Active clinical trials for "Carotid Artery Diseases"

Tandem occlusion is defined by an acute ischemic stroke (AIS) with concomitant steno-occlusive disease of the extra cranial carotid artery and concerned about 10% of AIS patients. Whereas endovascular treatment has shown its efficiency in AIS by large vessel occlusion (LVO), to date, there is no consensus on the endovascular management of the extra cranial carotid artery in tandem occlusion. Only few of them were included in previous randomized trials who evaluated mechanical thrombectomy and were often listed in the non-inclusion criteria. Therapeutic management of this population was not specifically addressed in recent trials. Endovascular management can be complex with the need of acute stenting of the extra cranial carotid lesion along with the potential need of antithrombotic therapy initiation, the benefit and the safety of stenting of the cervical lesion in acute phase of AIS have shown encouraging results but however remains to be assessed. The TITAN (Thrombectomy In TANdem lesion) trial aims to demonstrate the superiority of the combined use of intracranial thrombectomy and extracranial carotid stenting compared to intracranial thrombectomy alone on the complete reperfusion rate in patients with acute ischemic stroke due to tandem lesion.

Digital Variance Angiography (DVA) is a new tool in medical imaging with a proven image quality reserve (1, 2). Previous studies have demonstrated the quality reserve of DVA in angiographic studies (1, 2), which allowed us to reduce contrast media use by 50% in carotid artery angiographic studies without affecting the image quality (3). CAS is an alternative treatment option for carotid artery revascularization in selected patient groups. Similar to most of the minimally invasive endovascular interventions, CAS also carries the risk of contrast-induced acute kidney injury, which is considered to be an independent predictor of 30-day major adverse events (4). The aim of this study is to apply DVA in patients undergoing carotid artery stenting (CAS) and utilize this technique to reduce contrast dose during the interventions, without affecting the intraprocedural radiation dose and the clinical outcome of the procedures. Investigators believe that the reduction in contrast media use and the associated image quality with the technique of DVA imaging can be incorporated into the everyday clinical practice, and will play an important role in improving the rate of contrast-induced acute kidney injury.

A prospective, multicenter single-arm, open label study to evaluate the safety and effectiveness of the Neuroguard IEP System for the treatment of carotid artery stenosis in subjects at elevated risk for adverse events following carotid endarterectomy (CEA). The Neuroguard IEP System is a 3-in-1 carotid stent delivery system consisting of an angioplasty balloon, an integrated embolic protection device and a nitinol self-expanding stent loaded over the balloon and constrained by an outer sheath. Eligible patients between 20 and 80 years of age have been diagnosed with either de-novo atherosclerotic or post CEA restenotic lesion(s) in the internal carotid arteries (ICA) or at the carotid bifurcation with ≥50% stenosis if symptomatic or ≥80% stenosis if asymptomatic (both defined by angiography using NASCET methodology). Symptomatic patients are defined as having stroke or TIA ipsilateral to the carotid lesion within 180 days of the procedure within the hemisphere supplied by the target vessel. Enrolled subjects will be followed at 30 days, 6 months, 12 months, 24 months and 36 months.

: Use of novel radio-pharmaceutical 64CUDOTA-ECL1i to evaluate arterial atherosclrosis

The present study aims at assessing the ability of 68Ga-NODAGA-RGD PET/CT for the detection of inflammatory atheromatous plaques in the carotid arteries, compared to 18F-FDG PET/CT, MRI and US and to determine the contribution of each imaging technique. Current gold standard for inflammation is histopathology. Hypothesis : 68Ga-NODAGA-RGD might give a better initial evaluation of patients with atheromatous plaques in the carotid artery eligible for endarterectomy.

Stroke is the second leading cause of death in the Western world and the leading cause of major lifelong disability. About 15% of strokes are secondary to thrombosis or embolization of an unstable atheromatous carotid plaque. In these symptomatic patients, the degree of carotid stenosis is correlated with the risk of early recurrence. Patients with stenosis over 70% are therefore offered an endarterectomy, an operation to remove carotid plaque, to prevent future strokes[1]. In asymptomatic patients, the degree of stenosis is a limited predictor, and better risk stratification is required to assess the degree of plaque vulnerability and stroke risk of the patient. The therapeutic decision towards endarterectomy in addition to drug therapy is debated because of a variable and dependent benefit/risk balance for each patient. A number of imaging parameters have been studied: ulceration, heterogeneity, vascularization of the plaque for example, but their place is not well defined [2]. The usual evaluation of carotid stenosis is by conventional Doppler ultrasound with calculation of the degree of stenosis according to the NASCET criteria. For symptomatic stenoses the intervention is recommended when above 70% and is discussed from 50% to 70% of NASCET stenosis degree. For asymptomatic stenoses, the procedure is discussed when above 60% taking into account the patient's life expectancy, the risk of the surgery and the unstable nature of the plaque [2]. Destabilization of the carotid plaque is partially induced by inflammation associated with neo-vascularization. The detection of these new vessels by conventional contrast ultrasound has already shown a distinction between stable and unstable plaques, by the presence or absence of microbubbles in the plaque. However, this assessment is not very precise and only the most vascularized plaques can be detected. Ultrafast ultrasound Imaging is a new ultrasonic Imaging modality that allows detecting low speed flows, a tiny vascular structure within the vessel wall. RESEARCH HYPOTHESIS Plaques neo-vascularization would be more precisely detected and characterized by ultrafast imaging coupled with microbubble injection than conventional ultrasound imaging. A better assessment of plaque instability could improve the selection of patients for carotid endarterectomy and increase the benefit/risk ratio of this preventive surgery.

This clinical imaging substudy will use the small molecule translocator protein (TSPO) ligand, Fludeoxyglucose(18F)-labeled DPA-714, to compare neuroinflammation in individuals with high or low grade asymptomatic carotid artery stenosis (aCAD) who are participating in the separate Neuroinflammation in Asymptomatic Carotid Artery Disease study lead by Dr. Ron Lazar (IRB-300007806). The positron emission tomography (PET) tracer [18F]DPA-714 binds to the 18 kDa translocator protein (TSPO, also known as the peripheral benzodiazepine receptor) in the mitochondria of activated microglia/macrophages and provides a non-invasive measure of neuroinflammation.

The VQI TCAR Surveillance Project is designed to monitor the safety and effectiveness of stents placed directly into the carotid artery while reversing blood flow within the carotid artery to reduce stroke risk. It will compare this less-invasive surgical procedure with standard carotid endarterectomy in centers that participate in the Society for Vascular Surgery Vascular Quality Initiative.

Carotid artery disease is a main cause of ischemic stroke and vascular dementia, and a highly prevalent disease. There is uncertainty about the optimal management of patients with serendipitously or systematically detected asymptomatic carotid artery disease, due to the paucity of information on the predictive features of serious vascular events. While percent diameter stenosis is currently the accepted standard to decide about local interventions (carotid artery stenting or endarterectomy), international guidelines also recommend the evaluation of qualitative features of carotid artery disease as a guide to treatment. There is, however, no agreement on which qualitative features are best predictors of events. Furthermore, a role for metabolic plaque profile, local mechanical and hemorheologic factors in triggering microembolization and silent ischemic events has been proposed from experimental studies. This inadequate knowledge leads to a poor ability to identify patients at higher risk and to an unwarranted dispersion of medical resources, lack of standardization in diagnostic methods, and the use of expensive and resource-consuming techniques. Against this background, the investigators aim at: Prospectively identifying the best predictors of (silent and overt) ischemic stroke and vascular dementia in patients with asymptomatic subcritical carotid artery disease, by identifying the non-invasive diagnostic features of the "vulnerable carotid plaque" as a possible guide for optimal - local and systemic - treatment. Transferring new ultrasound techniques possibly improving risk prediction to the clinical field Assess whether "smart", low-cost diagnostic methods, such as ultrasound-based evaluations integrating established and advanced techniques, may yield at least the same level of prospective information as more expensive and less cost-effective techniques.

Atherosclerosis is a disease of the arteries and is the result of various factors such as high blood cholesterol or diabetes, which lead to accumulations of fats, cells, and calcium deposits (i.e. plaques). It has been shown that people with a rapid increase in the amount of calcium deposits have a higher risk for stroke and heart attack than people with a decreased amount. Previous scientific research has shown that a protein called Matrix Gla Protein plays an important role in the prevention of calcification. This protein works well only if there is enough Vitamin K in the blood vessels. In a large human studies, it has been shown that especially MK-7 (a form of Vitamin K2) is best absorbed by blood vessels. Moreover, studies suggest positive effects of vitamin D (especially D3) on vitamin K-dependent metabolism. Over the last years, fluorine-18 sodium fluoride (18F-NaF) positron emission tomography (PET) emerged as a reliable clinical imaging tool able to detect micro-calcification in the blood vessels. Therefore, the present study will use 18F-NaF PET in combination with magnetic resonance imaging (MRI) to assess the influence of vitamin K and D supplementation in the development of arterial micro-calcification in the context of atherosclerosis. The present study would like to confirm that MK-7 and vitamin D3 supplementation induces a significant reduction in the degree of micro-calcification from carotid artery disease patients, when comparing to a placebo, after 3 months. This will be a prospective double blind randomised controlled feasibility study, in which one group will receive a MK-7 and vitamin D3 supplementation compared to a control group receiving a placebo.