39 Clinical Trials for Various Conditions
To determine the treatment effect with obicetrapib (10 mg) on the fractional catabolic rate (FCR) of apolipoprotein (apo) B100 in low-density lipoprotein (LDL).
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 ...
Background: Fish oils are known to be beneficial to health and believed to be cardio-protective. Omega-3 fatty acid is the most known fish oil available in the market. LCMUFA (long-chain monounsaturated fatty acids) is also a fish oil but it is derived from fish that consumes a diet rich in omega-11 fatty acid. Researchers want to study omega-11 fatty acid enriched fish oil and understand its effect on cardiovascular health. Objective: To understand the effects of LCMUFA from fish oil on cardiovascular health. Eligibility: Healthy volunteers ages 18 and older with no history of cardiovascular disease Design: Participants will be screened with: * Medical history * Physical exam * Fasting blood and urine tests * Optional stool sample * Questions about their diet, exercise, and the types of medicines and dietary supplements they take * 7-day food diary * Cardio-Ankle Vascular Index (CAVI): Blood pressure is taken in the arms and legs. The heart is monitored. * After the screening visit, participants will take 4 gel capsules, 3 times a day after meals, for 8-10 weeks. * Electrocardiogram (EKG) Participants will have 3 additional visits. All include repeats of the screening tests. Visit 2 is 8 weeks after the screening visit. Participants will stop taking the capsules for 8 weeks after this visit. Visit 3 is at least 16 weeks after starting the supplement. Participants will take 4 capsules, 3 times a day after meals, for 8 weeks after this visit. Visit 4 is 8 weeks after starting the second supplement.
Background: - Metabolism is what the body does to turn food into energy. Omega-3 fatty acids are substances found in foods such as cold-water fish and shellfish that are essential for good health. Researchers want to see the effect of two fatty acids eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) on metabolism. They may be beneficial to cardiovascular health. Objective: - To understand the effects of EPA and DHA on metabolism. Eligibility: - Healthy people ages 18 years or above with plasma triglyceride (a type of fat in the blood) levels of 100 mg/dL or higher Design: * The study will last 20 to 24 weeks. * Participants will have 4 visits to the NIH Clinical Center. These will include: * Medical history * Physical Fasting blood and urine tests * CAVI tests: blood pressure is taken in the arms and legs, and the heart is monitored. * Participants will take an EPA/DHA dietary supplement. They will take 4 gel capsules, 3 times a day, for 6 or 7 weeks. Then they will not take the capsules for 8 to 10 weeks (a wash-out period). They will then take the capsules again for 6 or 7 weeks. * Participants will keep a food journal.
The purpose of this study was to determine if OCA had an effect on cholesterol levels in the blood in participants with primary biliary cirrhosis (PBC).
The primary objective of this Phase I exploratory study is to determine the effects of mipomersen on the hepatic production of apolipoprotein-B (apo B) in very low density lipoprotein (VLDL) compared to baseline levels. The study will consist of a Screening Period, a 1-week Run-in Period to establish a stable diet, an approximate 11-week Treatment Period with Placebo or Mipomersen, and a 25-week Post-Treatment Follow-up Period. The total duration of any given subject's participation will be approximately 40 weeks.
The objective of this research is to understand how Crestor can effectively reduce the levels of the bad cholesterol, LDL, in blood. It is hypothesized that with a low dose, Crestor will facilitate the rate of removal of LDL from the blood. At the higher dose, the increased potency of Crestor is explained by a reduction in the production of LDL by the liver.
The aim of this study is to explore the significance of the Lys:Arg ratio on responses of lipids and lipoprotein concentrations to dietary proteins and to evaluate the effects of dietary Lys:Arg on cardiovascular disease risk factors and endothelial function.
Researchers plan to study the fat-rich particles, called lipoproteins, which circulate in the blood. This study is designed to improve understanding of normal, as well as abnormal, lipoprotein metabolism and the role it plays in the development of hardening of the arteries (atherosclerosis). Patients participating in this study will receive an intravenous (directly into the vein) injection of a small amount of specially prepared amino acids. The amino acids being injected are the same amino acids present in a normal diet. The amount of amino acid given will be less than the amount eaten in a protein-rich meal. The amino acids will be labeled with nonradioactive heavy isotopes which are also present in the environment n low amounts. Patients participating in the study will be required to have blood samples taken, and provide urine samples throughout the course of the study. In addition, patient will be required to follow a specially formulated diet. Patients will be weighed throughout the course of the study.
Researchers plan to study the fat-rich particles, called lipoproteins, which circulate in the blood. This study is designed to improve understanding of normal, as well as abnormal, lipoprotein metabolism and the role it plays in the development of hardening of the arteries (atherosclerosis). Patients participating in this study will receive injections of lipoproteins or apolipoproteins (the protein component of lipoproteins) that have been isolated and purified. These lipoproteins will be labeled with small amounts of radioactive material and sterilized before they are injected into the patient. Patients participating in the study will be required to have blood samples taken, and provide urine samples throughout the course of the study. In addition, patient will be required to follow a specially formulated diet. Patients will be weighed throughout the course of the study.
This is a Phase 2, single-center, placebo controlled, double-blind, randomized crossover study to determine the effects of MEDI6012 on the metabolism of apolipoprotein B100 (apoB100) lipoproteins in individuals with stable atherosclerotic cardiovascular disease (ASCVD).
Atherosclerosis of the carotid arteries is a common cause of stroke. The prevalence and progression of carotid atherosclerosis are believed to be influenced by genetically inherited variations in lipoprotein metabolism. This study investigates the specific role of paraoxonase, an enzyme thought to detoxify atherogenic oxidized low-density lipoprotein. This study compares veterans who have significant carotid atherosclerosis on ultrasound examination with controls without carotid atherosclerosis. Both paraoxonase activity and genotype will be determined and compared between groups. The results may eventually make it possible to screen for a paraoxonase allele that confers high risk of atherosclerosis, and to diminish the risk by early treatment.
This study involves measuring subject's blood lipid responses after they consume a mixture of dietary fats of marine and dairy origin and vitamin supplements mixed into a milkshake, on three separate days. The investigators hope to learn more about how different food ingredients influence the metabolism HDL in individuals with low blood levels of HDL cholesterol.
Generally, people with low levels of high-density lipoprotein (HDL) in blood are more likely to get heart disease than those who have normal or high levels. Dietary fat, whether the harmful type (saturated) or beneficial type (unsaturated) raises HDL levels. Dietary carbohydrate lowers HDL. The investigators are doing this research study to find out why the amount of HDL in a person's blood is affected by dietary unsaturated fat and carbohydrate. The investigators will trace the ability of the HDL in a person's blood to take up cholesterol, get bigger, and then leave the blood by passing into the liver. The investigators want to know if dietary unsaturated fat improves the ability of HDL to do this compared to dietary carbohydrate.
Increased plasma triglyceride concentration is a common feature of the metabolic abnormalities associated with obesity and a major risk factor for cardiovascular disease. Obesity is a major risk factor for two conditions that appear to be increasing in prevalence in women: the polycystic ovary syndrome (PCOS) and sleep disordered breathing. PCOS affects 5-8% of women. Sleep disordered breathing affects up to 10% of women. Obstructive sleep apnea (OSA) is the most common cause for sleep disordered breathing and particularly prevalent in obese women with PCOS (\~50%). Both PCOS and OSA augment the increase in plasma triglyceride (TG) concentration associated with obesity, and the effects of PCOS and OSA on plasma TG concentration appear to be additive. The mechanisms responsible for the adverse effects on plasma TG metabolism are not known. The primary goal of this project, therefore, is to determine the mechanisms responsible for the increase in plasma TG concentration in obese women with PCOS and OSA. It is our general hypothesis that alterations in the hormonal milieu that are characteristic of these two conditions are, at least in part, responsible for the increase in plasma TG concentration in obese women with the conditions. Furthermore, we hypothesize that the hormonal aberrations characteristic of the two conditions are particularly harmful to obese, compared with lean, women. The effects of PCOS on skeletal muscle protein metabolism are also not known. However, sex hormones are thought to be important regulators of muscle protein turnover suggesting that muscle protein metabolism is likely to be affected by PCOS. We will examine this by determining the effect of individual sex hormones on muscle protein metabolism and hypothesize that testosterone administration will stimulate muscle protein metabolism while estrogen and progesterone administration will inhibit muscle protein metabolism.
The purpose of this study is to evaluate the effects of both chronic and acute grape ingestion in a population of men and women at higher risk for both type 2 diabetes and cardiovascular disease (metabolic syndrome).
Agents that increase HDL-C via reverse cholesterol transport could provide a new therapeutic option for the prevention of atherosclerotic cardiovascular disease. The investigators propose to investigate the effects of LY518674 on components that may likely affect atherogenesis in patients with the metabolic syndrome including HDL-C metabolism and reverse cholesterol transport pathways, the inflammatory response, and oxidative stress in human subjects. As an agonist of the nuclear peroxisome proliferator activated receptor (PPAR) alpha, LY518674 may affect the transcription of genes that encode various proteins involved in atherogenesis. This study will explore the consequences of altered transcription such as changes in messenger ribonucleic acid (mRNA) and protein levels as well as protein activity.
The purpose of this study is to understand how the reduction in dietary carbohydrates in a very-low carbohydrate ketogenic diet impacts the synthesis of cholesterol, fatty acid, and ketones, and the turnover rate of VLDL and chylomicron particles.
The goal of this study is to assess the effects of consumption of a lean pork-containing, high-protein breakfast versus a refined carbohydrate-rich breakfast on satiety and cardiometabolic parameters in overweight or obese adults with pre-diabetes.
Intrahepatic and intramyocellular lipid concentrations are elevated in elderly individuals relative to young people, despite no significant difference in fasting plasma TAG concentrations. Our general hypothesis is that the increase in intrahepatic fat with age results from reduced VLDL turnover, and therefore elderly individuals in this study will display lower VLDL turnover rates than young individuals. The aims of this study are a) to compare VLDL turnover in young and elderly individuals, and b) to compare a bolus method and a constant infusion method of assessing VLDL turnover.
Elevated fat level in blood is a risk factor for coronary heart disease, a major cause of death in America. The overall goal of this project is to test a novel treatment using nutrient (amino acid) supplementation against this condition in men and women, and to understand how this treatment works.
The purpose of this study is to determine whether lipoprotein(a), also called Lp(a), is a risk factor for cardiovascular (heart) disease. Lipoproteins are tiny particles that circulate in the blood. They contain cholesterol, fat, and protein in varying amounts depending on the body's need. Higher levels of lipoproteins in the blood can cause an increased risk of heart disease. The investigators believe that by studying the Lp(a) lipoprotein in Caucasians and African Americans, the investigators can assess for genetic variation factors related to cardiovascular (heart) disease. The investigators will be looking at 100 African-American families and 100 Caucasian families to confirm whether a higher Lp(a) level is an indicator of a higher risk for heart disease.
This study is being conducted to learn more about the role of diet and exercise in regulating plasma triglyceride (fat) metabolism. The investigators will examine the effect of acute (24 hour) changes in energy intake and expenditure on fat metabolism the following day.
Employees in developed societies are becoming increasingly sedentary at work and at home due to technological advances. Physical inactivity coupled with excess intake of calorie-rich foods are responsible for the epidemic of obesity. In population cohorts, physical inactivity and obesity increase the risk of cardiovascular disease and death. Because of the impact on productivity and health care costs, many businesses and other organizations have initiated "wellness" programs, often with facilities at the work site to encourage exercise. Although these programs have often resulted in improved fitness for participants, weight loss has been more difficult to achieve. In this regard, in our initial study of NIH employees participating in NHLBI's Keep the Beat program--two-thirds of whom were overweight or obese--we found improved exercise fitness after 3 months of participation, with exercise averaging 20 minutes each work day, but no significant weight loss. Associated with greater fitness in our participants was improvement in endothelial function, an important biomarker of cardiovascular risk. Because level of fitness is a strong predictor of cardiovascular (and total) mortality in population studies, some investigators and thought leaders have proposed that it is acceptable to be "fat and fit." We found in our study, however, that exercise alone has little effect on insulin sensitivity and other biomarkers of risk, including C-reactive protein, which could limit further improvement in endothelial function and even greater risk reduction. We propose to test in this protocol whether weight loss through supervised nutritional counseling and daily exercise at worksite facilities confers health benefits beyond those achieved with improved fitness alone, such as improvement in endothelial function, arterial compliance, insulin sensitivity, markers of inflammation in blood and high-density lipoprotein (HDL) structure and function. Because obesity in a sedentary workforce environment is especially prevalent among women, with additional contribution of menopause to obesity, our study will be restricted to overweight and obese women to allow appropriate analysis in a cohort of manageable size for our testing resources. The primary endpoint will be differential improvement in endothelial function, as determined by brachial artery reactivity to shear stress, from baseline to 6 months in participants randomized to exercise coupled with weight-loss intervention versus subjects randomized to exercise alone. Secondary analyses will include comparisons of adiposity, arterial stiffness, insulin sensitivity, HDL subparticles and function, and markers of inflammation and adipokines in blood, with exploratory analyses of minorities and age/hormonal interactions. Demonstration of improved vascular function and other biomarkers of cardiovascular risk with improved fitness combined with weight loss may serve as an incentive for greater participation in organization-initiated wellness programs with emphasis both on exercise and on personalized nutritional counseling.
Hypothesis 1: Ritonavir-based regimens increase triglycerides and VLDL by both increasing VLDL production and decreasing VLDL clearance. Specific Aim 1A: To quantify the effect of ritonavir on VLDL production and clearance using stable isotope turnover and other clearance methods. Specific Aim 1B: To determine the composition of the triglyceride rich particles. Protocol 1: The effects of ritonavir-based regimens on VLDL production, VLDL clearance and triglyceride-rich lipoprotein composition in healthy normal volunteers. HIV-seronegative volunteers will be studied before and at the end of four weeks of taking ritonavir, lopinavir/ritonavir or atazanavir/ritonavir. Hypothesis 2: NNRTI drugs do not increase HDL by increasing apo AI production, but rather by decreasing apo AI clearance, prolonging time in circulation. Specific Aim 2A: To determine the composition of HDL before and after NNRTI and assess its function. Specific Aim 2B: To quantify the effect of NNRTI on apo AI production and clearance using stable isotopes. Specific Aim 2C: To determine if the NNRTI induced increase in HDL is accompanied by improvement in flow mediated vasodilation and circulating markers of endothelial function Protocol 2A: The effects of efavirenz on HDL composition, HDL function, apo AI production, apo AI clearance, flow mediated vasodilation and circulating markers of endothelial dysfunction in healthy normal volunteers. HIV-seronegative volunteers will be studied before and at the end of six weeks of taking efavirenz. Protocol 2B: The effects of starting an efavirenz-based regimen on HDL composition, HDL function, apo AI production, apo AI clearance, flow mediated vasodilation and circulating markers of endothelial dysfunction in patients with HIV infection. HIV-infected patients whose care providers have prescribed an efavirenz-based regimen will be studied before and after six weeks of starting efavirenz. Hypothesis 3: Ritonavir-based PI regimens impair insulin secretion. Specific Aim 3: To determine which ritonavir-based PI regimens alter insulin secretion. Protocol 3: The effects of ritonavir-based regimens on insulin secretion in healthy normal volunteers. HIV-seronegative volunteers will be studied before and at the end of four weeks of taking ritonavir, lopinavir/ritonavir or atazanavir/ritonavir.
The purpose of this study is to determine the effectiveness of ProAlgaZyme in increasing levels of HDL 'good' cholesterol and decreasing total cholesterol and C-reactive protein in patients with Metabolic Syndrome.
The purpose of this study is to compare the effects of oral versus patch administration of hormonal contraception on hormone sensitive proteins such as lipoproteins, clotting factors and inflammatory proteins as well as blood sugar and insulin levels, antioxidant status and flow-mediated dilation of arm and forearm vessels. The hypothesis is that oral administration of contraceptive hormones will result in higher plasma levels of estrogen sensitive proteins originating from the liver while patch administration of contraceptive hormones will result in greater systemic effects of estrogen on vascular reactivity and antioxidant status.
This is a randomized placebo controlled clinical trial designed to investigate the effects of micronized fenofibrate on fasting and postprandial lipoproteins, oxidized fatty acids and lipoproteins, inflammatory mediators and thrombotic factors among hypertriglyceridemic individuals with two or more other characteristics of the metabolic syndrome.
Included in this study will be patients with HIV and being treated with highly active antiretroviral medications (HAART) including protease inhibitors (PI) or non-nucleoside reverse transcriptase inhibitors (NNRTI). Protease inhibitors and non-nucleoside reverse transcriptase inhibitors are very common medications in HIV treatment and are usually given with other medications as part of a standard treatment for HIV (HAART). We hope to learn more about how the levels of cholesterol-and triglyceride-carrying particles (lipoproteins) are affected by a nutritional supplement, L-Carnitine, in HIV-positive patients treated with antiretroviral medications.
This study is designed to determine whether sequence variation in the lipoprotein lipase (LPQ) gene affects the amount of weight loss and metabolic responses during a hypocaloric diet treatment for overweight and obese (BMI=25-35 kg/m2), older (50-65 yrs), sedentary veterans.