View clinical trials related to Metabolism.
Filter by:Microbiota is known to effect metabolism. This is pilot study to get status of microbiota from normal control. It will be compared to data from specific patients in ICU via further study.
The foods we eat - our diet - can affect whether we develop diseases during our lives, such as diabetes or heart disease. This is because the amount and types of foods we eat can affect our weight, and because different foods are metabolised (processed) by the body in different ways. Scientists have also found that the bacteria in our guts (the gut microbiome) affects our metabolism, weight and health and that, together with a person's diet and metabolism, could be used to predict appetite and how meals affect levels of sugar (glucose) and fats (lipids) found in blood after eating. If blood sugar and fat are too high too often, there's a greater chance of developing diseases such as diabetes. The gut microbiome is different in different people. Only 10-20% of the types of bacteria found in our guts are found in everyone. This might mean that the best diet to prevent disease needs matching to a person's gut microbiome and it might be possible to find personalised foods or diets that will help reduce the chance of developing chronic disease as well as metabolic syndrome. The study investigators are recruiting volunteers aged 18 years or over from the TwinsUK cohort to take part in a study that aims to answer the questions above. The participants will need to come in for a clinical visit where they will give blood, stool, saliva and urine samples. The participants will also be given a standardised breakfast and lunch and fitted with a glucose monitor (Abbott Freestyle Libre-CE marked) to monitor their blood sugar levels. After the visit, the participants will be asked to eat standardised meals at home for breakfast for a further 12 days. Participants will also be required to prick their fingers at regular intervals to collect small amounts of blood, and to record constantly their appetite, food, physical activity and sleep using apps and wearable devices.
The objective of this study is to determine the impact of an integrated personalized dietary and wellness program which includes dietary advice, meals, and counseling on health and wellness.
Accumulating evidence suggests that the natriuretic peptide (NP) hormonal system has important effects on metabolism. However, more information is needed to better understand the effects of NPs on metabolism in humans. Therefore, the investigators propose a study to determine the effects of b-type natriuretic peptide (BNP) on energy and fat metabolism in humans. The investigators' primary hypothesis is that the administration of BNP will increase energy expenditure in humans. The investigators' secondary hypothesis is that BNP administration will promote changes in gene expression in fat tissue suggestive of fat "beiging" in humans. Interventions that safely increase energy expenditure and promote fat "beiging" represent potential strategies for treating metabolic dysfunction due to obesity.
An estimated 1500 people in Sweden will annually be diagnosed with head and neck cancer (HNC). Five year survival is approximately 69%. Long-term sequelae are common and in particular nutritional problems and fatigue. Radiotherapy (RT) is the cornerstone of treatment, either as single modality treatment or combined modality treatment. RT can induce immune responses at the site of tumor. It has been demonstrated that RT can lead to a strong systemic immune response . We have previously shown that an increase of conventional measures of systemic immune response to RT varied significantly across individuals. We predict that local immune response plays a major role in the antitumor effect. We also predict that a strong systemic immune response contributes to malnutrition and influence on survival. And malnutrition may lead to a worse response to RT. The overall aim of this multicenter observational longitudinal study is to prospectively identify immunological and metabolic variables that affect the outcome of HNC patients. We will systematically investigate the local and systemic immune response induced by RT as well as explore alterations in metabolite composition induced by disease and treatment through global metabolite profiling. A platform for studies on immuno-metabolic changes in HNC patients has been established in the Uppsala-Orebro and Northern regions. Approximately 370 patients per year are eligible. Findings in this study can have implications on the development of personalized therapy in patients with HNC. The long-term benefit of the study will be the identification of measures for improved patient surveillance in order to improve the general and nutritional outcomes.
This study compares three different protein supplements (casein, whey and leucine-enriched whey) and their effect on post-inflammatory muscle waste in a model of acute disease. Each test person will undergo all three interventions. It is believed that leucine is the primary driver of muscle protein synthesis and therefore we hypothesize that leucine-enriched whey and whey are superior to casein in combating post-inflammatory muscle waste, because of its higher leucine content (16%, 11% and 9% leucine, respectively).
Lipedema is a disorder characterized by massive, bilateral accumulation of fat below the waist and in the legs. Enlargement of the lower extremities is often accompanied by leg pain and accumulation of fluid. Little is known about the functional changes that lead to fat accumulation and pain in women with lipedema. The goals of this project are to conduct a comprehensive characterization of abdominal and femoral fat tissues in lean and obese women with lipedema and to evaluate the potential effect of diet-induced weight loss as a therapy. Once enrolled in the study, the following tests will be conducted on lean women with lipedema: characterization of body composition (fat tissue distribution), insulin sensitivity (response to insulin) and adipose tissue biology. The following tests will be conducted on obese women with lipedema: characterization of body composition (fat tissue distribution), insulin sensitivity (response to insulin), adipose tissue biology, and immune system function/inflammation. As control, we will have BMI-matched women that are metabolically normal lean (MNL), metabolically normal obese (MNO) and metabolically abnormal obese (MAO) already analyzed in different studies at Washington University (IRB# 201512086). MNL, MAO and MNO subjects underwent the same testing described above for the lipedema. Therefore, we will use the data generated from IRB# 201512086 as comparison groups in the statistical analysis to understand differences and similarities between lipedema and obesity. A second aim of the study is to determine the effect of diet-induced weight loss on body composition, insulin sensitivity, and adipose tissue biology in women with lipedema. The results from this second aim of the study will hopefully provide important insights on the efficacy of diet therapy in managing lipedema.
Patients with chronic obstructive pulmonary disease (COPD) are 2-3 times more likely to occur together with chronic gastrointestinal tract (GIT) diseases, such as inflammatory bowel disease (IBD) or irritable bowel syndrome (IBS). Similarly, despite many patients have no history of acute or chronic respiratory disease, up to 50% of IBD patients and 33% of IBS patients have pulmonary involvement, such as inflammation or impaired lung function. Increasing evidence indicated chronic gut and lung disease share key conceptual features with the disorder and dysregulation of the microbial ecosystem. However, the underlying mechanisms are not well understood. Our study is aimed to elucidate the intimate relationship between the gastrointestinal tract and respiratory tract, and uncover the mechanisms by which the gut microbiota affects the immune responses in the lungs, and vice versa.
The objective of the study is to determine whether music has any effect on resting metabolic rate (RMR), which is the amount of energy expended at rest. There is currently conflicting research on how music affects RMR. One problem with RMR testing is that participants often fall asleep during the test. There can be a 5-10% difference in the metabolic rate between rest and sleep. If no change in RMR is observed, playing music during an RMR test could be a potential strategy to prevent participants from falling asleep. Participants will undergo RMR measurements while listening to no music, relaxing classical music, and self-selected classical music.
The investigators want to establish a new model of acute febrile disease by mimicking the conditions seen in hospitalized patients in regards to inflammation, immobilisation and fasting. In this new model of disease, healthy young adults will be given lipopolysaccharide (LPS) to induce endotoxemia and inflammation/fever and then fast and bedrest for 36 hours. Glucose, fat and protein metabolism will be investigated using clamp technique and tracer methodology together with intracellular signalling pathway activation in muscle and fat biopsies. This new model of disease will later be used in another study to investigate different protein supplement´s effect on muscle waste during acute febrile disease.