View clinical trials related to Inflammation.
Filter by:The purpose of this study is to test the effect of a cocoa-derived dietary flavanol on brain structures and cognitive outcomes in a 12-week randomized controlled trial of 146 healthy participants, age 50-69, who will receive this cocoa derivative or a placebo. Th investigators will also examine the role of inflammation in this relationship.
The purpose of this research is to measure the extent of lung inflammation between different groups of participants using a radioactive tracer called [18F]NOS. A radioactive tracer is a type of imaging drug that is labeled with a radioactive tag and injected into the body.
Subjects with metabolic syndrome are known to possess chronic low-level inflammation. Furthermore, such individuals are at risk of developing atherosclerosis in coronary and other vascular beds. In particular, subjects with metabolic syndrome, prediabetes and type II diabetes mellitus were shown to possess vascular inflammation in carotid atherosclerosis as demonstrated using FDG-PET. In the current pilot proposal, the investigators wish to study the impact of 3-month probiotic supplementation on vascular and systemic inflammation in subjects with metabolic syndrome in the context of a randomized, placebo-controlled, pilot trial.
Small airway inflammation and dysfunction will be measured in 40 children and 40 adults with asthma before and after 8 weeks of treatment with inhaled budesonide. The same measurements will be conducted once in 80 age and sex matched healthy controls.
Study on patients with CNS infections.
Cardiometabolic disorders are a leading cause of death worldwide. Replacing saturated fatty acids (SFA) with unsaturated fatty acids is recommended as a way of lowering cardiometabolic disease risk. Consuming a diet rich in SFA may lead to a greater metabolic-inflammatory response in white adipose tissue during the fasting state, when compared to eating a diet rich in monounsaturated fatty acids (MUFA). Since individuals spend most of the day in the fed (or postprandial) state, it is important to see how different types of dietary fatty acids affect postprandial white adipose tissue and systemic metabolic-inflammatory responses. This study will investigate the effect of a SFA-rich meal on markers of white adipose tissue and systemic metabolic-inflammation, compared to a MUFA-rich meal in overweight adults. In a randomised, single blind controlled, cross-over manner participants will consume either a SFA- or MUFA-rich meal and sequential blood and white adipose tissue samples will be collected before and until 6 hours postprandially.
Skeletal muscle stem cells (Satellite cells) are indispensable for muscle growth and remodeling following myofibril damage. Skeletal muscle trauma is present in numerous catabolic conditions, characterized by elevated proteolysis and muscle wasting such as, cancer cachexia and muscular dystrophy, which result in physical capacity impairment and a deteriorated quality of life. Recent studies performed in animals and cell cultures indicate that the increased levels of inflammation and oxidative stress and the reduction of antioxidant defense may blunt the satellite cells response and myogenic programming during muscle healing. However, evidence regarding the effects of redox status on satellite cells and muscle myogenic potential in humans is lacking. Exercise-induced muscle damage bears striking similarities with the aforementioned conditions, which makes it a valuable tool to investigate the redox-dependent regulation of satellite cells during muscle healing. Thus, the objectives of the present study are to examine the effects of redox status perturbation (via N-acetylcysteine administration) on intracellular pathways responsible for satellite cells responses at rest and following aseptic muscle trauma induced by damaging exercise.
This randomized study compares operative techniques in chronic rhinosinusitis with polyposis (CRSwNP) surgery. It aims to evaluate outcomes in asthma and CRSwNP, safety and costs. The investigators want to see if patients with certain clinical and/or genetic predispositions will benefit from extended surgery. They also aim to find biomarkers for detection and management models for of severe airway inflammation and to further develop markers for progressive disease forms.
The complex pathological cascades leading to both Alzheimer's disease (AD) and Parkinson's disease (PD) involve, at various points, inflammation. Since inflammation is a treatable symptom, understanding how and when it impacts the brain, and where specifically in the brain, would offer important guidance in the development of new treatments, sorely needed in both diseases. Microglia play an important anti-inflammatory role, and produce a substance, mitochondrial translocator protein (TSPO), whose presence can be used as a marker of regional inflammation. GE180 is a newly developed PET ligand which binds to TSPO and hence can be used in imaging studies to analyze regional inflammation in living patients. In prior studies it has shown regional specificity in multiple sclerosis and brain injury. In the current study, the investigators will be using GE180 to analyze regional and global inflammation in the brains of patients with AD and PD at a single time point. The results of the current study will provide enriched understanding of inflammation in these conditions, and potentially provide preliminary data to inform design of future interventional trials.
Arterial wall inflammation has been consistently suggested to serve a causal role in promoting atherosclerosis and predisposing to hard cardiovascular outcomes. Therefore, there is a global trend in the pharmaceutical industry to develop safe and effective anti-inflammatory agents that could lessen arterial wall inflammation and prevent its detrimental impact on atheroma growth and instability. To this end, autophagy has emerged as a key regulator of inflammation and dysfunctional autophagy machinery has been consistently reported as a contributing factor to atherosclerosis and inflammation. Trehalose, a natural disaccharide sugar found extensively among miscellaneous organisms, by preventing protein denaturation plays various protective roles against stress conditions. Numerous studies indicated trehalose's ability to induce macrophage autophagy-lysosomal biogenesis and reduce inflammation. Also, intravenous (IV) administration of trehalose showed beneficial effects in the reversal of atherosclerosis in atherosclerotic animals. Therefore, in this study, the investigators will explore the potential efficacy of IV trehalose administration on arterial inflammation by employing an positron emission tomography (PET) with 18F-labeled fluoro-2-deoxyglucose (18F-FDG) and computed tomography (18F-FDG PET/CT) technique which noninvasively characterizes vascular inflammation and atherosclerosis.