View clinical trials related to Atherosclerosis.
Filter by:Recent evidence indicates that Trimethylamine-N-oxide (TMAO) is a pro-atherosclerotic, phosphatidylcholine-dependent metabolite of diet and intestinal flora. Food substrates derive from carnitine and phosphatidylcholine (lecithin), present mainly in eggs, red meat, liver and pork. The intestinal flora pattern that favors the formation of TMAO is very similar to that which predisposes to insulin resistance and obesity: a high proportion between phylum Firmicutes over Bacteroidetes. The intestinal microbiota is sensitive and variable; the use of prebiotics and probiotics can change the relationship between Firmicutes/Bacteroidetes phyla. Red wine (RW), for its composition with polyphenols and possible bactericidal role, may play a role in the intestinal flora modification and could promote proliferation of beneficial bacteria. However, the influence of RW on TMAO is not known. This is the hypothesis to be tested in this trial. METHODS: This is a prospective, crossover, randomized, controlled trial with patients from Heart Institute (InCor), FMUSP and volunteers recruited through press releases. We will evaluate 42 patients, all men, with established atherosclerotic disease. Patients will be evaluated in a crossed manner: each subject receives both treatments, intervention and control (in random order), and they will be divided into 2 groups: A and B. In the first intervention stage, after 2 weeks of washout for all patients , group A receives Red Wine (RW) and group B is the control, abstemious. In the 2nd stage of intervention, after 2 weeks of washout for all patients the groups are inverted: group B receives RW; and group A will be abstemious. In the period with wine intervention, patients will receive 250 mL/day of red wine per day, for 5 days of the week, for 3 weeks. Patients will maintain their usual diet without the use of prebiotics or probiotics, or other polyphenolic derivatives. At the beginning and at the end of each stage, patients will be submitted to serum TMAO and intestinal microbiota evaluation. For the intestinal microbiota evaluation, the new generation sequencing will be used in the highly preserved portion of the 16S subunit of the rRNA gene. The determination of TMAO in plasma will be by liquid chromatography coupled to mass spectrometry. Expected results: It is expected to determine if RW acts on the intestinal flora to the point of influencing plasma TMAO concentration.
A total of 210 coronary atherosclerosis patients without indications for stent implantation are included. The baseline values of platelet aggregation rate, plasmaThromboxaneB2 and urinary 11-dh ThromboxaneB2 are measured by Light Transmittance Aggregometry method and ELISA after aspirin 100 mg /d ≥5d. Then the patients are randomly divided into 7 groups: Group1: aspirin 100 mg/d; Group2: aspirin 100 mg /2d; Groups3: aspirin 100 mg / 3d; Groups4: morning 50mg evening 50mg; Group5: aspirin 75mg / d; Group6: aspirin 50mg / d; Group7: indobufen100mg bid. One month later,arachidonic acid-induced platelet aggregation rate , plasma TXB2 and urine 11-dh TXB2 are analyzed again. All patients are followed-up for 1 year. The stomach Intestinal reactions, small bleeding events are recorded.
BACKGROUND AND OBJECTIVES: Cardiovascular disease is the leading cause of death despite huge primary and secondary prevention policies with a strong economic burden. The primary objectives of the ILERVAS project are: (i) to identify unknown factors involved in the presence of atherosclerosis, metabolic syndrome, pre-diabetes and hidden kidney disease in a low/moderate cardiovascular risk population; (ii) to identify unknown factors involved in the progression of atherosclerosis, metabolic syndrome, pre-diabetes and hidden kidney disease in a low/moderate cardiovascular risk population; (iii) to Assess of the impact of arterial ultrasound on cardiovascular events and mortality in a low/moderate cardiovascular risk population. METHODS: Randomized intervention study. From 2015 to 2018, 16,660 participants (8,330 in the intervention group (Mobile Unit Follow-up Group) and 8,330 in the no intervention group (Electronic Medical History Follow-up Group )) aged between 45 and 70 years without a previous history of cardiovascular disease and with at least one cardiovascular risk factor will be randomly selected across the province of Lleida, Spain.
This study will look at how chronic inflammation seen in psoriatic disease translates into the increased atherosclerotic and thrombotic risk and how treatment reduces this CVD risk. The Aim of this study is to 1) Evaluate the association between moderate to severe psoriatic disease and measures of vascular function. 2) Evaluate the association between moderate to severe psoriatic disease and measures of thrombotic risk. 3) Understand how traditional medications used in cardiovascular disease (CVD) prevention such as aspirin and statins affect vascular function and thrombotic risk in those with moderate to severe psoriatic disease.
Background: Extracellular RNAs (exRNAs) send genetic data from cell to cell. This is how they affect the way cells communicate with each other. There are many types of exRNA, and they each serve different roles. But they have also been linked to some diseases. Researchers want to measure exRNAs to see how they relate to certain traits over time. They will use blood samples that were taken as part of the Framingham Heart Study (FHS). Objectives: To identify cross-sectional associations of exRNAs with age, sex, and cardiometabolic risk factors. Eligibility: People ages 30-70 who had blood taken as part of the FHS Third Generation cohort. Design: Researchers will study samples that have already been collected in the FHS. There will be no active participant contact for this project, only use of data that are collected as part of planned follow up from other studies. As part of the FHS, participants gave blood samples. They gave permission for the blood to be used for research. The exRNAs from the blood samples will be studied to see how they relate to certain traits. These include age, sex, and body mass index. The exRNAs will also be studied for their usefulness as biomarkers of risk for subclinical atherosclerotic cardiovascular disease. No study participants will be contacted for this study....
To determine associations between dietary factors and risk of major chronic diseases and their risk factors
Ischemic stroke is a leading cause of death and disability worldwide. Atherosclerosis, responsible for the 20% of ischemic strokes, is characterized by lipid accumulation in the artery wall that leads to chronic inflammation, cell proliferation and ultimately to vessel stenosis. One of the main features related to plaque progression and vulnerability is inflammation. Positron emission tomography with 18-fluorodeoxyglucos (18-FDG PET) allows an accurate quantification of plaque inflammation and it has been proved its usefulness in predicting early stroke recurrences. The investigators aim to test how modifiable vascular risk factors influence plaque inflammation assessed by 18-FDG PET. In addition, investigators will assess the association of this inflammation and circulating endothelial progenitor cells
The purpose of this study is to determine the effects of the Doctormate device, a specialized blood pressure cuff used to perform remote limb ischemic conditioning, on cerebral blood flow in subjects with intracranial atherosclerosis. Previous studies in patients with narrowing of the brain arteries have shown that this device is safe to use and suggested that if this device is inflated in both arms for 5 minutes, followed by deflation for 5 minutes and repeated 4 times in a row every day for 6-9 months, the risk of another stroke is lowered and the device may increase the blood flow to the brain.
To evaluate the clinical benefits and risks of hybrid operating techniques in management of intracranial aneurysms with coexistence of atherosclerotic intracranial arterial stenosis.
Recently, the investigators have been screening for anti-atherogenic or pro-atherogenic amino acids (AAs) in the macrophage model system to better understand their role in atherogenesis. The findings so far suggest that specific AAs induce selective anti-atherogenic effects (glycine, alanine, leucine and cysteine) or pro-atherogenic effects (glutamate and glutamine) in macrophages. Taking together the above previous reports with the mechanisms behind macrophage foam cell formation and atherogenesis, it is possible that AAs could be anti-atherogenic or pro-atherogenic via their mechanism of action on macrophage foam cell formation. This paradigm may serve as a basis for the development of novel cardio-protective, anti-atherogenic nutritional, or therapeutic approaches, that should be studied in human trials.