View clinical trials related to Insulin Sensitivity.
Filter by:The purpose of the research is to determine if protein and omega-3 fatty acid supplementation improve sleep, improve body composition, and improve markers of metabolic health in postmenopausal women.
The objective of this study was to determine how metabolic and inflammatory effects of physical exercise in overweight individuals are altered when sugar-sweetened beverages (SSB) are consumed after physical exercise. A randomized, controlled crossover trial was performed in which participants performed exercise with and without the ingestions of SSB during exercise or a non-exercise control condition to evaluate metabolic and inflammatory responses one day after the exercise and or SSB treatment.
The aim of the intervention is to gain insight into the long term effect of dietary fatty acid quality on insulin sensitivity and health parameters in healthy men. Whole body and peripheral insulin sensitivity were measured, together with analyses of plasma hormones and metabolites. The plasma proteome was also analyzed. Molecular adaptations in skeletal muscle and adipose tissue were subject for investigation. Furthermore, gut microbiota population number and diversity will be analyzed from faeces samples obtained before and after the intervention.
Regular exercise is a cornerstone in the prevention and the management of cardio-metabolic risk factors. Some of the beneficial effect of exercise training occurs through metabolic flexibility' enhancement. Metabolic flexibility is the ability to respond or adapt to conditional changes in metabolic demand, and previous literature has shown that individuals living with obesity have an impaired metabolic flexibility compared to lean individuals. However, there is a lack of empirical evidence on the impact of sprint interval training on metabolic flexibility and whether this translates into clinically meaningful outcomes. This study will evaluate the impact of 4-week sprint interval training in normal weight individuals as well as individuals living with obesity on acute and chronic metabolic flexibility, irisin secretion and insulin sensitivity.
The objectives of this proposal are to address the gaps in knowledge regarding the metabolic effects of consuming orange juice, the most frequently consumed fruit juice in this country, compared to sugar-sweetened beverage.
The investigators are studying the effects of Hyperglycemia on vascular function and insulin sensitivity on healthy adults
Many teenagers do not get enough sleep. Obesity and diabetes are increasing in teenagers as well. This study plans to learn more about sleep and insulin resistance (insulin not working) in teenagers, and how these things may be related depending on sleep. This is important to know so that the investigators understand how sleep may play a role in health conditions like extra weight gain (increased food intake and less physical activity) and diabetes. To answer this question, the investigators plan to enroll teenagers who get <7 hours of sleep on school nights and measure changes in insulin sensitivity and dietary intake after a week of typical sleep (sleeping on their normal school schedule) and a week of longer sleep (spending 1+ hour longer in bed each night).
Space flight is associated with detrimental changes to the human body, including bone and muscle loss, fluid changes and deconditioning of muscles in the heart and blood vessels. Bed rest experiments, on Earth, are used to study these changes in healthy volunteers, as the disuse of muscles, and impact on the body, mimic the changes seen in the low-gravity environment of Space. Moreover, these changes are similar to those reported in people who remain in bed for long periods of time, such as is seen in intensive care or stroke patients, and bed rest studies also allow the physiological and biochemical impacts of this confinement to be investigated. For example, we know from previous research that muscle inactivity can lead to the development of resistance to the action of the hormone 'insulin', which is a longer term risk factor for the development of type 2 diabetes. Previous studies suggest that this inactivity-induced insulin resistance occurs within the first 48 hours of immobilization. However, it is not clear whether the biochemical and physiological processes underlying these short-term responses to inactivity are the same as those seen in the longer term. The current study aims to investigate the biochemical and physiological changes seen after 3 days of bed rest and to compare to those measured in a previous 57 days bed rest study carried out at Institut Médecine Physiologie Spatiale (MEDES; Toulouse, France). A 3-day period of reconditioning will subsequently be used to determine if these changes can be readily reversed.
Preoperative fasting and surgery can cause metabolic stress and insulin resistance. Oral carbohydrate loading has been shown to attenuate the development of insulin resistance in the non-pregnant population undergoing many different types of surgery. Pregnant women have an increase in insulin resistance and therefore may further benefit from a preoperative carbohydrate load prior to cesarean delivery. Although woman in the UK receive a carbohydrate drink prior to elective cesarean delivery, the metabolic effects of these drinks on the mother and neonate have not been evaluated.
Non-alcoholic steato-hepatitis (NASH) affects up to 3% of the population and leads to liver cirrhosis, hepatocellular carcinoma (HCC) and death. The only known treatment is weight loss and exercise. Many patients cannot or will not achieve this with conventional means. The pathogenic process of the disease is insulin resistance which can be reversed relatively quickly with intense exercise or electrical stimulation of muscle. Most patients cannot achieve or sustain the level of aerobic exercise required; resistance exercise is more sustainable and similarly effective. The aim of this pilot study is to investigate whether electro-muscle stimulation, designed to emulate resistance exercise, resolves NASH in patients and moves them to a less dangerous metabolic steady state which should be easier to maintain.