View clinical trials related to Atheroma.
Filter by:Interventional study with minimal risks and constraints, with evaluation of the incidence of lung cancers by low-dose thoracic CT scan without injection of contrast medium, of the immunological, inflammatory and metabolic blood profile and of the microbiota; systematic proposal of smoking cessation for active smokers or assistance in maintaining cessation.
Patients treated at the Hôpital Nord de Marseille for at least one smoking-related pathology (atheroma, chronic bronchitis, non-progressive cancer > 5 years) or with eligibility criteria for lung cancer screening (inclusion criteria in the NLST or NELSON studies or American recommendations) Interventional study with minimal risks and constraints, with evaluation of lung cancer prevalence; immunological, blood inflammatory and microbiota profile Determine the maximum clinical, radiological, and biological phenotyping completeness rate following the implementation of a new lung cancer screening care pathway with multidimensional clinical, radiological, and biological phenotyping capabilities
The purpose of this study was to compare the results of directional atherectomy with antirestenotic therapy (DAART technique) and angioplasty/Supera stenting for the treatment of popliteal atherectomy lesions.
The proposed study will investigate the clinical use of the ISCDX test that may differentiate between diverse stroke etiologies as listed below: Aim 1: Differentiate between cardioembolic and large artery atherosclerotic ischemic strokes, when hemorrhagic stroke is ruled out, as defined by TOAST classification of subtypes of acute ischemic stroke. Aim 2: In cases of ischemic strokes of unknown or "cryptogenic" etiology, determine the ability of biomarker blood tests to predict etiology between cardioembolic and large artery atherosclerotic.
The investigators plan to evaluate the correlation between carotid plaque enhancement on Contrast-enhanced ultrasound (CEUS), significant coronary artery disease (CAD), and cardiovascular (CV) outcomes in a systematic manner. The investigators hypothesize that increased levels of CEUS-detected vulnerable carotid plaque will be predictive of CV risk determined by angiography and future cardiovascular events.
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.
A new way of scanning narrowing in the arteries (main blood vessels) caused by fatty deposits known as plaques has been developed. Heart attacks and strokes occur when plaques become inflamed, depending on the artery affected. Currently used clinical tests can only tell us how much the vessel is blocked by the plaque and not how inflamed (i.e. dangerous) it is. This new method of scanning using magnetic resonance imaging (MRI) and a special agent called Sinerim can identify inflamed plaques. This study will evaluate patients with plaques in their arteries in their neck at risk of strokes to see whether treatment with a cholesterol-lowering drug called atorvastatin can reduce the amount of inflammation within the artery wall within the first three months of treatment. If this effect can be measured using MRI scanning with the use of Sinerim then the results of this study will provide additional clinical validation of the use of MRI scanning combined with agents such as Sinerem®.