View clinical trials related to Pre-diabetes.
Filter by:This single-arm trial of the Cardiovascular Risk Reduction Among People Experiencing Homelessness (CV-Homes) intervention alone (n=8) will test the perception and feasibility of anticipated study procedures.
n a retrospective analysis of an exercise training program performed either in the morning or afternoon, we found that the afternoon training group improved their peripheral insulin sensitivity and fasting plasma glucose levels to a greater extent than the morning group. However, underlying mechanisms are unclear. The main objective of this study is to determine whether prolonged exercise training in the afternoon (15:00-17:00 PM) differs from exercise training in the morning (07:00-09:00 AM) in improving insulin sensitivity in individuals with pre-diabetes, and to investigate its underlying mechanisms.
Non-alcoholic fatty liver disease (NAFLD) is one of the most common liver diseases, affecting 25% to 30% of the global population and nearly one third of the population in North America. NAFLD is defined as an excessive accumulation of lipids within hepatocytes in the absence of significant alcohol consumption or other causes of chronic liver disease. These patients usually present with hepatic steatosis observed on imaging studies and elevated liver enzymes with clinical features of insulin resistance (IR), including pre-diabetes, type 2 diabetes mellitus (T2DM), arterial hypertension, dyslipidemia, and visceral obesity. The minimum criterion for a histologic diagnosis of NAFLD is >5 percent steatotic hepatocytes in a liver tissue section. The exact mechanism for the development of NAFLD is unclear, although the current evidence indicates that it is likely a complex interplay among neurohormones, intestinal dysbiosis, nutrition, and genetics. IR plays a crucial role in NAFLD pathophysiology mainly by increasing adipocyte lipolysis, resulting in the circulation of more free fatty acids available for hepatic uptake and increasing hepatic de novo lipogenesis. There is yet no approved pharmacologic option for the treatment of NAFLD. Current international guidelines on NAFLD emphasize the importance of lifestyle modifications for all patients with NAFLD and recommend 7-10% of weight loss and a "healthy diet", without suggesting any particular diet. Recent data provide some support for the beneficial role of low carbohydrate (CHO)/high unsaturated fatty acid (both monounsaturated (MUFAs) and polyunsaturated (PUFAs)) dietary patterns for decreasing hepatic steatosis. This proposal addresses this important research gap by leading to advances regarding the impact of a short-term low CHO/high PUFAs/MUFAs dietary intervention on improving hepatic gene expression profiles and lipid composition in individuals with pre-diabetes. The proposed study is unique because all meals and foods will be provided to participants under carefully controlled isocaloric conditions to maintain a constant bodyweight with optimal energy and macronutrient intake control. The primary objective of the proposed research is to investigate how replacement of dietary CHOs by unsaturated fatty acids (both PUFAs and MUFAs) affects liver fat composition and liver transcriptomics in subjects with pre-diabetes.
Type 2 diabetes mellitus is one of the fastest growing public health problems in developed and developing countries and imposes a large financial burden on health-care systems. Preventing, delaying, and managing diabetes should be a priority for health-care systems. Nationally, 38% of adults have prediabetes, with more than 80% of people with prediabetes being unaware of their condition. In Maryland, an estimated 10.5% of adults report prediabetes, and 33.7% of Baltimore City residents have obesity, an important risk factor for prediabetes. The BMDRP aims to increase the capacity of BMDRP hospitals and community partners to offer DPP and DSMT directly in communities and will also increase the number of referrals into these programs. Successful enrollment and completion of DPP has demonstrated reduced risk of developing type 2 diabetes for individuals with pre-diabetes. However, limited data exist on changes in body composition and liver fat in individuals completing DPP. Individuals with pre-diabetes often have obesity and non-alcoholic fatty liver disease. We will evaluate for changes in body fat and liver fat in individuals completing the DPP program.
The goals of this project are to build an experimental tool to dissect out in vivo pancreatic beta cell mass (BCM) and beta cell function (BCF) and to assess for the first time these two determinants of beta cell functional mass (BCFxM) in obesity and in various stages of type 1 and type 2 diabetes mellitus.
This is a multisite clinical trial of healthy lifestyle programs for middle-to-older-aged adults (50 -74 years) to improve their weight and, therefore, reduce risk for chronic disease. This study will investigate whether a proven, self-directed video-based lifestyle program can be significantly enhanced with the assistance of a coach via videoconference or phone to help people as they adopt healthy eating and exercise behaviors. Additionally, the study will examine what factors might explain why some people achieve better outcomes than others. Understanding this can help to tailor the program to an individual for personalized care in the future. Importantly, this study aims to demonstrate how readily a digital lifestyle program, with or without remote coaching, can be seamlessly delivered to patients at home via the patient portal of their electronic health record. This practical use of existing telehealth tools could be a feasible and effective means to offer behavioral treatments during routine medical care.
The purpose of this study is to promote healthy weight loss among African American women, age 30 or older, who are pre-diabetic and/or have high blood pressure and who live, work, or worship in select rural communities throughout Alabama and Mississippi. The goal of the study is to help reduce the burden of obesity, diabetes, and high blood pressure for these women and to collect information on the reach, effectiveness, adoption, implementation, maintenance, and cost effectiveness of our two evidence-base weight loss programs.
More than 84 million - or 1 out of every 3 U.S. adults - have prediabetes, a condition that if not treated often leads to type 2 diabetes within five years. Average medical expenditures among diabetics are about 2.3 times higher than expenditures for people without diabetes. Physical inactivity and elevated body mass index (BMI) are major risk factors for the disease. Sedentary behavior is becoming increasingly prevalent with the growth of a 'work from home' culture, most recently driven by the COVID-19 pandemic. Cross-sectional epidemiologic data report significant associations between high amounts of sedentary (sitting) time and prevalent cardiovascular disease and diabetes. In our pilot study of 15 subjects with sedentary office jobs, 6 months of sit-stand desk use resulted in a 23% improvement in insulin resistance, most substantial in those who decreased daily sitting by over 90 minutes/day. Additional improvements in vascular endothelial function and triglyceride levels were seen without any change in exercise activity, step counts, or body weight. These findings not only corroborate epidemiologic findings on this topic but suggest causality and warrant a randomized control trial. The investigators hypothesize that adult subjects at-risk for diabetes will improve insulin sensitivity, metabolic and vascular (endothelial) health with a sit-stand desk intervention at work (whether in the office or at home), in the context of a randomized, controlled trial. The investigators will randomize 198 sedentary office workers with a BMI≥25 at risk for type 2 diabetes mellitus in a 1:1:1 ratio of three groups: (a) sit-stand desk intervention targeting 2 hours standing per day; (b) sit-stand desk intervention targeting 3 hours standing per day; or (c) control arm over 6 months. The block randomization design will allow for important dose-response analyses. The investigators will objectively quantify standing time, sedentary time, sedentary bouts, daily steps, and exercise activity times using a compact and re-usable accelerometer that adheres to the subject's thigh. This will provide objective assessments of activity levels and sedentary times for 7 full days each at baseline, 3 and 6 months. The device is equipped with an inclinometer to classify posture (sitting verses standing).
This study is to evaluating the impact of low-intensity statin plus ezetimibe versus high-intensity statin therapy on risk of new-onset diabetes mellitus in patients with atherosclerotic cardiovascular disease who have prediabetes.
Type 2 Diabetes Mellitus (T2DM) and its associated comorbidities pose a major health concern worldwide. Although lifestyle strategies, such as exercise and diet-induced weight loss are effective interventions to counteract the development and progression of the disease, its prevalence continues to increase. Therefore, alternative therapeutic strategies are warranted. One such method, which has increasingly been gaining attention, is cold exposure. Previously, investigators have shown that exposing T2DM patients to mild cold (14-16 oC) for 6 hours per day for 10 consecutive days enhanced their insulin sensitivity by ~43%. This remarkable improvement in insulin sensitivity was accompanied by robust GLUT4 translocation in the skeletal muscle of participants, which likely mediated the improvements in insulin-stimulated glucose uptake. Follow-up research suggested that a certain degree of muscle activation/shivering appears to be a prerequisite for the cold-induced enhancement in skeletal muscle insulin-stimulated glucose uptake. In humans however, very little information is available about the effects of shivering on glucose metabolism, especially in metabolically compromised individuals. Therefore, in this study, the aim to investigate the acute effects of (different intensities of) shivering on 24-hour glucose profiles in pre-diabetic individuals as well as in T2DM patients. For that purpose, a focus will be placed on clinically relevant glycaemic parameters by means of continuous glucose monitoring, which is increasingly being used in T2DM management and prevention.