View clinical trials related to Prediabetic State.
Filter by:A pilot study titled "A Virtual Cardiometabolic Health Program for African Immigrants (The Afro-DPP Program) will be conducted to address the cardiometabolic of community-dwelling African immigrants who have multiple cardiometabolic risk factors including hypertension, Type 2 Diabetes, high cholesterol, and overweight/obesity. The proposed study will recruit a total of 60 participants and will use a non-equivalent control group design to test the effectiveness of the intervention at two African churches in the Baltimore, Washington, D.C. area. The two churches will be randomly assigned to the intervention or delayed intervention group. At the end of a 6-month follow-up period, the control church will receive the intervention (delayed control group). All participants will receive a Bluetooth-enabled digital scale (Omron Model: BCM-500) that measures body composition including Body Weight, Body Fat percentage, Visceral Fat, Skeletal Muscle percentage, Resting Metabolism and Body Mass Index. A Bluetooth-enabled blood pressure monitor (Omron Model: BP7250) will also be distributed to all participants. All participants will download the Omron Connect app which will allow the participants to sync participants' blood pressure readings and body composition readings into the app. The research team will access these readings to monitor study outcomes and participants progress during the follow-up period.
The high prevalence of prediabetes in HIV patients is also an outpost event for the further development of diabetes and cardiovascular events, as well as for the prolonged survival of HIV patients with metabolic problems and their complications. Based on the well-established experience in the field of traditional diabetes with prediabetes, the combination of SGLT2 inhibitors can target the pathophysiological mechanisms of HIV-induced metabolic disorders, and the results of a small pilot study of one of the representative drugs, cabergoline, in HIV-combined diabetic patients suggest its efficacy and safety in the treatment of HIV-combined diabetic patients. Combined with the advantages of the concentrated disease resources of HIV patients in the investigator's unit, this study is intended to use a single-center randomized controlled clinical trial design, giving the experimental group drug combined with lifestyle intervention and the control group lifestyle combined with placebo intervention, to verify whether the combination of cabergoline and lifestyle intervention can safely and significantly change the clinical outcome of glucose metabolism, as well as the effect on body weight and pancreatic islet function of patients The study provides top clinical evidence for the treatment of these patients and suggests a new set of interventions for patients with HIV combined with prediabetes. No similar studies have been found to be innovative in the literature search, and the implementation of this study will be of great clinical value.
Prediabetes is an intermediate transition to hyperglycemia between normal blood glucose and diabetes, including impaired fasting glucose (IFG), impaired glucose tolerance (IGT)and the presence of a combination of the two. At present, the prediabetes population in China is very large. Timely detection of this sub-health population and effective intervention are the key to prevent or delay diabetes and related complications. Basic research showed that Tangningtongluo had a good hypoglycemic effect on db/db diabetic mice and STZ induced diabetic rats, and could alleviate pancreatic islet destruction and insulin resistance to some extent. In this study, the therapeutic effects of Tangningtongluo pian provided by Guizhou bailing Enterprise Group Pharmaceutical Co., Ltd on patients with prediabetes was evaluated clinically. A multi-center, randomized, double-blind, placebo-controlled clinical trial was designed to provide evidence-based medical evidence for Tangningtongluo pian in the treatment of prediabetes . In the design of this trial, the therapeutic effects and safety of Tangningtongluo pian in the treatment of prediabetes were evaluated with Tangningtongluo pian in the treatment group and placebo in the control group.
Exercise is well-known to improve skeletal muscle energy metabolism and is an established intervention to improve muscle insulin sensitivity and to counter the development of type 2 diabetes (T2D). However, given the 24h rhythmicity in substrate metabolism previously observed in healthy, lean men and the lack of such rhythmicity in men with insulin-resistance, the investigator hypothesize that appropriate timing of exercise training can maximize the metabolic health effects of exercise. Indeed, a preliminary study in humans revealed that afternoon high-intensity interval training (HIIT) exercise was more effective than morning exercise in improving 24h blood glucose levels in men with T2D. Another recent study in mice showed that the time of day is a critical factor in augmenting the beneficial effects of exercise on the skeletal muscle metabolome as well as on whole-body energy homeostasis. However, human studies that specifically target the impact of timing of exercise training on glucose homeostasis and metabolic health are scarce and the potential underlying mechanisms largely unknown. The overarching goals of this project is to improve 24-hour rhythmicity of metabolism in men and women with prediabtes by appropriate timing of exercise and to assess its effect on metabolic health and immune response. Acute and prolonged exercise interventions timed in the morning vs late afternoon will be carried out in individuals with prediabetes to determine whether acute exercise in the afternoon and prolonged exercise training in the afternoon can improve peripheral insulin sensitivity, compared to exercise in the morning, and positively affect adipose tissue dietary fatty acid storage and partitioning of dietary fatty acids in skeletal muscles.
Metabolic syndrome and resulting downstream health effects remains a growing health concern. In published trials, the use of continuous glucose monitoring (CGM) assists behavioral changes efforts, leading to improved adherence and results from diet and exercise changes in individuals with obesity, pre-diabetes and diabetes. Mobile health (mHealth) platforms provide satisfactory, easy-to-use tools that help participants in the pursuit of weight change goals. We hypothesize that the use of CGM data and targeted coaching and nutrition education will assist with weight optimization goals in the general (non-diabetic) population using the Signos mHealth platform, with associated health benefits.
This project uses both transcriptomic- and genomic-level data to identify mechanisms of individual responses to glucagon-like peptide-1 (GLP-1) in Mexican-Americans with prediabetes. The GLP-1 hormone is essential for glucose reduction, weight loss, cardiovascular risk reduction, and renal protection. Newly discovered mechanisms will illuminate causal links between disease genotype and phenotype, which may ultimately guide personalized therapeutic approaches for type 2 diabetes, prediabetes, obesity, cardiovascular disease, renal disease, and other related diseases.
The purpose of this study is to demonstrate the efficacy of pasteurized Akkermansia muciniphila (pAKK) in improving insulin sensitivity in hyperglycaemic, but otherwise healthy persons with metabolic syndrome. This is the primary objective of this study. Secondary objectives consist of evaluation of the effects of next generation beneficial microbes on metabolic health, anthropometry and body composition, and safety. Therefore, the trial is designed as a phase 2, randomized, double-blind, placebo-controlled, parallel group, multi-center trial comparing pAKK with placebo in restoring insulin sensitivity in dysglycaemic but otherwise healthy subjects with metabolic syndrome. In total, 144 enrolled participants will attend 6 study visits in total. Study visits may be conducted in the clinic, at home by a Healthcare Professional, or by telephone / telemedicine.
The aim of this project was to determine if an administration of either 10 g of whey protein isolate or 10 g of whey protein microgels 30 or 10 min before a standard meal could reduce postprandial glucose response in obese subjects.
The aim of this study is to develop and evaluate a low intensity, multifaceted, digital health intervention to prevent T2DM based on: i) the use of a system comprising mobile health (mHealth) technology integrated with electronic health records to send tailored text messages (SMSs) promoting lifestyle changes in people at risk of T2DM, and, ii) the provision of online education to primary healthcare workers about prediabetes management.
Diabetes mellitus is one of the chronic non-communicable diseases which have emerged as a leading global health problem. According to the International Diabetes Federation Atlas guideline report, currently, there are 352 million adults with impaired glucose tolerance who are at high risk of developing diabetes in the future. In 2017, it was estimated that 425 million people (20-79 years of age) suffered from Diabetes mellitus, and the number is expected to rise to 629 million by 2045. Moreover, Egypt is considered one of the top 10 countries in the world