View clinical trials related to Healthy.
Filter by:Obesity and its metabolic complications are leading causes of global morbidity and mortality. Evidence is mounting that inappropriate timing of food intake contributes to obesity. Specifically, late eating is associated with greater weight gain and metabolic syndrome. However, the mechanism by which late eating harms metabolism is not fully understood but may be related to mis-timing of food intake in relation to the body's endogenous circadian rhythm. Conversely, harmonization of eating timing with endogenous circadian rhythm may optimize metabolic health. In this study the investigators will use gold-standard methods of characterizing circadian rhythm in humans to examine the metabolic impacts food timing relative to endogenous circadian rhythm.
This study investigates whether obeticholic acid affects gut microbiota, gastric motility, accommodation, and gastrointestinal peptide in healthy subjects. This study is a single-blind, placebo-controlled, randomized study. Twelve healthy volunteers will take one tablet containing obeticholic acid (10 mg) or a placebo once per day for 21 days for the first intervention. After 28 days washout period, they will take a tablet different from the one taken in the first intervention. Before the first intervention, they will receive MMC, IGP and endoscopy exam. At the end of the first and second interventions, they will receive the same exams. During MMC&IGP, we will take blood samples to measure plasma hormones (motilin, octa-ghrelin, GLP-1, GLP-2, GIP, and insulin) and take duodenal fluid. When the endoscopy, we will take samples from the duodenal for microbiota, permeability measurement, RNA, protein, and pathology. Before and during the interventions, stool samples will be collected.
Gut microbiota alterations secondary to chronic stress might serve as a triggering factor towards manifestation of somatic and mental symptoms. The administration of pasteurised A. muciniphila MucT has the capability of supporting microbiota and improving the gut barrier integrity, which might lead to decrease of inflammation and the negative health consequences of stress in healthy participants.
The goal of this exploratory study is understand the mechanisms of response to immunotherapy in Non-Small Cell Lung Cancer patients. The investigators are going to search for correlation between specific biological features and response to immunotherapy, and to use those associations for developing an algorithm enabling to identify patients that could benefit from the immune check inhibitor based anti cancer treatment. Patients will provide biological samples before and during their treatment, and clinical data will be collected.
The purpose of the study is to investigate the effect of different blood flow restriction (BFR) interventions on muscle function and adaptations both in healthy well-trained individuals and individuals diagnosed with COPD.
Neuroscience has long focused on understanding brain activity during task performance. As a result, current training methods aim to maximize brain activation during a trained task. However, new evidence shows that this may not be an efficient way to go. Human subjects achieve maximum performance only when the brain network is in a state of high spontaneous interaction and communication between brain regions before training or, in other words, in a state of high "network communication." In this case, minimal effort is required during the task. This requires new learning strategies aimed at inducing higher network communication prior to task execution. The investigators have previously shown that healthy people can learn to increase network communication of motor areas (i.e., the areas that control movement) when they receive real-time feedback on their current activity, which is known as neurofeedback. In neurofeedback, subjects receive continuous feedback about the state of their brain activity in a present moment. Through this feedback, they can learn to change their own brain activity. The aim of the present study is to validate neurofeedback as a new treatment approach for inducing high network communication at rest (i.e., when participants are not engaged in a task), and to test whether this heightened network communication can enhance visual perception and motor learning.
Four-part study of the safety, tolerability and pharmacokinetics of 3 forms of TR-01-XRR, 1 form of TR-01-XRS, and 1 form of TR-01-XR in healthy adults.
This is a clinical study with participants over 18 years of age that meet the selection criteria. This will be 42-day study divided into three phases of 14 days each: 14 days without intervention, 14 days with intervention with functional foods and 14 days without intervention again. With the objective of assess the changes in the postprandial glycemic responses through the gut microbiota and urine metabolites.
In this study, participants will receive, in a randomized, double-blind fashion, an intragastric bolus administration of either (i) 300 mg quinine, (ii) 5 g L-leucine, (iii) a combination of (i)+(ii), or (iv) control, before 350 ml (500 kcal) of a mixed-nutrient drink, to evaluate the effects on postprandial blood glucose, gastric emptying, and the hormone responses to the mixed-nutrient drink. Study visits will be separated by 3-7 days and participants will receive one treatment per visit. On each study visit, the participant will be intubated with a nasogastric feeding tube. At t= - 60 min (08:30 am), a baseline blood sample, visual analogue scale questionnaire (VAS), and breath sample will be collected and quinine or control will be administered through the feeding tube. 30 min later (at t= - 30 min), L-leucine or control will be administered over 2 min after which the feeding tube will be removed immediately. At t = -45, -30, -15, and -1 min further blood samples will be collected and VAS completed. At t = -1 min, participants will consume, within 1 minute, a mixed-nutrient drink, labelled with 100 mg of 1-13C-acetate for measurement of gastric emptying by breath sampling. Blood samples, VAS, and breath samples will be taken at regular intervals between t = 0-180 min.
This is a randomized, double-blind, placebo-controlled phase I clinical study evaluating the safety, tolerability, and pharmacokinetics of ASC11 plus ritonavir tablets in healthy subjects and an open-label, cross-over study evaluating the effect of food on the pharmacokinetics of ASC11 plus ritonavir tablets