6 Clinical Trials for Various Conditions
Metabolic syndrome (MetS) adults (n = 24; 18-65 y) will be enrolled to complete a 2-arm, double-blind, randomized controlled, crossover trial. They will be randomized in 4-unit blocks to receive, for 14 d, a controlled diet with dairy milk (3.5% fat; 3 servings/d) enriched with milk fat globule membrane (MFGM, MEB) or a matched dairy milk that instead contains soy lecithin/phospholipid (control, COMP). All foods during each study period will be provided to ensure weight maintenance and to increase homogeneity of gut and host responses. Anthropometrics and blood pressure will be assessed at days 0, 7, and 14. Prior to (day 0) and after each 2-wk arm (day 14), a fasting blood sample will be collected to assess serum endotoxin and metabolic chemistries (glucose, lipids, insulin), and Toll-like receptor 4 /nuclear factor kappaB (TLR4/NFκB)-dependent genes from whole blood. A breath sample will be collected to assess the correlation analysis of plasma metabolic biomarkers. After the 2-week intervention, from fecal samples collected on day 13, the investigators will assess microbiota composition and function, short chain fatty acids (SCFA), and intestinal inflammatory markers (calprotectin, myeloperoxidase). On d 14, participants in the fasted state will receive a high-fat/high-glucose meal challenge to induce gut-derived endotoxin translocation. At 30-minute intervals for 3-hour, the investigators will evaluate circulating endotoxin, glucose, and insulin; TLR4/NFκB-dependent genes will be assessed from whole blood at 0 hour and 3-hour. Gut permeability probes will be co-administered with the test meal challenge, and 24-hour urine will be collected to assess gut barrier integrity. Participants will then undergo a 2-week washout prior to receiving the alternative treatment and completing all procedures in an identical manner.
This study is focused on assessing gastrointestinal-level improvements by which green tea limits metabolic endotoxemia. It is expected that catechin-rich green tea will improve gut barrier function to prevent endotoxin translocation and associated low-grade inflammation. Outcomes will therefore support dietary recommendations for green tea to alleviate obesity-related inflammatory responses. Specifically, the study is expected to demonstrate that a green tea confection snack food can attenuate metabolic endotoxemia in association with restoring gastrointestinal health.
This study evaluates dietary green tea extract to improve gut health and inflammation in persons with metabolic syndrome and healthy adults. Participants will complete two phases of intervention in random order in which they will consume green tea extract or placebo for one month and then switch to the opposite treatment for an additional month.
Forty-eight prediabetic men and women (50-75 years of age) will participate in a 6-week feeding study in which they will randomized to receive either 10 g/day of inulin or placebo. All subjects will be fed an isocaloric diet (50% carbohydrate, 35% fat, 15% protein,) controlled for micronutrient content for 6 weeks to avoid the potential confound of individual differences in diet on gut microbiota. Measurements of intestinal permeability, insulin sensitivity, and skeletal muscle metabolic flexibility will be made prior to and following the controlled feeding period. Stool samples will be collected to assess gut microbial communities.
This study is focused on assessing potential health benefits of daily consumption of potatoes, specifically its resistant starch content (i.e. nondigestible carbohydrate), on blood vessel and gut health function in adults with metabolic syndrome. It is expected that the daily consumption of potatoes for two weeks, within a diet that follows the Dietary Guidelines for Americans, will improve blood vessel function in association with decreasing gut permeability ("leaky gut") that results in the absorption of bacterial toxins that reside in the intestine. Outcomes will therefore support dietary recommendations for potatoes to support vascular and gastrointestinal health.
This study will investigate the gut microbiota-mediated effects of whole wheat consumption on human health in adults with pre-diabetes. Participants will complete two phases of intervention in random order in which they will consume either whole wheat bread (4 servings) or white bread a day for two weeks prior to collecting specimens (stool, urine, and plasma/serum).