View clinical trials related to Metabolic Diseases.
Filter by:Food is emerging as the new medicine. There has been growing evidence of the beneficial effects of foods, including nuts on human health. Modulation of both glucose and insulin are at the heart of reducing the risk of cardiovascular and other metabolic diseases. The contribution that nuts have on human health has been studied extensively and it is well established that the consumption of nuts revealed improvements in both blood glucose profile and reduced the risk of coronary heart diseases. Nuts, such as almonds, are nutrient-dense foods that are particularly rich in a-tocopherol. They are excellent sources of protein (~25% of energy) and fibre, low in saturated fatty acid content (4-6%) and high in monounsaturated fatty acids. They also contain significant amounts of essential micronutrients such as folate (B vitamin) and polyphenols. Recently, strong interests on the health effects of nuts improving metabolic syndrome and controlling diabetes has been reported. Preliminary studies have indicated that the inclusion of nuts in the diets of individuals with diabetes and/or metabolic syndrome may improve postprandial glycaemic response, and lipid metabolism in the long run.
Historically, CKRT and hemodialysis were performed in small infants and newborns with devices developed for adults with high rates of complications and mortality. We aim to retrospectively report the first multicenter French experience of CARPEDIEM® use and evaluate the efficacy, feasibility, outcomes, and technical considerations of this new device in a population of neonates and small infant. Compared to adult's device continuous renal replacement therapy with an adapted machine allowed successful blood purification without severe complications even in low birth weight neonates.
Normal volunteers were randomly received Sheep ghee or sunflower oil, and before and after the study lipid profile and HS-CRP were measured.
This study prospectively observed the complications intended as diarrhea or sti-sis that critically ill patients developed within 7 days after ICU admission. In addition, secondary aims investigated through bioimpedenziometry the loss of lean body mass and changes in phase angle during the same period of ICU stay.
Milk proteins possess multiple biological activities including their effect on blood glucose control, satiety and energy intake. The design of functional food products with added milk protein fractions has many challenges related to their inferior sensory properties. Chocolate milk presents the universal vehicle for added milk protein fractions that might partially mask their sensory characteristics. However, commercially produced chocolate milk has a significant amount of added sugar. This project will investigate the properties of a value-added dairy product (chocolate milk with reduced sugar content) enriched with individual milk protein fractions on characteristics of blood glucose control, satiety and energy intake in young healthy adults.
This study evaluates the effect of optimizing trunk support based on segmental principles of trunk control, on academic engagement of children in academic settings.
Around 10% has type 2 diabetes in Greenland, despite being a practically unknown disease only six decades ago. The drastic increase is of great concern, especially considering the transition that have occurred during the same decades going from a fisher-hunter lifestyle towards a more western lifestyle. Today, traditional marine foods are still increasingly being replaced by imported foods high in refined sugar (sucrose) and starch. Furthermore, recent studies discovered that the Greenlandic population harbors a different genetic architecture behind type 2 diabetes. Hence, obtaining more knowledge on interactions between lifestyle, genetics, and metabolism is therefore crucial in order to ameliorate the growing curve, or maybe even turn it around. Sucrose intolerance is in general rare; however, it is a common condition in Greenland and other Inuit populations. Here it is caused by a genetic variant in the sucrase-isomaltase (SI) gene, resulting in complete loss of enzyme function and hence an inability to digest sucrose and some of the glycosidic bonds in starch, both carbohydrates that are not part of the traditional Inuit diet. A recent, unpublished study found the variant to be associated with lower BMI, body fat percentage, bodyweight, and lipid levels independent of the lower intake of refined sugar. This might be explained by differences in the metabolism of carbohydrates and in the gut microbiota. The healthier phenotype was confirmed by a SI knockout mouse model, which furthermore interestingly indicated that the variant might alter food and taste preferences. It is anticipated that the drastic increase in type 2 diabetes in Greenland can be explained at least partly by the complex interaction between lifestyle and genetics. Therefore, the aim is to investigate if metabolic and microbial differences can explain the healthier phenotype of the homozygous carriers of the SI variant than wildtype individuals amd perform a 3-day cross-over dietary intervention using assigning subjects to a traditional Greenlandic diet and a Western diet. Moreover, the aim is to assess whether their food and taste preferences are different. The study will help us to understand the complex interactions between lifestyle, behavior, genetics, the microbiota and the host metabolism.
To explore current practices of nutrition and metabolic screening, assessment and management prior to Haematopoietic Stem Cell Transplant (HSCT) in UK and ROI transplant centres. Nutrition and metabolic parameters assessed in the survey include glycaemic control, lipid function, liver function, nutritional screening, nutritional assessment, nutrition intervention (tube feeding, diet, micronutrient) and exercise. This work will be used to inform the design of a UK dual centre feasibility study of personalised nutrition and metabolic care for HSCT patients prior to transplantation.
This study is aimed at evaluating the hypoglycemic effects of a dietary supplement that associates the properties of two inositols (myo-inositol and D-chiro-inositol) in the ratio 40:1 to Gymnema sylvestre, alpha-lactalbumin and zinc.
The goal of this project is to elucidate interactions between the gut microbiome, anti-inflammatory/anti-oxidant food metabolomic signatures, and human inflammation phenotypes. Inflammation plays both direct and indirect roles in the development of type 2 diabetes (T2D), atherogenic cardiovascular diseases, and other causes of morbidity and mortality. Aronia melanocarpa (Aronia berries) are rich in bioactive polyphenolic compounds, which have been shown to lower inflammation and favorably impact metabolism. However, there is tremendous inter-individual variability in the bioavailability of polyphenolics and production of bioactive phenolic metabolites in the colon that depends, at least in part, on digestive metabolism by the gut microbiota. Little is known about the complex interactions among the gut microbiome, anti-inflammatory food metabolomic signatures, and human inflammation phenotypes. This study will utilize a systems-level approach to disentangle these complex interactions. The specific study objectives are as follows: 1. to determine the impact of Aronia supplementation on inflammation, metabolic health, and gut microbiome composition 2. to determine the static and dynamic metabolomic signature of Aronia based on an Aronia supplementation period and responses to a high-fat meal challenge