View clinical trials related to Cardiovascular Diseases.
Filter by:This study is part of a larger consortium project investigating the validity and best use of next-generation sequencing (in particular, whole exome sequencing, or WES) in clinical care. This sub-project is investigating benefits and harms of providing WES diagnostic and different types of incidental findings to adult patients and parents of pediatric patients who undergo WES because they have symptoms suggesting genetic disease.
The purpose of the study is to test an intervention that uses a mobile game to encourage increased physical activity among adults.
The goal of this study is to examine whether sitagliptin, an agent which enhances the action of hormones that control the release of insulin and is already in clinical use for type 2 diabetes, might also improve functional exercise capacity. Specific aims: 1. To test whether sitagliptin will improve functional exercise capacity in persons with type 2 diabetes compared to glimepiride. 1a. The primary outcome will be peak oxygen consumption (VO2peak) and oxygen uptake kinetics (VO2 kinetics). 1b. Secondary outcomes include cardiac function, endothelial function and tissue oxygen saturation (STO2) as well as health-related quality of life. 2. To evaluate the impact of sitagliptin on muscle mitochondrial function 2a. The primary outcome to address this aim will be 31P measurements (phosphocreatine, free inorganic phosphate, adenosine triphosphate peaks, adenosine diphosphate and pH) Impact: Novel approaches are needed to decrease excess cardiovascular morbidity and mortality in diabetes. Diabetes impairs cardiovascular fitness and thereby mortality. A demonstration that sitagliptin improves cardiovascular fitness, (and possibly mitochondrial function) will provide important new data pertinent to the management of diabetes and pre-diabetes.
The objective of this randomized, controlled feeding study is to investigate the potential health benefits of a pecan-containing diet. The investigators hypothesize the chronic consumption of pecans will improve an array of biomarkers related to cardiovascular disease and type 2 diabetes risk, including indices of oxidative stress, antioxidant activity, inflammation, endothelial function, and insulin resistance when compared with a control diet that is absent nuts.
Cardiovascular disease (CVD) is the leading cause of mortality in patients with end-stage renal disease (ESRD), which means that it is important to find out risk factors of CVD in order to prevent or treat it. In recent years, there has been more and more recognition of a very high prevalence of CV calcification in the ESRD population. Many observational cohort studies have shown that CV calcification in these patients can predict mortality, CV mortality and morbidity. Electrolyte imbalance is easily found in the ESRD patients which may result in vessel calcification. Calcification leads to arterial stenosis and increasing arterial stiffness and then heart afterload, both contribute to the development of CVD. Besides, metabolic syndrome, insulin resistance, and dyslipidemia pave the way for a chronic, immune-mediated vascular inflammation and cardiovascular disease. These factors are prevalent in ESRD patients, which would also cause arterial stiffness. Arterial stiffness and stenosis would increase the risk of CV events and mortality. Aortic pulse wave velocity is strongly associated with the presence and extent of atherosclerosis and constitutes a forceful marker and predictor of cardiovascular risk. At the same time, high prevalence of peripheral artery occlusion disease (PAOD) should also be found while arterial stiffness and stenosis, which would increase the condition of infection and gangrene. Thus, life safety and quality would be influenced severely and early detection might prevent future amputation. As compared with HD or pre-dialysis patients, uremic patients treated with PD have a higher risk for metabolic syndrome. Therefore, more studies to evaluate the condition of arterial stiffness and PAOD, especially in PD patients, are needed for future management and preventions of CV related morbidity and mortality.
STUDY QUESTION: Which of the four abnormally elevated androgen groups (total testosterone [TT], androstenedione [A4], free androgen index [FAI], or dehydroepiandrosterone-sulfate [DHEA-S]) present with an unfavorable metabolic and hormonal profile, appear to be more insulin-resistant and pose additional cardiovascular risk? SUMMARY ANSWER: Subjects with excess free androgen index tend to be obese and face the highest metabolic syndrome risk, adipocytokine alterations, insulin resistance (IR) and cardiovascular risk. The excess TT group presents with a marginal IR risk, while the excess A4 group has the highest antimüllerian hormone (AMH), and may counterbalance obesity; this group and the excess DHEA-S group have a favorable association with IR.
Cardiovascular disease (CVD) is the leading cause of deaths in the Western world. Established risk factors include high LDL cholesterol, high blood pressure and diabetes. Poor blood vessel health is considered a predictor of future CVD risk, but can be reversed. Several different measurements can be used to determine blood vessel health; such as blood pressure (BP), and newer techniques which measure blood flow through the arteries after a blood pressure cuff restricts blood flow for a few minutes in one arm. Flavonoids are compounds found in plant-based foods, and are associated with a reduced risk of CVD. From the previous studies, there is strong evidence that orange juice and citrus foods which have higher amount of specific citrus flavonoids improved cardiovascular risk factors such as BP and blood vessel health. Absorption of citrus flavonoids occurs in the colon after bacteria breakdown the forms found in food. After the flavonoids are absorbed into the blood they are modification by liver enzymes before they are excreted in the urine. A large range of citrus flavonoid have been found excreted in the urinary, ranging anywhere from 0-57% of the dose. Variation in the potential health effect may reflect the level of the citrus flavonoid absorbed, and this is not often considered in human studies. This study is a 4-week double-blinded, randomized, cross-over intervention trial using a commercially-available orange juice supplement and a placebo control. The aims of the study are to determine whether orange juice supplements reduce blood pressure and improve blood vessel health after 4 weeks. Furthermore, to determine if there is a relationship between absorption of flavonoids (as measured by urinary excretion) and changes in blood pressure or blood vessel health. The participants will need to attend 4 sessions on 4 separate study days, every 4 weeks for 12 weeks. On each study day they will have their weight, height, waist circumference, and blood pressure measured. A finger-prick blood sample, using a single-use lancet (Accu-Chek Safe T Pro Plus), will be taken to check the fasting blood glucose level. Blood flow in fingertips will be monitored before and after reducing blood flow in your forearm using a blood pressure cuff (called an EndoPAT). Participants will be asked to collect urine for 24 hr on each of the study days, and to consume the supplements provided daily for two sets of 4 weeks (there will be 4 weeks in the middle without any supplements). An improvement in blood pressure and/or blood flow will provide evidence that blood vessel health has improved through short-term (4 week) use of a citrus flavonoid supplement
Background: - Cardiometabolic diseases are a combination of medical disorders that, when they occur together, increase the risk of heart disease and diabetes. Researchers want to learn if there is a relationship between these diseases and inflammation (redness, swelling, and pain). Inflammation affects the entire body. Researchers will study this relationship in people with heart disease and diabetes, and compare it to healthy people. Objectives: - To learn if there are links between inflammation and cardiometabolic diseases. Eligibility: - Adults 18 years of age or older with heart disease or diabetes. - Healthy volunteers 18 years of age or older. Design: - Participants will have up to six study visits. There will be first visit, then an optional visit 12 months after the first visit. - At the study visits they will have: - Blood taken with a needle in their arm. - An electrocardiogram. Small patches are stuck to the chest and limbs. A machine measures electrical signals of the heart. - Completed a number of questionnaires. - A body scan called an FDG PET/CT. A substance will be injected through a tube in their arm. They will lie on a special bed that will move in and out of the PET/CT scanner. The PET/CT scanner will take pictures of the body. The scan will last up to 30 minutes. - Some participants will have other body scans ( FDG PET/MRI). The procedures are similar to the FDG PET/CT scan. These other scans will last about 30 minutes total. - Some participants will also have a CT scan of their heart. A substance will be injected through a tube in their arm. They will lie on a table in a large, donut-shaped machine. An X-ray tube will move around their body, taking many pictures. This procedure can last up to 2 hours. - Some participants will have tests that measures blood pressure and how the blood moves through the body. - Some participants will have small samples of skin and fat tissue taken.
Cholesterol screening is an important prerequisite for cardiovascular disease (CVD) risk assessment. Cholesterol screening is recommended by the United States Preventive Services Task Force (USPSTF). Since reminder systems have been shown to modestly improve the rates of preventive services, including in safety net settings, we will implement patient-directed reminders to health center patients who meet our eligibility criteria. The aim of this study is to determine if a mailed outreach message and facilitated ordering of screening lipid tests increases cholesterol screening test completion within 3 months among federally qualified community health center patients who are eligible for screening compared to usual care.
The participants of this study will be men & women ≥50 years who are deemed to have a 10-30% risk of developing CVD over the next 10 years. Their risk will be calculated using the Joint British Societies 2 (JBS2) guidelines on the prevention of CVD in clinical practise algorithm. This takes into account the participants age, sex, cholesterol values, blood pressure,family history and their ethnicity (SE Asian or not). The participants will be randomly assigned to one of two groups with the aid of a computer program called "minim" which uses their age, sex, BMI and smoking status to determine which broccoli each participant will consume on the intervention. Each participant will consume 4 x 100g of their assigned broccoli, each week for 12 weeks on top of their normal diet. They will be allowed to eat the broccoli whenever they want during the week, but will be asked to note down when they eat it. A steamer will be provided so participants can cook their broccoli for the required 4-5 minutes. Participants will be asked to keep two diet diaries during their time on the intervention, one before they start the intervention and one towards the end. Blood samples and urine will also be collected, pre and post intervention, for the analysis of biomarkers of CVD. This is joint project based at two sites, the Institute of Food (IFR) Research in Norwich and the University of Reading(UoR), in Reading. Samples from the participants at both sites will be analysed at IFR, UoR and companies in the United States.