View clinical trials related to Prediabetic State.
Filter by:To evaluate the feasibility of a 6-month multidisciplinary program to reverse prediabetes in adults with coronary heart disease using the Mediterranean diet, intermittent fasting and exercise.
The objective of this study is to assess and compare the effects of usual diets containing lean beef vs. lean poultry on pancreatic beta-cell responses in men and women with prediabetes.
The aim of the study is to explore the effect of a low-calorie diet rich in protein (with a content of 35% of the total calories of the diet), mostly coming from animal sources (75% of total protein), compared to a hypocaloric diet rich in protein (with a content of 35% of the total calories of the diet), mostly coming from plant sources (75% of total proteins), in subjects with prediabetes or type 2 diabetes and overweight or obesity, on body composition, glucose and lipid metabolisms, after 6 months of intervention. To achieve the objective, a nutritional intervention study is carried out by randomizing participants to: a) a hypocaloric and high-protein diet (35% of total calories), mostly of them coming from animal sources (75% of total protein); b) a hypocaloric and high-protein diet (35% of total calories), mostly of them coming from plant sources (75% of total protein). The study has a total duration of 6 months and include the assessment of clinical, anthropometric, biochemical and lifestyle parameters, at the beginning of the study and after 3 and 6 months of intervention.
The investigators will conduct a pilot cluster randomized trial of Nutri, a clinical decision support software to support collaborative diet goal setting in primary care. Nutri is designed within the Chronic Care Model framework, specifically with the intention of leveraging clinical information systems to connect clinical care with patients' lives in the community setting. Nutri is based on the Theory of Planned Behavior and uses collaborative goal setting between the patient and provider to identify a behavioral intention (i.e., diet goal) and improve goal self-efficacy by improving attitudes/outcome expectations, subjective norms/social support, and perceived behavioral control. In this pilot trial, the intervention group (N=10 primary care providers [PCPs], N=40 patients) receives collaborative diet goal setting via Nutri, and the control group receives usual care(N=10 PCP, N=40 patients). Before and after the appointment, patients will report food they consumed over the last 24 hours via the dietary recall tool, ASA24 and respond to surveys about behavioral intention and self-efficacy. Intervention PCPs will be alerted when the Nutri workflow is available for a patient and asked to complete it during their visit with that patient.
Prediabetes is a pathological condition where the blood glucose concentration is higher than normal concentrations but lower than those considered in type 2 diabetes mellitus (DM2) diagnosis. Until a few years ago, this prediabetes occurred in adults with associated risk factors such as being overweight or obese, sedentary lifestyle, poor eating habits, and cardiovascular problems, among others. Recently, it has begun to be detected in children, with family eating habits becoming more critical. Therefore, the objectives of this study were to determine the efficacy of the nutritional intervention in children with analytical data on pre-diabetes; and the secondary ones proposed were to evaluate if an individualized and directed nutritional intervention compared to the standardized one supposes an improvement in children's dietary habits and to determine if nutritional education improves anthropometric parameters and adherence to a Mediterranean diet, through the evaluation of the Mediterranean Diet Quality Index (KIDMED).
Type 2 diabetes mellitus (T2DM) is a major non-communicable disease and one of the world's fastest growing health problems. According to a 2019 report, about 463 million adults worldwide currently have diabetes and future projections indicate the number of diabetic patients will reach 700 million by 2045.1 T2DM is associated with significant morbidity, including increased risk of cardiovascular diseases (CVD) and stroke, hypertension, retinopathy and blindness, renal failure, and leg amputation. These place an enormous burden on individuals, society and the healthcare system.2 T2DM is a non-reversible but preventable condition with overweight and obesity being major risk factors. The onset of T2DM is gradual, with most individuals progressing from normoglycaemia through a pre-diabetic state. People with pre-diabetes, defined as having impaired fasting glucose (IFG), impaired glucose tolerance (IGT) or impaired glycated haemoglobin (HbA1c),2 are at increased risk of developing T2DM and its associated complications, such as CVD and retinopathy, which can develop even in the absence of progression to overt T2DM.3-5 Pre-diabetes is a prevalent and potentially reversible condition that provides an important window of opportunity for healthcare providers to implement interventions that can delay or prevent T2DM and its complications. A substantial body of literature has provided evidence for the role of gut microbiota in metabolic diseases including type 2 diabetes.6 Indeed, there is evidence for the effects of microbiota on glucose metabolism in both preclinical animal models of T2D and in healthy animals, by means of increasing the number of inflammatory mediators, chronic inflammation, insulin resistance and increased energy intake. Among the commonly reported findings, Bifidobacterium spp appears to be the most consistently supported by the literature genus containing microbes potentially protective against T2DM. Indeed, nearly all papers report a negative association between this genus and T2DM;7-14 while only one paper reported opposite results.15 In view of the correlation between gut microbiota, more specifically Bifidobacterium spp., and diabetes, the Bifidobacterium population and their metabolic action can be taken as an important target for interventions to prevent and/or delay the development of T2DM.
The purpose of this project is to improve the quality of weight management care for patients with pre-diabetes and overweight or obesity. Personalized risk profiles, clinical decision support, and patient-centered decision tools for understanding pre-diabetes risk and the likelihood of preventing diabetes with a modest 5-7% weight loss will be developed. This project will offer patients their choice of effective weight management treatment options, each containing the cornerstone of weight management- intensive lifestyle intervention. Patients and PCPs will be better informed and equipped with information that helps them make weight management treatment decisions that work the best for their lifestyle, and each is expected to produce at least 5-7% weight loss over 6 months.
The goal is to assess the long-term effect of Pep2Dia® compared to placebo intake on blood glucose homeostasis. Respective improvements will be assessed by changes in glycated haemoglobin (HbA1c) before and after the 12-weeks intervention.
This clinical study aims to investigate the effects of TOTUM-63, a mix of 5 plant extracts, consumed at the daily regimen of three times per day, on cardiometabolic health and gut microbiota profile in overweight-obese individuals.
This study will examine the feasibility and acceptability of a family-oriented augmentation of the Diabetes Prevention Program lifestyle intervention (DPP), called the Family DPP. It will also preliminarily examine adult and child health and health behavior outcomes. The DPP is a 12-month, group-based lifestyle intervention for adults at high-risk for type 2 diabetes, in which adult participants learn skills and strategies to achieve the program's goals of 5% weight loss and 150 minutes/week of moderate-vigorous physical activity. The Family DPP will consist of all elements of the evidence-based DPP, along with augmentations including additional child-focused sessions in which adult participants will learn about principles and strategies for promoting healthy lifestyle behaviors in children, ages 5 through 12 years. Children may participate in certain child-focused sessions, too. The non-randomized pilot feasibility study will consists of 2 arms/groups: 1) the concurrent "control" group, consisting of adults who are enrolled in the DPP; and 2) the "intervention" arm, in which the adult participants will engage in the Family DPP (and children may participate in certain aspects of the Family DPP focused on children). The study will recruit 10-15 adult-child dyads, for the "intervention" groups, and 10-15 adults for the concurrent control group. In addition to data collected from adult participants as a routine part of the DPP, the study will examine additional adult health behaviors and health outcomes and child health outcomes (change in body mass index z-score) and health behaviors at baseline, 6 months and 12 months (program end) among participants in the "intervention" group.