View clinical trials related to Carotid Artery Diseases.
Filter by:NOR-SYS is a clinical research program about young ischemic stroke patients from 15 to 60 years. Patients, partners and the couple´s adult children who are at least 18 years old, are all invited to ultrasound examinations due to a standardized protocol. Parents of patients and partners are invited to return their answers of standardized questionnaires about clinical ischemic events such as stroke, angina or myocardial infarction or peripheral artery disease. Study inclusion time of patients and their families is 5 years. A biobank is build from samples from patients, partners and adult children. Clinical follow-ups for patients and partners are planned after 5, 10 and 15 years. Clinical follow-ups for adult children are planned after 10 and 20 years. Hypotheses: What do patients know about their parents clinical ischemic events? How much established pathology in arteries do we find by a standardized ultrasound protocol at the time of ischemic stroke at a young age? Differences concerning risk factors and ultrasound findings between patients and partners? Differences between children from families with several ischemic events among parents and grandparents vs. children from families without ischemic events? Biochemical markers related to ultrasound findings and artery disease.
This study is to investigate the possible positive effects of lutein and lycopene supplementation on early atherosclerosis in Beijing.
A prospective study of 700 patients with coronary artery disease will undergo non invasive evaluation of their carotid arteries by ultrasound and microwave radiometry. The patients will be followed up for 3 years and their outcome regarding the cardiovascular events (death, cardiac events, cerebrovascular events) will be recorded
The purpose of this study is to investigate whether and what extent blood pressure variability is associated with arterial stiffness and carotid atherosclerosis, furthermore to compare the difference in the relationship of the types of blood pressure variability with arterial stiffness and carotid atherosclerosis.
A carotid stenosis is treated with invasive procedures of revascularization when the lumen is reduced by more than 70% or when the lumen is reduced by more than 50% in patients who have had symptoms attributable to the affected carotid district in last the 6 months. Two options for the treatment of patients with carotid stenosis exist currently: the traditional surgical intervention of removal of the plaque by carotid endoarterectomy (CEA)and percutaneous transluminal carotid angioplasty with a balloon associated to the positioning of a stent through a catheter brought directly in the carotid artery (CAS). The main complication of both the procedures is early thrombosis, a phenomenon in which platelets play a central role. The importance of an effective inhibition of platelet activation in these patients has been widely demonstrated. Clinical studies in patients undergoing PTCA have demonstrated that the optimal treatment for the prevention of stent thrombosis is a dual antiplatelet regimen with aspirin plus clopidogrel, as compared with the single drugs. Given that no specific clinical trial has assessed the best antiplatelet therapeutic regimen in CAS with stenting, by extension from these findings in ischemic heart disease CAS patients are treated with aspirin plus clopidogrel. Several studies have demonstrated that an elevated residual platelet reactivity despite treatment with clopidogrel is associated to an increased risk of major adverse cardiovascular events (MACE) after stenting for coronary disease. No data are instead available on the possible predictive value of residual platelet reactivity for the incidence of ischemic cardiovascular events in patients with atherosclerotic carotid disease undergoing CAS with stenting. Aim of the study will be to assess the predictive value of residual platelet reactivity, as measured by different laboratory tests in patients undergoing CAS with stenting and treated with aspirin plus clopidogrel, for the incidence of cardiovascular complications (major adverse ischemic events).
The objective of the CANOPY trial is to assess the continued safety and effectiveness of the RX Acculink Carotid Stent System under commercial use in subjects at standard risk for adverse events from Carotid Endarterectomy (CEA) enrolled by physicians with a range of carotid stenting experience.
The Canadian Atherosclerosis Imaging Network (CAIN) is a pan-canadian imaging network funded through grants from the Canadian Foundation for Innovation (CFI) and the Canadian Institutes of Health Research (CIHR). This unique research network is focused on the pathobiology of atherosclerotic disease as it pertains to the coronary and carotid circulations. The CAIN research program involves the creation of a unique national network focused on in vivo imaging of vessel wall disease, combined with imaging of occult end-organ disease as well as the acquisition of clinical and pathological end points. CAIN enables unprecedented cross-sectional and longitudinal clinical studies of patients with atherosclerotic disease in coronary or carotid vascular beds, and has established an international resource for studying the natural history, progression, regression and novel therapeutic interventions aimed at atherosclerosis. The primary outcome of this study is to accurately characterise carotid plaque morphology in non-surgical patients with mild to severe (30-95%) carotid disease. The investigators will also assess evidence of ischaemic brain disease. Patients will undergo MRI scanning of the brain and carotid and US scanning of the carotid at baseline and thereafter at 1 and 2 years or sooner if presenting clinically in order to monitor the natural history of carotid atherosclerosis and its effect on end-organ brain disease. Patients will consent to baseline scanning and follow up at 1 and 2 years, and databasing of clinical and imaging data. After each imaging session images will be processed, stored locally and also sent to a central repository. 500 patients will be recruited over a 2 year period in anticipation of study completion within 4 years.
Carotid artery stenting (CAS) with cerebral embolic protection is the preferred treatment for narrowing of the carotid arteries in patients at high risk for open surgery. Special devices are used to protect the brain from particles(emboli) that may break off when the narrowing or blockage is cleared during the angioplasty and stenting procedure. Although filters are most frequently used, protection systems consisting of balloons and flow reversal are also available for cerebral embolic protection. However, there is little information about the effectiveness of filters compared with balloons and flow reversal for prevention of embolization during CAS. The aim of our study is to address this major problem. Our study was designed to answer two specific questions: First, the study will investigate whether balloon-based protection systems are more effective than filters in reducing the amount of particles that break off and travel to the brain during CAS. For this purpose two imaging techniques will be used: magnetic resonance imaging of the brain (MRI), and transcranial doppler (detection of microparticles in the small brain vessels using ultrasound). Second, it will be investigated whether the use of balloon-based protection devices are more effective than filters for prevention of stroke, heart attacks, and death after carotid stenting. The results of the study will provide important information to find out the best way to protect the brain from plaque fragments that may break off during CAS.
The purpose of this study is to find the optimal dose from 3 different dose levels - 0.15 mL, 0.5 mL and 1.5 mL of Optison in assessing the presence of disease of the carotid arteries when comparing pre-contrast to post-contrast ultrasound (U/S) by dose group.
This is a prospective, multi-center imaging study expecting to enroll approximately 1350 patients scheduled for clinically-indicated coronary angiography. Following informed consent, patient will undergo baseline coronary intravascular ultrasound (IVUS) imaging and non-invasive ultrasound imaging of their carotid arteries. Following a 2-year follow-up period, patients will undergo repeat coronary IVUS and standard invasive coronary angiography as well as carotid ultrasound examination. Additionally, patients will be contacted by phone on an annual basis for 5 years to collect cardiovascular and cerebrovascular clinical endpoints. Evaluations of plaque burden will be made using invasive and non invasive imaging tools in order to assess correlations between vascular beds, imaging technologies and main cardiovascular events.