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This project is an observational study in patients with heart failure with preserved ejection fraction (HFpEF) who are candidates for treatment with weight loss medication to manage obesity or diabetes as part of their standard clinical care. This study will include multiple experimental visits before and after treatment (minimum 7 percent weight loss, between 9-12 months) to understand how increased adiposity and inflammation effects skeletal muscle and cardiovascular health and function and to examine the effect of medically directed weight loss on skeletal muscle health and exercise tolerance. The objective of this study is to 1. Define the mechanisms by which adiposity impairs exercise hemodynamics, microvascular function, and oxygen transport/utilization in patients with HFpEF. 2. Determine if intensive medically directed weight loss can reduce microvascular inflammation and normalize exercise hemodynamics. 3. Quantify the effect of medically directed weight loss on skeletal muscle function and catabolism. Hypotheses 1. Perfusion of subcutaneous adipose tissue disrupts blood flow distribution and impairs muscle microvascular perfusion and exercise hemodynamics. 2. Extramyocellular muscular lipid deposition and microvascular endothelial inflammation is associated with reduced capillarity and impaired microvascular perfusions, while intramyocellular triglyceride content is associated with poor skeletal muscle oxidative capacity, 3. Intensive weight loss will improve exercise hemodynamics, microvascular perfusion, and reduce muscular inflammation, and resistance training will augment these effects.
Vascular dysfunction is a common factor in many chronic debilitating diseases, contributing to morbidity and mortality. With the onset of chronic disease or exposure to stress, the vasculature displays an inability to adequately respond to increased blood flow demands, manifesting in a reduced ability or altered mechanism of vasodilation. Aging is an independent risk factor in the development of cardiovascular disease, and reduces vasodilator capacity, or alters the mechanism by which vasodilation occurs in multiple vascular beds. Chronic exercise/physical activity is one of the most potent ways to enhance vascular function, resulting in favorable outcomes such as reductions in blood pressure, and improved ability to perform activities of daily living. Barriers to exercise or failure of long-term adherence preclude many populations from the cardiovascular benefits of exercise, thus further enhancing cardiovascular risk. Avenues to mimic blood flow patterns observed with exercise may exert beneficial effects without the need for the ability to exercise. Recent evidence has demonstrated that passive heat therapy, or chronic heat exposure (\~ +1°C in core temperature) results in reductions in major adverse cardiovascular events, blood pressure and improved large artery endothelial function, primarily through preservation of large artery function in response to vascular stress. It is unclear whether microvascular function is augmented in response to acute heat exposure, or whether this can protect against vascular insults particularly in older adults. Some preliminary evidence in humans suggest that autophagy, a cell recycling process is involved in the beneficial cardiovascular effects, as short-term heat exposure upregulates markers of autophagy. Previous evidence from our lab indicates that autophagy governs the mechanism by which microvascular vasodilation occurs. The role of autophagy in mediating the beneficial effects of passive heating is unknown.
The goal of this clinical trial is to test the effects of a drug (in the drug class called sodium-glucose cotransporter 2 inhibitors) in women who have symptoms of ischemic heart disease. The main questions the study aims to answer are: Does blood flow in the heart improve with study drug? Participants will be randomly assigned to a 12-week course of the study drug, dapagliflozin 10mg, or placebo. Blood flow in the heart will be assessed using stress cardiac magnetic resonance imaging at baseline and 12 weeks. The researchers will compare the results from the two groups.
The investigators' goal is to show that in hypertensive men and women with left ventricular hypertrophy (LVH) treatment with a mineralocorticoid receptor (MR) antagonist, versus a thiazide-like diuretic, will improve coronary microvascular function and cardiac efficiency, which will associate with improvements in LV structure and function. The investigators will achieve this through a randomized, controlled, basic experimental study involving humans (BESH).
The overall objective of this 13-month randomized crossover study is to seek evidence demonstrating that daily consumption of peanuts and peanut products improve cardiometabolic, cognitive, and intestinal health in a racially diverse prediabetes population.
The goal of this clinical trial is to determine the effectiveness of using a freeze-dried wild blueberry powder on cardiometabolic health, cognitive function, and gut microbiota composition in adult women with prediabetes.
The purpose of the study is to determine the effectiveness of wild blueberries on cardiovascular health, cognitive function, and gut microbiota composition in non-Hispanic Black and White adults with elevated blood pressure.
Preeclampsia is a pregnancy disorder affecting \~5-10% of pregnancies in the United States. Women who develop preeclampsia during pregnancy are more likely to develop and die of cardiovascular disease later in life, even if they are otherwise healthy. The reason why this occurs is unclear but may be related to blood vessel damage and increased inflammation that occurs during the preeclamptic pregnancy and persists postpartum. Low dose aspirin (LDA; 75-150mg/daily) is currently the most effective and clinically accepted therapy for reducing preeclampsia prevalence in women at high risk for developing the syndrome. The purpose of this study is to interrogate the mechanisms by which LDA therapy mitigates persistent vascular dysfunction in postpartum women who have had preeclampsia. In this study, the investigators use the blood vessels in the skin as a representative vascular bed for examining mechanisms of microvascular dysfunction in humans. Using a minimally invasive technique (intradermal microdialysis for the local delivery of pharmaceutical agents) they examine the blood vessels in a dime-sized area of the skin in women who have had a history of preeclampsia. As a compliment to these measurements, they also draw blood from the subjects and isolate the inflammatory cells.
The goal of this clinical trial is to better understand how day-to-day stress affects cardiovascular health and brain function in middle-aged adults. The main question is aims to answer is whether the link between daily stress and vascular dysfunction is a potential mechanism of increased risk for future cognitive decline. Participants will complete two 15-day "testing cycles" separated by \~6 months. During each cycle, participants will complete two daily assessments of stress and brain health using an online survey tool for 14-consecutive days. On the last day of each cycle, vascular function will be assessed during a laboratory visit.
Stroke survivors have compromised vascular function which may contribute to secondary stroke risk, cardiovascular disease, and may limit their exercise tolerance. No studies have examined how femoral blood flow responds to both passive leg movement, a measure of microvascular function, as well as active leg contractions, a measure of the hyperemic response to exercise. Leg muscles with a reduced blood flow response to movement could be associated with decreased neuromuscular function, such as leg strength and fatigue. Preliminary data showing a single bout of ischemic conditioning may improve vascular function and muscle activation in healthy adults and individuals post-stroke. Therefore, the investigators want to examine if ischemic conditioning will also improve the blood flow response to passive leg movements as well as during single leg active contractions.