View clinical trials related to Vasodilation.
Filter by:The goal of this study is to examine possible mechanisms of impaired vasodilaton in obese and Black/African American men and women as possible links to the elevated prevalence of cardiovascular dysfunction and disease. The main targets in this study are sources of oxidative stress.
Nanoparticles (NPs) are minute pieces of material to which we are exposed every day in the air we breathe. Some are naturally occurring and have no impact on health, whereas others are produced from urban air pollution and can worsen diseases, particularly in the lungs and blood vessels. However, there is great interest in developing new NPs because of their unique properties that are useful for many applications, such as engineering, electronics and for drug delivery. At present it is unclear exactly what effects inhaled NPs have. Our current programme of research is designed to assess whether a specialized group of fats made in the body (called eicosanoids) drive the cardiovascular effects of NPs. The changes in the profiles of these fats will provide unique fingerprints that could be used to predict the actions of new NPs. In the proposed clinical study we shall investigate the effects of both environmental and manufactured carbonaceous NPs on the lungs, blood vessels, blood clotting, and levels of eicosanoids in blood and urine. We have previously investigated the cardiovascular effects of carbon nanoparticles after inhalation in man, and these experiments will investigate how the shape, size and composition of carbon particles influence these responses. These experiments will provide new insight into how NPs affect the body and pave the way for new ways to predict the toxic effects of NPs (reducing the need for animal experiments). The findings will enable the design of novel NP without the harmful characteristics of those found in air pollution.
A total of 600 patients undergoing coronary procedures via transradial access using 6F sheath were randomized at the end of the procedure to receive either 250-µg nicardipine or 500-µg nitroglycerin administered to the radial artery through the radial sheath before sheath removal. A continuous patent hemostasis was applied in each patient with the use of an oximetry to maintain an oxygen saturation of >95%, measured in the finger of the accessed arm until compression device was totally removed. The primary outcome is early RAO which was evaluated by color duplex ultrasonography of the accessed arteries at the day after the radial procedure. Secondary outcome was the change of blood pressure at 2-3 minutes after drug administration. Radial artery angiogram was performed after radial sheath insertion and doppler ultrasound of the accesed radial artery was examined at the day after the procedure.
The aim of this study is to observe the mechanism of spreading vasodilatation on human healthy gingiva. Nitric-oxide donor solutions in lower and higher concentration are used to trigger the vasoactivity.
The main purpose of this study is to evaluate the effects of an acute dose of dietary nitrate in the form of beetroot juice on skeletal muscle blood flow in response to dynamic knee extension exercise in healthy older adults. All subjects will receive active (rich in dietary nitrate) or placebo (devoid of nitrate) supplementation.
Studies with new drugs in the treatment of heart failure (HF), such as the combination of valsartan/sacubitril, also known as LCZ696, have demonstrated important clinical impact on the morbidity and mortality outcomes in HF population. However, the effect of LCZ696 on the pathophysiological mechanisms of HF such as exercise tolerance (peak VO2) and peripheral muscle blood flow is not known. Since LCZ696 is a new drug with promising effects on the treatment of HF, the objective of the present study will be to evaluate the effect of LCZ696 in patients with HF on: 1) peak VO2, 2) 6-minute walk test, 3) peripheral muscle blood flow, 4) muscle strength, and 5) body composition.
Aim: To investigate the dose-dependent vascular effect (primarily using FMD) of 3 low-level doses of pure (-)-epicatechin ≤ 1 mg/kg BW (0.1, 0.5 & 1.0 mg/kg BW) in healthy men.
Objective: To observe the effects of exercise training on vascular endothelial function in patients undergoing coronary artery bypass graft (CABG) alone in phase III after six months of Cardiac rehabilitation programs (CRP). Methods: the investigators contacted all patients undergoing CABG alone in period of 1 year to participate in a CRP with duration of six months with three weekly sessions of 1 and half hour of the duration. All patients underwent biochemical blood tests, muscle strength testing of one repetition maximum (1-RM test) for upper and lower limbs, 6-minute walk test (6MWT), and evaluation of endothelial function (using flow-mediated vasodilation).
The purpose of this study is to determine whether dietary inducers of glyoxalase 1 are effective in improving metabolic and vascular health.
Many types of cardiovascular disease begin when the layer of cells lining blood vessels (endothelial cells) start to function abnormally. This causes white blood cells (monocytes) to enter the blood vessel wall and eventually form lesions. Fats from foods we consume are carried in the blood for 3-8 hours after a fatty meal in small particles known as chylomicrons (CM) and chylomicron remnants (CMR). The overall aim of this project is to investigate the idea that n-3 polyunsaturated fatty acids (PUFA) protect against heart disease by modifying the effect of CMR on endothelial cells and monocytes. We hypothesize that n3-PUFA carried in CMR reduce detrimental events which promote blood vessel damage and activate protective mechanisms to improve the function of arteries.