View clinical trials related to Endothelial Dysfunction.
Filter by:Intervention studies support a protective effect of flavonoid-rich foods such as chocolate and tea on cardiovascular disease risk. In a previous study we found that pure epicatechin improves markers of vascular function and insulin resistance although the results were less pronounced than the majority of chocolate intervention studies. The food matrix of chocolate or other compounds present in chocolate could play a role in the bioavailability of flavonoids, resulting in these heightened improvements in vascular function. In this study we aim to compare the acute effects of pure epicatechin and high-flavonoid chocolate on markers of vascular function.
Given the protective effect of nitric oxide (NO) on the endothelium and the results obtained so far in short-term, continuous treatment with phosphodiesterase-5 (PDE5) inhibitors on parameters of endothelial function, we hypothesise that chronic treatment with vardenafil can prevent or delay the deterioration of systemic endothelial function in patients with type 2 diabetes mellitus. The favourable effect of PDE5 inhibitors on sexual function in these patients has been convincingly demonstrated in the past. Here we hypothesise that vardenafil treatment can have beneficial effects on the vascular physiology in other body districts, possibly preventing the development of microangiopathy and atherosclerotic cardiovascular disease in these patients. The main goal of this study is therefore to monitor the endothelial dysfunction during continuous treatment with vardenafil for 6 months; object of the study will be endothelin 1 and other known parameters of endothelial damage in newly diagnosed patients with type 2 diabetes mellitus.
A major function of blood vessels is to control blood flow by dilating or constricting depending on the demand. Vascular dysfunction is a state in which blood vessels fail to carry out its normal roles such as regulating blood flow. Diabetes is a risk factor for vascular dysfunction. Dysfunction may involve the smaller and/or larger blood vessels. Failure in the ability of large (conduit) blood vessels to control blood flow may be an early feature of atherosclerosis, a leading cause of stroke and heart attack. Measures of blood vessel dilation give an indication of the health of the vessel. Ultrasound and MRI can assess vascular function by measuring changes in blood vessel dilation. Diabetes may also affect tiny vessels in the kidney. These vessels become porous allowing albumin (a protein in the blood) to leak into the urine. The investigators can easily measure the presence of albumin in the urine. This study aims to explore if MRI can demonstrate an association between vascular health in tiny and larger (conduit) blood vessels, by testing for an association between blood flow regulatory capacity of large vessels and presence of albumin in the urine.
The purpose of this study is to determine whether adolescent and adult patients with phenylketonuria who are on long-term phenylalanine-restricted diet suffer from endothelial dysfunction.
project is a pilot prospective, longitudinal, before-after, open label multicentric study.
Extreme preterm birth interferes with the development of the cardiovascular system. Both macro- as well as microvasculature undergoes extensive, organ specific maturation. Under normal fetal conditions, microvascular growth drives renal development and continues until 34-36 weeks of gestational age, while retinal vascular growth continues until term age. Studies show that there is association between low birth weight and cardiovascular dysfunction. According to the Barker hypothesis, this is due to nutritional shortage. In extreme preterm birth cases, this growth restriction is observed in neonatal life. In adult life, this suboptimal growth is associated with impaired renal and (micro)vascular function, hypertension, glucose intolerance and cardiovascular disease. According to the Brenner hypothesis, disrupted renal development results in hyperfiltration and hypertension, a process that subsequently promotes itself and leads to renal impairment. We will investigate macro- and microvasculature in different organs, including eye, kidney, heart and sublingual mucosa in former preterm infants, now aged 8-13 years old and age-matched controls. The expectation is that the results of this project will identify risk factors for cardiovascular-renal disease in the adult life of former preterm infants compared to the controls, while further analysis on mediators in neonatal life of this cardiovascular-renal outcome may provide new information on perinatal risk factors.
Cardiovascular disease is a major public health problem in our country. Among the causes of cardiovascular diseases are High Blood Pressure (HBP) and Diabetes Mellitus (DM). Type 2 diabetes (DM2) is associated with a twofold risk of cardiovascular disease, and endothelial dysfunction is an early marker of vascular complications. There is evidence of action of glucagon-like peptide 1 (GLP-1) on endothelial cells and vascular smooth muscle. Vildagliptin is a drug used in the treatment of DM2 able to prolong the activity of GLP-1, improving glycemic control and endothelial function. Objectives: To evaluate the effect of vildagliptin on endothelial function in patients with DM2 and hypertension using the Endo-PAT 2000 device.
Hypoxemia may contribute increased morbidity and mortality in chronic obstructive pulmonary disease (COPD) patients. We aim to characterize the role of acute and chronic hypoxemia for vascular function. For this purpose we measure capillary oxygen concentration and vascular. Vascular function is assessed by flow-mediated dilation oft he brachial artery, forearm blood flow and laser doppler perfusion imaging. We hypothesize that hypoxemia leads to impaired vascular function.
Complaints about memory and thinking are common in women as they go through menopause and estrogen levels fall. The ovarian hormone estrogen is important for supporting normal cognitive function, and changes in brain activity and function occur when estrogen levels are decreased. Estrogen is also important for maintaining healthy blood vessels which also support normal cognitive function. In Alzheimer's disease and other types of dementia, there is significant damage to the blood vessels in the brain. This study will test whether changes in brain activity and function with the loss of estrogen are related to changes in vascular function. The investigators will measure vascular function using ultrasound, and brain activity using MRI scans in women who are enrolled in the Females, Aging, Metabolism and Exercise (FAME) study (NCT01712230). In the FAME study, healthy premenopausal women either take a medication to decrease their estrogen levels, or a placebo. This sub-study may provide new information about how estrogen affects vascular function and cognitive function, and lead to new ways to prevent or delay cognitive impairment or dementia.
SCUBA diving frequently involves repetitive exposures over multiple days. The goal of this study was to see how exercise impacts microparticles (MPs), endothelial function, and venous gas emboli (VGE) over a series of dives. 16 divers in 2 groups each completed 6 dives. One group completed 3 control dives followed by 5 days rest then 3 dives preceded by exercise. The other group completed the opposite protocol. Flow-mediated dilation (FMD) data and blood for MP analysis was collected before and after each dive. VGE were monitored via transthoracic echocardiography 30, 60, and 90 min after surfacing. Exercise before diving consisted of 60 min running outdoors including 8x4 min intervals at 90% VO2max effort.