View clinical trials related to Cardiovascular Disease.
Filter by:Omega 3 fatty acids have been shown to provide a number of cardiometabolic benefits in both healthy and at risk populations. Specifically, the daily consumption of fish oil supplements has been reported to reduce blood triglyceride levels, and influence glucose homeostasis and whole-body inflammation. Furthermore, a number of cardiovascular effects (i.e. reduced blood pressure, reduced coagulation) have been found to result from omega-3 consumption, as well as influencing energy expenditure (i.e. resting metabolic rate). The goal of this study is to examine the cardiometabolic and cardiovascular effects that result from long-term consumption of omega-3 fatty acids.
Background: The adrenal gland makes the hormone aldosterone. This helps regulate blood pressure. An adrenal gland tumor that makes too much aldosterone can cause high blood pressure and low potassium. The cause of these tumors is unknown, but sometimes they are inherited. Objective: To study the genes that may cause primary aldosteronism in Black individuals. Eligibility: People ages 18-70 who: Are Black, African American, or of Caribbean descent And have difficult to control blood pressure or primary aldosteronism Relatives of people with primary aldosteronism Design: Participants who are relatives of people with primary aldosteronism will have only 1 visit, with medical history and blood tests. Participants with primary aldosteronism or difficult to control blood pressure (suspected to possibly have primary aldosteronism) will be screened with a 1-2 hour visit. If they qualify, they will return for a hospital stay for 7-10 days. Tests may include: Medical history Physical exam Blood tests: Participants will have a small tube (IV catheter) inserted in a vein in the arm. They may drink a glucose-containing liquid or get a salt solution. If medically indicated, they may have invasive blood tests with a separate consent. Urine tests: Some require a high-salt diet for 3 days. Heart tests Scans: Participants lie in a machine that takes pictures of the body. A dye may be injected through a vein. Small hair sample taken from near the scalp. Kidney ultrasound Bone density scan: Participants lie on a table while a camera passes over the body. If the doctors feel it is medically necessary, they will offer participants treatment depending on their results. These treatments may cure the patient of their disease and may include: 1. Having one adrenal gland removed by the Endocrine surgeon under anesthesia. Patients will have follow-up visits 2-4 weeks after surgery. 2. Taking drugs to block the effects of aldosterone Participants may return about 1 year later to repeat testing.
Background: Omega-7 fatty acids are found in the oil extracted from certain fish and nuts like macadamia. Palmitoleic acid is one of the most common omega-7 fatty acids. Many studies suggest that this oil is good for heart health. Researchers want to find out more about these potential benefits. Objective: To study how oil enriched with palmitoleic acid (Omega-7 oil) affects metabolism. Eligibility: Healthy adults at least 18 years old with no known history of cardiovascular disease. Subjects not allergic to fish oil and fish products Females that are not pregnant and are not planning a pregnancy during the length of the study Design: Participants will be screened with questions about their health, medical history, and medicines they take. Participants will have 4 visits over 24 weeks. The visits may include: - Blood drawn from a vein in the arm by a needle stick. Sometimes participants will have to fast before the blood draw. - Vital signs (blood pressure, heart rate, and temperature) taken - Body mass index measured - Cardio-Ankle Vascular Index test may be performed. The stiffness of the participant s arteries will be measured by reading blood pressure in the arms and legs and monitoring the heart. - Optional stool samples - Pregnancy test - A short review of participants physical activity and diet - A supply of dietary supplements to take between visits. Participants will take 4 gel capsules a day. Participants will keep a food and exercise journal Compensation will be provided to subjects that complete the study Check your eligibility for this study by clicking here: https://www.surveymonkey.com/r/DietaryOmega
This study addresses two challenges seen among African American (AA) participants during previous weight loss and dietary interventions aimed at reducing cardiovascular disease (CVD) risk: poor weight loss results and high attrition rates. Investigators will target both of these challenges by using a randomized design to compare a plant-based dietary intervention (vegan diet) vs. an omnivorous (omni) diet and by focusing on culturally-tailored food choices for AA adults living in the South. Therefore, the objective of the study is to conduct a culturally-tailored, randomized trial examining how a vegan diet affects CVD risk factors and weight as compared with an omni diet. The study will randomize overweight AA adults (n=130) to follow one of two different diets (vegan or omni) for 24 months. Investigators will accomplish objectives and test hypotheses by following two specific primary aims: Primary Aims: Using a randomized design, determine the impact at 12 months of two different, culturally tailored diets (n=65 omni and n=65 vegan) on changes in: 1. Risk factors for CVD, including LDL cholesterol and blood pressure; and 2. Body weight. Secondary Aim 3. Examine long-term changes in CVD risk factors and body weight at 24 months.
Patients with cardiovascular diseases from Guangdong province will be recruited and followed up for at least 4 years to evaluate the risk factors for cardiovascular-related mortality and disability. Physical examination, questionnaire survey and biological sample collection will be conducted at baseline and the incidence of all-cause and cardiovascular mortality will be investigated during follow-up.
Atrial fibrillation(AF) often occurs in patients with mitral valve disease. Both mitral replacement and mitral valve plasty are the effective methods to the mitral valve disease. How to cure atrial fibrillation is the key to full recovery. Radiofrequency ablation (RFA) in surgery is an effective treatment for those patients. But there are some recurrence rate after RFA, particularly in patients with enlarged left atrium. So the investigators design a new procedure(Left Atrial Geometric Volume Reduction, Pulmonary Vein Island Isolation and Left Appendage Base Closure) during mitral surgery and study the outcomes to evaluate this new operation.
The objective of this study is to investigate the effectiveness of air filtration at reducing personal-level exposures to fine particulate matter (PM2.5) and mitigating related cardiovascular (CV) health effects among older adults in a residential facility in a representative US urban location. We enrolled 40 nonsmoking older adults into a randomized double-blind crossover intervention study with daily CV health outcomes and PM2.5 exposure measurements. The study was conducted in a low-income senior living apartment building in downtown Detroit, Michigan. Participants were exposed to three 3-day scenarios separated by one-week washout periods: unfiltered ambient air (control), low-efficiency (LE) "HEPA-type", and high-efficiency (HE) "true-HEPA" filtered air using air filtration systems in the bedroom and main living space of each residence. The primary outcome was brachial blood pressure (BP). Secondary outcomes included noninvasive aortic hemodynamics and pulse wave velocity and heart rate variability. PM2.5 exposures were measured in the participants' residences as well as by personal-level monitoring.
Researchers at MCW have discovered a new pathway that links the type of bacteria present in the intestines to the severity of heart attacks. This discovery of a relationship between intestinal bacteria, bacterial metabolites, and severity of heart attacks means that for the first time, the investigators may be able to determine a person's probability of having a heart attack via non-conventional risk factors. This may provide opportunities for novel diagnostic tests as well as a potential for therapeutic intervention. The link between gut microbiota and the severity of heart attacks may also lead to novel therapeutic approaches (probiotics, non-absorbable antibiotics) to prevent heart attacks from happening. The studies proposed will test the hypothesis that altered intestinal microbiota are mechanistically linked to the pathogenesis of cardiovascular disease. The investigator's objective is to determine whether inflammatory markers in the blood are decreased and endothelial cell function improved by a probiotic in patients with established coronary artery disease. Furthermore, the investigators wish to elucidate a mechanism by which the gut microbiota regulates serum inflammatory markers. 1. Specific Aim 1 will determine the impact of a probiotic on circulating leptin and TMAO levels, conventional risk factors for cardiovascular disease and diabetes (total cholesterol, LDL cholesterol, oxidized LDL, triglycerides, C-reactive protein, serum amyloid A, fibrinogen and adiponectin, glucose-dependent- insulinotropic polypeptide (GIP), glucagon-like-peptide (GLP-1), glucagon, insulin), and their relationship to the intestinal microbiota (15 representative microbial groups) as non conventional risk factors. Several blood samples will be collected to measure biomarkers. Participants will provide periodic stool samples in order to measure gut bacterial biodiversity. Lastly, endothelial cell function (flow mediated dilation) will be measured in order to assess blood vessel function. 2. Specific Aim 2 will determine the impact of a probiotic on metabolites derived from the intestinal microbiota as candidates for non-conventional risk factors of cardiovascular disease. The relationship between metabolites derived from the intestinal microbiota, endothelial cell function and risk factors for cardiovascular disease identified in Specific Aim 1 will be correlated.
Public health policy is universal in recommending the adoption of low risk low-risk lifestyle behaviors for health promotion and prevention of chronic or non-communicable diseases (NCDs).These behaviors generally include achieving and maintaining a healthy body weight, healthy diet, regular physical activity, smoking cessation, moderate alcohol intake, and adequate sleep. While there is a general consensus that adherence to any one of these low-risk lifestyle behaviors is associated with benefit, it is not clear if adherence to multiple behaviors would result in a larger benefit across different groups of people, conditions, and chronic disease outcomes. The Canadian Cardiovascular Society (CCS), as part of the Dyslipidemia Guidelines Update, commissioned a series of systematic reviews and meta-analyses (a type of knowledge synthesis) using the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) approach to quantify the benefit of adherence to multiple low-risk lifestyle behaviors in relation to patient-important chronic disease outcomes (risk of cardiovascular disease, diabetes, cancer, and death) and assesses the quality and strength of the evidence for this benefit.
Background: The Framingham Heart Study (FHS) was initiated by the U.S Public Health Service in 1948 and turned over to the newly established National Heart Institute in 1951. The FHS is now jointly led by the National Heart, Lung, and Blood Institute and Boston University. The FHS currently studies risk factors, and the genetics of heart and blood vessel disease, and other health conditions in three generations of study participants. Scientists want to use the data collected from this study to do more research. They want to use a technique that determines the sequence of ribonucleic acid (RNA) molecules. Objective: To study genes related to certain diseases and health conditions. These include heart and blood vessel diseases, lung and blood diseases, stroke, memory loss, and cancer. Eligibility: People in the FHS Third Generation cohort who already attended exam 2. Design: Researchers will study samples that have already been collected in the FHS. There will be no active examination or burden to participants. During FHS visits, participants gave blood samples. They gave permission for the blood to be used for genetic research. RNA will be generated from the samples. They will be given a new ID separate from any personal data. They will be stored in a secure FHS lab. The samples will be analyzed. Only certified researchers can access them. No study participants will be contacted in relation to this project. ...