View clinical trials related to Metabolic Disorder, Glucose.
Filter by:Diet and nutrition are key to maintain human health. Westlake N-of-1 Trials for Macronutrient Intake (WE-MACNUTR) trial investigates individualized postprandial glycemic responses to different proportions of dietary fat and carbohydrates intake using an n-of-1 experimental study design. The experimental diets are isocaloric high fat, low carbohydrate (HF-LC) or low fat, high carbohydrate (LF-HC). With standardized intervention and strictly controlled eating behaviors, the WE-MACNUTR study identifies specific HC-responders and HF-responders in terms of postprandial glucose response. This is a follow-up study offered to participants who have completed the WE-MACNUTR study in 2019. Volunteers will be asked to participate in four 5-d periods while wearing glucose monitors (Abbott Freestyle Libre) with the following experimental sequence: 1) a washout diet, 2) HF-LC or LC-HF diet, 3) a washout diet, 4) HF-LC or LC-HF diet. The experimental diet will be randomly assigned. Participants will be asked to provide a fasted blood sample and to collect fecal, urine and saliva samples at each visits.
When muscles are not contracting, the local energy demand by muscle and use of specific fuels used to produce energy by oxidative metabolism are minimal. The time people spend sitting inactive (sedentary time) typically comprises more than half of the day. This sedentary behavior is associated with elevated risk of diabetes, cardiovascular diseases, some cancers, and multiple conditions leading to poor aging. From a progressive series of experiments, the driving goal is to develop a physiological method for sustaining contractile activity via oxidative metabolism over more time than is possible by traditional exercise (hours, not minutes per day). Developing a physiological method suitable of prolonged muscular activity for ordinary people (who are often unfit) requires gaining fundamental insights about muscle biology and biomechanics. This also entails a careful appreciation of the ability to isolate specific muscles in the leg during controlled movements, such as the soleus muscle during isolated plantarflexion. This includes quantifying specific biological processes that are directly responsive to elevated skeletal muscle recruitment. The investigators will focus on movement that is safe and practical for ordinary people to do given their high amount of daily sitting time. This includes developing methods to optimally raise muscle contractile activity, in a way that is not limited by fatigue, and is feasible throughout as many minutes of the day as possible safely. This also requires development of methodologies to quantify specific muscular activity, rather than generalized body movement. There is a need to learn how much people can increase muscle metabolism by physical activity that is perceived to them as being light effort. It is important to learn if this impacts systemic metabolic processes under experimental conditions over a short term time span in order to avoid confounding influences of changes in body weight or other factors.
This is a dietary intervention study in students and staff of Westlake University, which is designed to provide evidence in support of N-of-1 methods as an approach to advance personalized nutrition. The primary aim is using a series of N-of-1 trials to determine the impacts of a high fat, low carbohydrate diet (HF-LC) on glucose metabolism and gut microbiota in subjects versus a low fat, high carbohydrate diet (LF-HC) at both the individual and group level.
In this study the investigators aim at addressing potential relationships between iron stores and glucose homeostasis. Iron (i.e. Ferric Carboxymaltose) will be perfused to pre-menopausal, iron-deficient non-anaemic women suffering from a chronic fatigue syndrome and parameters related to glucose homeostasis, parameters related to metabolic syndrome and inflammation will be measured before and after the intervention.