17 Clinical Trials for Various Conditions
An observational cohort study will be conducted to non-invasively investigate central blood pressure and pulse wave velocity in children with kidney disease and controls. Using an oscillometric monitor, the investigators aim to non-invasively obtain the central blood pressure and pulse wave velocity (PWV), or arterial stiffness, of children with kidney disease. The investigators will also enroll age- and race-matched healthy controls and measure the same parameters for comparison. In addition, the investigators will measure PWV by standard arterial tonometry method in a subset of patients.
Plan to monitor central arterial pressure in women who are undergoing spinal anesthesia for cesarean delivery or epidural anesthesia for vaginal delivery.
This study will evaluate the effects of walnut-derived ALA and bioactives on multiple CVD risk factors, including central blood pressure, arterial stiffness indices, inflammatory markers, urinary isoprostanes, vascular adhesion markers, and changes in lipids and lipoproteins. Gut microbiome changes due to walnut consumption will also be assessed using the 16S rRNA gene.
The purpose of the proposed pilot study is to evaluate the effects of a soy protein isolate with naturally occurring isoflavones on the properties of HDL-C (total HDL-C, HDL particle size and HDL function), central blood pressure, and indices of arterial stiffness.
The purpose of this research study is to determine whether atenolol or controlled release carvedilol lower blood pressure in the body as effectively as in the arm. Blood pressure measured in the aorta, a large blood vessel carrying blood away from the heart, may be a better measure of the harmful effects of high blood pressure on the body's organs. In the past, blood pressure has only been measured in the arms. However, blood pressure in the arms may not accurately reflect the blood pressure in the aorta and thus may mislead doctors treating high blood pressure. For this reason, we are testing whether two different medications for blood pressure, both in a class called beta blockers, have similar effects on blood pressure in the arm and aorta.
The purpose of this study is to examine the acute effect of continuous and aerobic interval exercise on postexercise central BP response in men with an elevated blood pressure.
The purpose of this study is to assess the effects of 35 EECP sessions on cardiopulmonary training performance in healthy volunteers. Data from this study will be used to generate sample size and power calculations for feasibility of future EECP studies. The results of this study could provide evidence that can help active duty and Department of Defense beneficiaries optimize physical conditioning, endurance and overall health.
People with CKD have higher prevalence of cardiovascular disease. The mechanism behind this increased risk is complex but there is strong evidence that changes in arterial stiffness play a central role. Arterial stiffness as measured by aortic pulse wave velocity (aPWV) and augmentation index (AIx), is a surrogate marker of cardiovascular organ damage, and is significantly associated with the future risk of clinical events. In addition, aPWV is an independent and powerful predictor of all-cause and cardiovascular mortality in patients on dialysis. Reduction of aPWV, mainly by use of an angiotensin converting enzyme (ACE)-inhibitor results in an improved survival in dialysis patients. These findings suggest that arterial stiffness is not merely a marker of arterial damage but a potentially reversible factor contributing to mortality in dialysis patients. There is strong evidence that arterial stiffness increases as glomerular filtration rate (GFR) falls. Conversely, arterial stiffness has also been established in a number of studies as a significant risk factor for CKD progression. In addition to arterial stiffness, elevated central aortic blood pressure and central pulse pressure have been shown to increase the risk of progression of CKD to ESRD. Central blood pressure is more strongly related than standard BP measured at the brachial arteries (brachial blood pressure) to concentric left ventricular hypertrophy and carotid artery hypertrophy as well as to future cardiovascular events. Cardiovascular disease remains the foremost cause of death post-kidney transplant. Although, successful kidney transplant has been shown to improve arterial stiffness post-transplant, we do not know to what extent the pre-transplant arterial stiffness and central aortic blood pressure and their improvement post-transplant impact the cardiovascular and allograft outcomes. In addition, it is unclear what transplant related factors are associated with improvement in arterial stiffness and central aortic blood pressure post-transplant. The goals of our study are: 1. To determine if pre-transplant central blood pressure and aortic stiffness impact post-transplant cardiovascular and kidney allograft outcomes. 2. To determine whether the changes in central blood pressure and aortic stiffness post-transplant impact cardiovascular and kidney allograft outcomes. 3. To determine the factors associated with improved central aortic blood pressure and arterial stiffness post-transplant.
Study examined the effects of CrossFit training on blood vessels. The results indicate long term CrossFit training does not harm blood vessel function.
The ability of the brain to sense changing sodium levels in the blood is critical in mediating the neurohumoral responses to hypernatremia, however, the mechanisms underlying sodium sensing in humans is poorly understood. The purpose of this study is to identify key sodium-sensing regions of the human brain in older adults and determine if the Na-K-2Cl co-transporter mediates the neurohumoral response to acute hypernatremia. Completion of this project will increase our understanding of blood pressure regulation, which has major public health implications.
The main goal of this study is to understand how different environments influence both mental responses, like overthinking (rumination), and physical reactions, such as heart rate and blood pressure, after a challenging task.
The goal of this clinical trial is to evaluate the effect of transcutaneous spinal cord stimulation on blood pressure in individuals with an acute spinal cord injury (within 30 days of injury). Blood pressure instability, specifically orthostatic hypotension (a drop in blood pressure when moving lying flat on your back to an upright position), appears early after the injury and often significantly interferes with participation in the critical rehabilitation time period. The main questions it aims to answer are: 1. Can optimal spinal stimulation increase blood pressure and resolve orthostatic symptoms (such as dizziness and nausea) when individuals undergo an orthostatic provocation (a sit-up test)? Optimal stimulation and sham stimulation (which is similar to a placebo treatment) will be compared. 2. What are the various spinal sites and stimulation parameters that can be used to increase and stabilize blood pressure to the normal range of 110-120 mmHg? Participants will undergo orthostatic tests (lying on a bed that starts out flat and then moved into an upright seated position by raising the head of bed by 90° and dropping the base of the bed by 90° from the knee) with optimal and sham stimulation, and their blood pressure measurements will be evaluated and compared.
This project will investigate the effect of spinal cord transcutaneous stimulation on blood pressure in individuals with a chronic spinal cord injury who experience blood pressure instability, specifically, orthostatic hypotension (a drop in blood pressure when moving from lying flat on your back to an upright position). The main questions it aims to answer are: 1. What are the various spinal sites and stimulation parameters that normalize and stabilize blood pressure during an orthostatic provocation (70 degrees tilt)? 2. Does training, i.e., exposure to repeated stimulation sessions, have an effect on blood pressure stability? Participants will undergo orthostatic tests (lying on a table that starts out flat, then tilts upward up to 70 degrees), with and without stimulation, and changes in their blood pressure will be evaluated.
This is an observational study evaluating patients diagnosed with narcolepsy or idiopathic hypersomnia that have been prescribed a new/different hypersomnia treatment. The study is being done to better understand how hypersomnia treatment(s) impact blood pressure and cognitive function.
This hypertension project is evaluating strategies developed to target problems underlying lack of blood pressure control among treated but uncontrolled hypertensive patients in East and Central Harlem.
The study is designed as a prospective observational study. Each participant will have their BP, CVP, PAP, and CO measured by their clinical nurse using indwelling catheters placed for routine patient monitoring. Measurements will be recorded on an hourly basis during the day and for as many days as possible if the required measurements are being made for clinical care. Sixty patients between 18 and 85 years of age will be recruited in HVICU by means of convenience sampling. Data will be analyzed using a test of equivalence on the initial measurements (test of equivalence between two means) and then over time (repeated measurements) with a linear mixed-effects model.
In people with the metabolic syndrome, the investigators hypothesize that administration of a single 300 mg dose of a grape seed extract (GSE) will reduce insulin resistance (how well cells in the body can take up and use glucose), oxidative stress, and the amount of oxidized LDL in the blood during a 24 hour period. These measurements will be assessed at hourly intervals during the 24 hour study day protocol. Additionally, the investigators hypothesize that daily administration of 300 mg of GSE for 30 days will decrease baseline insulin resistance, oxidative stress, and the level of oxidized LDL in the blood.