View clinical trials related to Microvascular Dysfunction.
Filter by:This study aims to investigate how sepsis and shock can impair microcirculation in intensive care unit (ICU) patients, which can lead to long-lasting muscle weakness/dysfunction or ICU-Acquired Weakness (ICU-AW) and exercise limitations.
The goal of this low-intervention clinical trial is to learn about the effect of the drug Empagliflozin in patients with heart failure with preserved ejection fraction. The main questions it aims to answer are: - What is the effect of treatment with Empagliflozin after 3 months on peripheral microvascular function - Do clinical correlates for worse microvascular function exist, and thus identify patients that could possibly benefit most from empagliflozin treatment Patients will use Empagliflozin, prescribed by their treating physician. Before the start of treatment and after 3 months they will be asked to - Fill out a quality of life questionnaire - Draw 4 tubes of blood - Undergo non-invasive measurement of the blood flow of the microvasculature in the forearm (using laser speckle contrast analysis)
Primary goal of the registry is to collect prospective data on patients undergoing coronary angiography in Mainz. Following amendment of the procol, this study will also include patients who received an Aborb bioresorbable scaffold for the therapy of de novo stenoses.
This protocol focuses on the development of a noninvasive method of early coronary artery disease detection in diabetes. The overall hypothesis is that risk factors for the metabolic syndrome will predict invasive findings on intravascular ultrasound (IVUS) and noninvasive findings on cardiac magnetic resonance (CMR) perfusion imaging. Secondary objectives will include demonstrating the relative importance of individual risk factors early in disease, demonstrating the positive effects of aggressive risk factor modification on disease, demonstrating the relative importance of treatment of individual risk factors on disease progression or stabilization, and that invasive findings on IVUS will predict noninvasive findings with CMR. Such techniques may allow earlier noninvasive detection of disease as well as tailor treatment early in the disease process making prevention more cost effective. The specific aims of this proposal are as follows: 1. To assess whether risk factors for coronary artery disease, both known and novel, predict quantitative and qualitative plaque characteristics on IVUS and alterations in myocardial blood flow on CMR. 2. To assess whether improvements in risk factors through aggressive treatment improve microvascular function as measured by CMR and plaque stabilization and/or regression as measured by IVUS. 3. To assess which risk factors are most predictive early in disease and to demonstrate which risk factors, when treated, provide the most benefit. 4. To assess whether findings on CMR predict findings on IVUS, thus, providing a noninvasive method of early disease detection.