versus instant Wave-Free Ratio for assessment of coronary artery stenosis severity in routine practice - To compare FFR to iFR in arbitrary consecutive patients referred for percutaneous coronary intervention (PCI). - To investigate the influence of hyperemia on iFR. - To test reproducibility of iFR and FFR.
People with diabetes are at increased risk for atherosclerosis and have high CVD morbidity and mortality rates. Tools for detecting and quantifying atherosclerotic pro/regression in people with diabetes and other CVD risk factors lack sensitivity and specificity for molecular level events that occur during the early stages of atherogenesis. Inflammatory macrophage infiltration in the vessel endothelium is an early, molecular level proatherogenic event. Activated macrophages consume glucose at a high rate. Novel in vivo radiotracer PET/CT techniques have been developed to detect, image and quantify molecular level events like macrophage inflammation and glucose utilization (18FDG) in human vessels. We propose to develop and test this novel technique in the Center for Clinical Imaging Research (CCIR) at WUMS. We propose that HIV-infected people with significant CVD risk profiles are a suitable, unique human model for testing these novel imaging techniques. HIV-infected people taking anti-HIV medications develop insulin resistance, T2DM, dyslipidemia, central adiposity, and hypertension. HIV replicates in macrophages and represents a chronic proinflammatory condition. Recent data indicate that HIV+ CVD risk have greater risk for atherosclerosis and MI than HIV-negative people. To test feasibility, we hypothesize that: a.18FDG-PET/CT imaging will detect more macrophage glucose uptake and inflammation in the carotid and aorta arteries of HIV-infected people with CVD risk than in HIV-negative controls; b. radiotracer PET/CT measures of proatherogenic processes will correlate with carotid intima media thickness; a standard measure of carotid atherosclerotic burden. We propose to obtain pilot data that shows feasibility for a novel analytical approach that will expand capabilities for researchers interested in studying the links between diabetes, inflammation, and CVD in humans.
The purpose of this study is to utilize high-resolution CMR carotid imaging for the characterization of carotid wall volumes and plaque content in patients with clinical significant carotid atherosclerosis. Patients who are scheduled to undergo an imaging procedure will be recruited from the cath lab. Upon enrollment, blood samples conventional and genetic profiling will be collected. For patients undergoing a carotid endarterectomy, tissue from the carotid vessel will be collected during their procedure. Comparison of the MR images with tissue and/or blood samples will be made. Length of time in the study will be approximately 1 day. There will be no study-related patient follow-up.