38 Clinical Trials for Various Conditions
The far-reaching negative health effects of the reduced physical activity (RPA) epidemic are often overlooked by the general population and health professionals. Short-term RPA induces cardiometabolic dysfunction, including impaired glucose control and vascular function, that may precede disease development. The impact of existing health status on RPA-induced cardiometabolic dysfunction and recovery of impaired glucose control following RPA is unexplored. Thus, the investigators' objectives are 1) to investigate the effect of existing health status (cardiorespiratory fitness and adiposity) on the recovery of impaired glucose control following a period of RPA and 2) to determine the role of vascular function as a mechanism of impaired glucose control. The investigators' final objective is to 3) expose undergraduate students to meritorious biomedical clinical research methods. The investigators have piloted the clinical research methods and analysis with undergraduate researcher associates and are well-prepared to complete this proposal. Preliminary data show that low cardiorespiratory fitness and/or high adiposity impair the recovery of glucose control following short-term RPA. Thus, the investigators aim to examine the interactive role of health status (cardiorespiratory fitness and adiposity) on the ability to recover impaired glucose control following short-term RPA. The investigators also seek to examine changes in vascular function as a mechanism of recovery of impaired glucose control following a return to normal PA. The investigators will recruit men and women with divergent health status (cardiorespiratory fitness and adiposity) to examine glucose control and vascular function during 7-d of normal PA, 7-d of RPA, and 7-d of resumption of normal RA. Continuous glucose monitoring and oral glucose tolerance tests will be performed to assess glucose control. Increases in vascular shear stress induced by passive leg movement and central arterial stiffness will be measured to assess vascular function.
Compared with White Adults, Non-Hispanic Black Adults are at an elevated risk of developing cardiovascular disease (CVD) and end stage chronic-kidney disease (CKD), two of the leading causes of death in the United States. Inadequate hydration status is associated with risk factors for both CVD and CKD. Prior data show that Black individuals are less likely to be adequately hydrated when compared with their White counterparts. Further, socioeconomic factors have been shown to influence hydration practices. Inadequate hydration influences certain hormones that regulate blood volume and impact blood pressure, but increasing potassium intake may provide some positive effects on normalizing these hormones and blood pressure. Black adults, in particular, are more likely to consume less potassium, have inadequate hydration, and tend to have higher blood pressure. As such, there is a critical need for effective strategies to address racial disparities in hydration and resultant health consequences; as well as establish the role of socioeconomic factors contributing to hydration. Therefore, the investigators are seeking to test the investigators' central hypothesis that water with a potassium supplement will improve hydration and cardiovascular health in young White adults (n = 20, 10 females, 10 males), and to a greater extent in young Black Adults (n = 20, 10 females, 10 males. The investigators will assess measures of blood pressure, arterial stiffness, and biomarkers in the urine and blood samples prior to and following a 14-day hydration intervention of 1) bottled water and 2) bottled water with potassium supplementation (2000mg potassium/day).
This study will determine if the drug Atorvastatin (Lipitor) changes the genetic material found in blood cells of people with vascular (blood vessel) disease. Vascular diseases affect the blood flow in the body and can lead to a heart attack or stroke. Information gained from this study could be used to develop a more reliable blood test that predicts the risk of heart attack or stroke. People 21 and older who have two or more risk factors for developing vascular disease are eligible for this study. Candidates are screened with a medical history, physical examination, electrocardiogram, ultrasound of the carotid (neck) arteries, blood tests, and check of blood pressure and heart rate. Participants are randomly assigned to one of four treatment groups. Three groups receive Lipitor in a dose of either 10, 20 or 40 milligrams; the fourth group receives a placebo. All take the study drug for 3 months. In addition, they undergo the following tests and procedures: Study Phase I (Months 2-4) Participants in all groups are seen once a month at the NIH Clinical Center for blood tests and monitoring of drug side effects. Study Phase 2 (Months 5-10) * Placebo group: Participants are given 40 mg of Lipitor for 3 months (months 5-7) and seen by a physician once a month during that time. Blood is drawn at the 7-month visit and then participants are referred back to their physicians. During months 8, 9 and 10, participants are called once a month to check on their health. Participation ends after the tenth month. * Lipitor group: Participants are referred back to their physicians for months 5 and 6 and are called once a month. During month 7, they return to the clinic for a follow-up evaluation and blood test. Participation ends after the seventh month.
The purpose of the ACCELERATE study is to evaluate the efficacy and safety of evacetrapib in participants with high-risk vascular disease (HRVD).
The primary purpose of this study is to determine if there are significant differences with respect to baseline between those randomized to CGo and standard-of-care versus standard-of-care alone after completing 12-weeks of therapy in terms of peripheral endothelial function measured by EndoPAT.
Many people know that a poor diet, exercise, smoking, and alcohol use cause heart disease. However, a less known factor that increases the risk of heart disease is depression. In addition, heart disease can also make depression worse. Almost half of American adults have some form of heart disease. Patients with low income are at an even greater risk. The circular relation between depression and heart disease raises the question of whether or not there are factors that lead to both. Attacking a factor that affects both depression and heart disease could help prevent them both. One such factor is rumination which is when someone tends to have repeated negative thoughts that loop without end. This loop in turn tears and wears down the body over time, making the person be at risk for heart disease and depression. Rumination-Focused Cognitive Behavioral Therapy (RFCBT) is a tool that targets rumination and, by doing so, reduces the risk for depression. While research has shown RFCBT helps to reduce or stop the loop that leads to depression, this project will further look at the effect of RFCBT on measures of heart health persons with low income.
Background: To date, there are no published studies on the effects of pecans on vascular function following a high-fat meal. Purpose: To examine the impact of daily pecan consumption for a 4-week period on vascular health and other markers of cardiovascular disease risk in aging adults.
Cerebral small vessel disease (CSVD) can lead to vascular cognitive impairment and dementia (VCID). The hallmark of CSVD is the appearance and progression of white matter hyperintensities (WMH) on MRI. The goal of this study it to recruit and follow individuals at risk for WMH progression and use serial MRI scanning to gain insights into the pathogenesis of CSVD.
The goal of this study is to pilot test a 12-week behavioral intervention among perimenopausal Latinas (age 40-55 years) that integrates evidence-based education with physical activity, stress management, and coping skills training to: 1) reduce cardiovascular disease (CVD) risk factors and arterial stiffness; 2) improve nutrition, physical activity, and sleep behaviors; and 3) improve stress management, coping strategies, and self-efficacy. This study will recruit participants from two community groups: one group will be randomly assigned to complete the intervention; the other will be a wait-list control.
After the participant meets all inclusion and exclusion criteria, they will be randomized equally to either the Resistance Training group (RT) or Aerobic Training group (AT). Both groups will participate in an 8 week initial control period, followed by 8 weeks of supervised exercise training, followed by 8 weeks of deconditioning. All participants will undergo the same assessments and procedures one time prior to the initial 8 week control period, and at each of the three periods. Assessments include: blood draws; arterial stiffness testing; ultrasounds of the brachial artery to measure flow-mediated dilation (FMD); gluteal adipose tissue biopsies; exercise testing to determine VO2 max; body composition analysis via DEXA scans; ambulatory blood pressure measurement; diet analysis via food journals; medical history questionnaires; urine analysis for pregnancy; and activity monitoring via accelerometer. Total participation will be 24-26 weeks.
The purpose of this study is to evaluate the effects of freeze dried strawberry powder on LDL cholesterol, central and peripheral blood pressure, indices of arterial stiffness, and other lipid and lipoprotein concentrations. The investigators hypothesize that the bioactive compounds in freeze dried strawberry powder may elicit beneficial effects on LDL cholesterol, as well as blood pressure and arterial health.
This trial is designed to determine the best preoperative management strategy for patients undergoing orthopedic surgery.
This is a non-randomized, non-interventional pilot observational study designed to follow high-risk patients through their surgical and hospital stay. The investigators will collect 2 4ml vial's of blood (total of 8ml) prior to surgery to assess CV biomarkers - inflammatory, metabolic, hypercoagulable and platelet.
This study is a Phase I, intravenous, single-dose escalation study to evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of PZ-128 (pepducin inhibitor of PAR1) in subjects with vascular disease or who have 2 or more coronary artery disease (CAD) risk factors.
AMR101 (icosapent ethyl \[ethyl-EPA\]) is a highly purified ethyl ester of eicosapentaenoic acid (EPA) developed by Amarin Pharma Inc. for the treatment of cardiovascular disease in statin-treated patients with hypertriglyceridemia. The purpose of this study was to evaluate whether this drug, combined with a statin therapy, will be superior to the statin therapy alone, when used as a prevention in reducing long-term cardiovascular events in high-risk patients with mixed dyslipidemia.
The purpose of this research study is to look at whether there are differences in blood vessel function, risk for developing diabetes (high blood sugar), lipid (blood fat) levels, and levels of other blood markers between black women and white women who have or do not have gestational diabetes mellitus.
The purpose of this study is to look at the effects of high- and low-salt diets on blood vessel function in healthy subjects.
The purpose of this study is to examine the effects of two diabetes medications, rosiglitazone and pioglitazone, on markers of vascular disease in subjects with type 2 diabetes.
The purpose of this study is to compare a health-counselor mediated telephone counseling intervention to usual care to reduce low density lipoprotein cholesterol (LDL-C) levels in patients with peripheral arterial disease (PAD).
Since 1948, residents of Framingham, Massachusetts, have participated in a program that collects blood samples and clinical data to provide a rare and valuable database for scientific research. The purpose of this study is to support this national resource by aiding in its research capacity. Specifically, researchers in this study will (1) investigate heart, lung, and blood diseases; stroke; memory loss; joint disease; bone loss; deafness; cancer; blood vessel diseases and other health conditions, and (2) examine DNA and its relationship to risk of developing these disease and health conditions. Approximately 330 families have participated in the Framingham Study. Participants will be required to undergo a four-hour exam and to take that exam every two years thereafter. During the exam, the Framingham investigators will (1) interview participants about medical status, health issues, and lifestyles; (2) perform a regular physical exam; (3) obtain blood and urine samples and administer a glucose-tolerance test; (4) supervise a brisk six-minute treadmill walk; (5) administer an ultrasound procedure; and (6) review and obtain copies of medical and hospital records. Participants will also be asked to complete a questionnaire at home regarding dietary and health habits.
The objective of this study is to provide an ongoing evaluation of clinical outcomes associated with the GORE Flow Reversal System and the GORE Embolic Filter when used for embolic protection during carotid artery stenting.
The overall objective of LUCHAR Specific Aims 4.1 and 4.2 is to assess the additional contribution of cardiovascular disease (CVD) risk markers to traditional biomedical risk factors in the prediction of pre-clinical CVD. Specific Aim 4.3 will test the impact of omega-3 fatty acid supplementation on risk markers and pre-clinical markers of CVD in Hispanic patients. Specific Aim 4.3: Conduct a randomized, placebo-controlled trial of the effect of omega-3 fatty acid supplementation on vascular function as measured by brachial artery reactivity (BAR) and on circulating inflammatory markers. Hypotheses: 1. Daily omega-3 fatty acid supplementation will improve vascular function in subjects at high risk for CVD. 2. Daily omega-3 fatty acid supplementation will reduce inflammatory protein panel scores in subjects at high risk for CVD.
As men grow older, their testosterone levels decrease with age. One-third of men, 70 years of age or older, have low testosterone levels. It is known that short-term testosterone replacement is safe, and can increase muscle strength and physical function, but the risks of long-term testosterone replacement in older men with low testosterone levels are incompletely understood. Atherosclerosis is characterized by thickening of the artery walls, and the narrowing of the blood vessels as cholesterol is deposited in the lining of the arteries. It is the major cause of cardiovascular disease including ischemic heart disease (heart attacks) and stroke. Although, historically, there has been a widespread perception that higher levels of testosterone might increase the risk of atherosclerosis, the evidence from research does not support this. In observational studies, higher testosterone levels have been correlated with more favorable cardiovascular risk factors, and supplementation with testosterone to bring older men into the normal range for healthy younger men appears to improve several cardiovascular risk factors, and may slow the progression of atherosclerosis. The primary purpose of this study is to look at the effects of testosterone replacement on the progression of atherosclerosis in older men. This study is also being done to find out whether replacement with testosterone in older men with low testosterone levels improves their health-related quality of life.
Biomarkers for Cardiovascular Disease Summary: This study will examine the function of the lining cells of blood vessels and measure substances in the blood to see how they relate to various blood tests, including new tests under development to determine cardiovascular disease risk. Nitric oxide is a molecule produced by healthy blood vessels that helps keep them relaxed. Nitrate is a substance formed from nitric oxide in the blood. The release of nitric oxide by blood vessels is reduced in patients with coronary artery disease, compared with healthy people. Also, blood nitrite levels rise in some of these patients. Other substances in the blood and urine also change with risk for heart disease. This study will measure nitrite levels and other inflammatory substances in the blood and urine. Healthy volunteers, people with various risk factors for heart disease, and people with blockage of one or more major heart arteries or a history of heart attack may be eligible for this study. Candidates must be 21 years of age or older. People who have an irregular heart rhythm or who cannot take oral nitrates are excluded. Participants undergo the following tests and procedures: * Blood tests: Samples are drawn three times for routine tests and to look for certain proteins that may affect the heart. Samples are collected once before any other tests, once before starting the exercise stress test (see below) and again after the stress test. * Urine test: A sample may be tested for proteins in the urine and for other research studies. * Brachial artery reactivity study: This ultrasound study tests how well a person's arteries widen. The subject rests on a bed. An ultrasound measuring device is placed over the artery just above the elbow. The size of the artery and blood flow through it are measured before and after inflating a pressure cuff around the forearm. The pressure cuff stops the flow of blood to the arm for 5 minutes and then is released while more ultrasound pictures are taken. After the subject rests, a nitroglycerin tablet (medicine that causes blood vessels to relax) is placed under the tongue. After the nitroglycerin is given, the size of the artery and blood flow through it are measured again. After a rest period, the study will be repeated in the healthy volunteers and first 20 patients with heart disease. * Echocardiography (heart ultrasound): This test involves holding a small probe against the chest to use sound waves for obtaining pictures of the heart. A small catheter (plastic tube) may be placed in a vein to inject a contrast agent that enhances the pictures. * Metabolic stress testing: Subjects will be asked to breathe in and out of a mask while baseline measurements are taken. Then they exercise on a treadmill while wearing a breathing mask. This test shows how much oxygen the body uses at rest and with exercise. * Genetic testing (optional): A blood sample is collected to examine DNA - genetic material that determines inherited traits and contains information about body proteins. Some parts of DNA may be used as markers of the level of damage produced by oxygen by-products that may reflect the extent of heart disease in patients. Also, gene variations may make an individual more likely to develop a heart problem. Such markers may guide doctors in predicting how fast the disease will progress or may help find a new type of drug to prevent disease. * Time requirements: This study is expected to take approximately 5-6 hours for completion within one or two days. * Follow-up: Patients are contacted by phone every 6 months for information on chest pain, surgical procedures related to the heart, and hospitalizations.
People living with the cognitive effects of stroke are at risk for recurrent stroke and further cognitive decline. Also problematic is that stroke risk clusters in families and biological family members of people who have ischemic stroke may also be at increased risk of stroke and/or cognitive decline. The primary goal of this study is to test the feasibility of a virtually delivered cognitive strategy training and health coaching program to reduce vascular risk and promote brain health in persons with stroke and their biological family members.
Background: People with systemic lupus erythematosus (SLE) are at risk of developing complications in their blood vessels. This can increase the risk of heart attacks or stroke. No medications have been effective at reducing this risk in people with lupus. Objective: To test whether a drug (anifrolumab) can improve blood vessel function and reduce blood vessel inflammation in people with SLE. Eligibility: People aged 18 to 80 years with SLE. Design: Participants will undergo screening. They will have a physical exam. They will have blood and urine tests. They will have a test of their heart function and a chest X-ray. They will answer questions about their SLE symptoms. Participants will visit the clinic 9 times in 8 months. After screening, visits will be 4 weeks apart. Each visit may take up to 4 hours. Participants will receive infusions from a tube attached to a needle inserted into a vein in the arm (IV). Some will receive anifrolumab. Others will receive a placebo treatment. They will not know which one they are getting. At some visits they will have additional tests: CAVI (cardio-ankle vascular index) tests blood vessel function. Participants will lie still for 20 minutes. Small electrodes will be placed on both wrists with stickers. A microphone will be placed on their chest. Blood pressure cuffs will be wrapped around their ankles and arms. FDG-PET/CT is an imaging procedure. Participants will receive a substance through an IV line. They will lie on a table for 110 minutes while a machine captures images of their body.
The investigators will aim to determine the association of mood disorders (MDO) with preclinical and clinical cardiovascular (CVD) risk factors among children. The investigators will also aim to identify traditional and non traditional predictors of CVD risk among children with MDO.
The purpose of study was to test whether rivaroxaban added to standard of care treatment, when compared to placebo, had the potential to reduce the incidence of the clinical events related to the clots and complications of the heart and brain (CV death, MI, or stroke) or the legs (acute limb ischemia or major amputation) in patients who had undergone recent procedure(s) to improve the blood flow of their legs.
The purpose of this study is to compare the difference in thrombosis as a result of internal jugular (IJ) catheters versus peripherally inserted central catheter (PICC) lines. It is hypothesized that there will be a decreased rate of thrombosis in patients as a result of IJ catheters verses PICC lines.
The investigators hypothesize that 1. an acute treatment of low-dose aspirin will lead to a) decreased resting platelet activation, platelet aggregation, and clotting potential, b) increased fibrinolytic potential following fire fighting, c) no significant effect on endothelial function or arterial stiffness versus the placebo condition. 2. chronic treatment with low-dose aspirin will lead to a) decreased resting and fire fighting induced platelet activation, platelet aggregation, clotting potential, b) increased fibrinolytic potential, and c) increased endothelial function and decreased arterial stiffness in response to live fire fighting versus the placebo condition. 3. short-term fire fighting activity will result in: a) a reduction in arterial function (reduced endothelial function, increased augmentation index and an attenuated arterial stiffness response); b) a disruption in hemostasis that is characterized by an increase in platelet number and function, an increased coagulatory potential and altered fibrinolytic potential; and c) an elevation in procoagulatory cytokines, systemic inflammation, monokine chemoattractant protein, and matrix metalloproteinases.