View clinical trials related to Endothelial Dysfunction.
Filter by:This study is an ancillary (add-on) study to the clinical trial entitled "Effect of Nitric Oxide in Cardiac Surgery Patients With Endothelial Dysfunction", which has Clinical Trials.gov identifier NCT02836899. NCT02836899 trial randomizes cardiac surgical patients to receive either Nitric Oxide (NO) or a placebo during and after cardiac surgery. This ancillary study aims to assess the effects of Nitric Oxide on vascular responsiveness and on endothelial function during hemolysis in patients with pre-operative endothelial dysfunction undergoing cardiac surgery requiring prolonged cardiopulmonary bypass.
Even though, the efficacy of Low-Intensity Shockwave Therapy (LIST) to treat Erectile Dysfunction (ED) has been documented by numerous trials; it is still not recommended by clinical guidelines. Different types of: shockwave generators, treatment protocols and ED severities of patients included in the studies, explain the lack of recommendations for a standard treatment. Ideally, each shockwave generator should have its own efficacy data from randomized controlled trials, using standardized protocols, and in defined populations. Objective: to test the efficacy of a electromagnetic shockwave generator (Dornier Aries) in treating patients with mild and moderate ED in a randomized controlled trial. Patients and methods: 38 patients with mild/moderate ED (IIEF-5= 11-21), are being prospectively randomized (1:1) to receive 6 sessions of LIST or sham (same: number of sessions, time and sound, with out transmitting energy). The patients and who analyzed the data are blind to randomization. The following parameters were analyzed: IIEF-5, IIEF-15, Sexual Encounter Profile (SEP) 2 and 3, Global Assessment Question (GAQ) 1 and Erection Hardness Score (EHS) at: baseline (T0), at the end of the 6 sessions (T1); at 6 (T2) and 12 weeks (T3). During all the study patients were instructed to receive no other treatment for ED. After ending T3 we expect to treat placebo patients to see impact of changing arm study.
This study is focused on assessing potential health benefits of daily consumption of potatoes, specifically its resistant starch content (i.e. nondigestible carbohydrate), on blood vessel and gut health function in adults with metabolic syndrome. It is expected that the daily consumption of potatoes for two weeks, within a diet that follows the Dietary Guidelines for Americans, will improve blood vessel function in association with decreasing gut permeability ("leaky gut") that results in the absorption of bacterial toxins that reside in the intestine. Outcomes will therefore support dietary recommendations for potatoes to support vascular and gastrointestinal health.
The investigators will study the effects of methotrexate on blood pressure, arterial stiffness and endothelial function in patients with rheumatoid arthritis.
Background: This study is designed to provide samples to help us study the genes your blood cells are making as well as the proteins, sugars, fats, vitamins and other metabolites found in your blood or urine. Blood samples may also be collected to make special cells. These are called induced pluripotent stem cells or iPSCs. Pluripotent stem cells are cells that can be converted into any type of cell. Researchers want to study in the lab iPSCs that are derived from blood samples. Objective: To collect samples to help study genes, proteins, sugars, fats, vitamins, and other metabolites found in blood or urine. Eligibility: Healthy volunteers and patients ages 18 and older Design: First-time research study participants at NIH will have an initial visit for this study that should last no more than 1 hour. All other visits should last 20 30 minutes. Participants will undergo a limited history and physical exam. Participants may have routine blood and urine tests. If participants are giving a blood sample, they must have a hemoglobin level checked in the past 12 months to make sure it is safe for them to give a blood sample for research. Participants may have a venous blood collection. They may do this at several visits. They will lie on a recliner or couch or sit in a chair. A needle will be placed into a vein in the hand or arm, using sterile techniques. Blood will be withdrawn into multiple syringes or tubes. Participants may be asked to provide urine in an appropriate container...
The American College of Sports Medicine (ACSM) recommends that resistance exercise performed at greater than 70% one repetition maximum (1 RM) is necessary to induce strength gains and muscular hypertrophy (ACSM, 2009). However, previous work has shown resistance exercise at high intensity increases the rate of injury. Blood flow restriction (BFR) exercise is a method that is used to compress the blood vessels to the exercising muscle in order to reduce blood flow to the limb with the use of low-intensity resistance. Researchers have suggested that resistance exercise at intensities as low as 20-30% 1-repetition maximum with BFR increases in muscle mass, muscular endurance, and gains in strength. However, the acute heart and blood vessel changes in response to BFR are not clear. Work by our laboratory (Tai et al., 2016) has demonstrated that immediately following acute resistance exercise at moderate intensity (75% 1 RM) without BFR, there are no changes in aortic and brachial systolic and diastolic blood pressure (BP), but there are increases in the pressure of the reflective wave (augmentation pressure). This suggests that the arterial wall is stiff, and may in turn result in thickening of the arterial wall. However, the data are limited and these responses may not be universally accepted. In addition, these studies used primarily lower-body resistance exercises (squat, leg extension, and leg flexion), and did not assess changes in heart and blood vessel function. Previous researchers have demonstrated that upper-body exercise induces higher BP and heart rate (HR) than lower-body exercise. However, the effects of upper- and lower-body resistance exercise with BFR on heart and blood vessel function are still unclear. Therefore, understanding the effects of upper- and lower-body resistance exercise with BFR on heart and blood vessel function using weight machines, specifically the chess press, latissimus dorsi pulldown, knee extension, and knee flexion may significant impact how the resistance training program is prescribed.
This is a monocentric pilot study to assess the safety profile of a 30-meter deep underwater diving using 3 different type of gas mixtures: AIR (21% O2 and 79% N2), NITROX 32 (32% O2 And 68% N2) and TRIMIX (21% O2, 44% N2 and 35% He).
Cardiac surgery patients have many risk factors for endothelial dysfunction (hypertension, atherosclerosis, dyslipidemia, chronic renal failure ...). It is likely that a significant number of patients suffering from a preexisting endothelial dysfunction. This endothelial dysfunction can be assessed by a molecular approach (determination of NO, ICAM1, VCAM1, IL8, endothelial microparticles ...). Extracorporeal circulation with ischemia-reperfusion causes a breach of particularly important glycocalyx as ischemia-reperfusion injury is. No studies have evaluated the time course of the infringement, and its association with the immediate post-operative complications (SIRS, coagulopathy, vasoplegic syndrome, renal failure). Only one study has regained an association between endothelial dysfunction during cardiac bypass surgery and postoperative cardiac surgery vasoplegic syndrome. A study in noncardiac surgery has regained an association between endothelial dysfunction (assessed by a vasoplegia test) and postoperative acute renal failure. Thus there is some data in the literature to suggest that the occurrence of postoperative complications (SIRS, coagulopathy, capillary leak syndrome, acute circulatory failure vasoplegic and acute renal failure) may result from the interaction between a pre-existing endothelial dysfunction and "operative" aggression (extracorporeal circulation). The onset of complications result from an interaction that depends on the importance of endothelial dysfunction at baseline.
This study evaluates the effects of emotional status on coronary flow in patients undergoing elective coronary angiography. Patients whom undergoing elective coronary angiography will fulfill the Beck Anxiety Inventory, Beck Depression Inventory, State-Trait Anxiety Inventory, Hospital Anxiety and Depression Scale. State Anxiety Inventory will be fulfilled both before the intervention and after 1 hour the patients learned the results of the coronary angiography. The other scales will be performed after 1 hour the patients learned their results. Coronary flow will be assessed by TIMI (Thrombolysis In Myocardial Infarction) frame count method.
Pregnancy complications like pre-eclampsia (PE), pregnancy induced hypertension (PIH), intra-uterine growth restriction (IUGR) and preterm labor (PTL), (i.e. the major part of complications in pregnancy) are related to an impaired endothelial function. Endothelial dysfunction accounts for altered vascular reactivity, activation of the coagulation cascade and loss of vascular integrity. Nitric oxide (NO), a free radical molecule derived from L-Arginine by NOS (Nitric Oxide Synthase), is an endogenous endothelium-derived relaxing factor influencing endothelial function. In the placental circulation, endothelial release of NO dilates the fetal placental vascular bed and thus ensures feto-maternal exchange. The impaired endothelial function in pregnancy complications originates from production of inflammatory and cytotoxic factors by the ischemic placenta and results in oxidative stress and an altered bioavailability of NO. Measurement of endothelial function using peripheral artery tonometry and determination of ROS (reactive oxygen species) and RNS (reactive nitrogen species) using Electron Paramagnetic Resonance (EPR) gives an idea of the oxidative stress that took place and the degree of endothelial dysfunction that occurred during pregnancy.