View clinical trials related to Metabolic Disease.
Filter by:This is a multi-center, open-label study to assess the feasibility and preliminary safety of the Endogenex Device for endoscopic duodenal mucosal regeneration in patients with type 2 Diabetes inadequately controlled on 2-3 non-insulin glucose-lowering medications.
Gestational diabetes is one of the most common medical disorders in pregnancy and is a major risk factor for the postpartum development of dysglycemia. Despite the high risk of developing dysglycemia, 50-80% of women with gestational diabetes are not receiving testing within a year postpartum. The investigators will conduct a prospective cohort study to examine the use of continuous glucose monitoring immediately postpartum to estimate the risk of maternal dysglycemia postpartum.
Insufficient sleep and circadian misalignment are independent risk factors for the development of obesity and diabetes, yet few strategies exist to counter metabolic impairments when these behaviors are unavoidable. This project will examine whether avoiding food intake during the biological night can mitigate the impact of circadian misalignment on metabolic homeostasis in adults during simulated night shift work. Findings from this study could identify a translatable strategy to minimize metabolic diseases in populations that include anyone working nonstandard hours such as police, paramedics, firefighters, military personnel, pilots, doctors and nurses, truck drivers, and individuals with sleep disorders.
This is a phase IIa 24-week randomized, double-blind, placebo-controlled study. The study is designed to evaluate the efficacy and safety of Rotigotine (RTG) transdermal administration at the dosage of 4 mg or 6 mg per day versus Placebo (PLC) in newly diagnosed behavioural Frontotemporal Dementia (bvFTD) patients. 75 patients with a diagnosis of probable bvFTD will be randomly allocated to the 3 treatment arms (RTG 4mg/day, RTG 6mg/day or PLC), with 25 patients per group. Clinical and neurophysiological measurements and brain metabolism via FDG-PET will be collected before and after drug administration.
This study aims to determine to what extent ingestion of free sugars influence postprandial triglyceridaemia in men and women.
Androgen excess is the cardinal biochemical feature of polycystic ovary syndrome (PCOS), a lifelong metabolic disorder affecting 10% of women. Serum testosterone correlates with insulin resistance in women, however, there is an urgent need to improve our understanding of the association between androgens and the risk of type 2 diabetes. Recently, a new subclass of androgenic steroids known as 11-oxygenated androgens has been identified. Utilising highly sensitive liquid chromatography-tandem mass spectrometry (LC-MS/MS) techniques, our group has recently demonstrated that 11-oxygenated steroids are the predominant androgens in both health controls and women with PCOS, and that these correlate closely with markers of insulin resistance. The bioactive 11-oxygenated androgen 11-ketotestosterone (11KT) binds and activates the androgen receptor with equal affinity to testosterone, yet nothing is known about its impact on metabolism or glucose homeostasis. Intriguingly, unlike testosterone, 11-oxygenated androgens do not decline with age in women, and, therefore, may mediate an increased risk of T2DM in women across their life course. Therefore, this previously ignored androgen class is likely of major importance in female metabolic health, and may represent a novel metabolic risk factor and biomarker. However, 11-oxygenated androgens are not currently measured in routine clinical practice. To date, no population-based or human in vivo physiology studies have examined the association between 11-oxygenated androgens, glucose metabolism and diabetes risk in women, despite the high prevalence of PCOS in the female population. There is emerging evidence, even in women without a confirmed history of PCOS, that the levels of androgens over time correlate with their likelihood of developing metabolic and cardiovascular disease. This has not been studied to date in a prospective manner in healthy women in the background population using long term follow up data.
Whilst obesity represents a key risk factor for the development of metabolic disease and further premature mortality, the actual type of diet may provide the 'primary insults' for inflammation affecting systemic health in the pre-diabetic state such as obesity. Specifically, previous data indicate that a high-fat diet and/or unfavorable systemic lipid profiles can impair metabolic health which may occur via inflammatory mechanisms. The study aims to conduct a randomized interventional dietary trial with Freeze-dried Kale, as a superfood, to reduce inflammation and improve lipid profile in patients with obesity. These studies will analyze the effects of this superfood on metabolic changes among obese and non-obese Saudi women. Our hypothesis is the inclusion of Brassica into the daily diet will significantly improve metabolic health, microbiota composition, lower inflammatory insults (inflammasome), and lower microbial translocation, with resulting improvements in metabolic health. The team, therefore, proposes to examine the impact of the superfood kale on lipid function (acute and medium-term) over a 4 week dietary intervention period to assess the influence on metabolic change and biomarker changes. The team intends to utilize the expertise from a broad spectrum of specialists from plant biologists, clinical and allied health care professionals, and translational scientists, to provide a unique holistic insight into the role of nutrition for metabolic health benefits in human participants. These studies will provide us with the capacity to use a directly applicable dietary supplement, freeze-dried Kale, to improve the health of people metabolically. As this is a natural product, this will have the capability to reach the market much quicker and advance research at a much faster pace. This dietary supplement will also provide an additional measure to improve the health across the general public not just those at increased risk of disease to help provide another way to improve health among Saudis.
This trial will assess the efficacy of the Tandem t:slim X2 insulin pump with Control IQ technology compared with standard insulin delivery plus CGM in pregnant women with type 1 diabetes.
There is limited knowledge about the extent of the impact of maternal metabolic diseases (MD) and/or alterations in maternal serum lipid content upon neonatal lipid distribution and phenotypes. This observational feasibility study aims to investigate the effect of maternal MD on fat distribution, lipid content and metabolic phenotype of different neonatal tissues. We will explore whether differences in tissue fat distribution and lipid content are observed in the neonates of women with MD during pregnancy, compared to those who have a healthy, uncomplicated pregnancy and if there are changes in how the different tissues work (e.g. cardiac function). If there is evidence to show that there are alterations during pregnancy in children of women with MD, this will help inform potential interventions to ensure optimal child health.
Background: Environmental exposures like pollution, diet, and stress can help cause human diseases, or make them worse. Researchers want to better understand how injury and inflammation are caused by these exposures. They want to collect biological and environmental samples and other data. They may use the samples to measure a range of factors, like hormones, toxins, and chemicals. This will help them improve their studies. Objective: To identify and understand how environmental exposures contribute to human disease. Eligibility: Healthy adults ages 18 and older Design: Participants will be screened with questions about their health history, demographics, and medicines they take. Participants may give blood, hair, stool, saliva, and/or urine samples. They may have a skin punch biopsy to collect skin cells. They may give fingernail or toenail clippings. They may give a sample of exhaled breath. Participants may give a sputum sample. They will inhale a saline mist and cough mucus into a cup. Participants may have their nasal passages brushed, scraped, or washed. Participants may give cheek cell samples. They will swish mouthwash and spit it into a cup. Participants who produce sperm may give samples. Participants may have bronchoscopy to collect fluid. A saline solution will be put into their lung and then suctioned out, washing areas of the lung. Participants may have a pelvic or transvaginal ultrasound. They may have lung function tests. Participants may collect household dust, urine, or stool at home. Participants will complete surveys about their health, diet, and exposures. Participation will last for one or more study visits. Participants may be contacted in the future to take part in other studies.