View clinical trials related to Prediabetic State.
Filter by:This study evaluates the feasibility and effect of probiotics on glycemic control in obese adolescents.
This project tests the principle hypothesis that stable glucagon like peptide-1 (GLP-1) analogues have specific GLP1R-dependent beneficial effects on vascular endothelial function, fibrinolysis and inflammation in obesity that exceed the benefits of weight loss, and that genetic or other individual factors that modulate GLP1R sensitivity can modify the effect of these analogues on cardiovascular risk.
The purpose of this study is to test a flexible lifestyle program designed to help Latino men make healthy lifestyle changes to lower their risk of developing diabetes and heart disease. The program is called HOMBRE (Hombres con Opciones para Mejorar el Bienestar y bajar el Riesgo de Enfermedades crónicas; English translation: Men with choices to improve well being and decrease chronic disease risk).
Given the importance of healthy lifestyle practices to cardiovascular disease (CVD) prevention and the utility of church-based interventions in African-American adults, the investigators developed a theory-informed, strategically-planned, health and wellness intervention with Rochester, Minnesota (MN) and Twin Cities area (Minneapolis, St. Paul, MN) churches with predominately African-American congregations. The objective of the study was to partner with churches to implement a multi-component, health education program through the use of core educational sessions delivered through a digital-application accessible on demand via interactive access on computer tablets and the Internet. The overarching goal was to increase the awareness and critical importance of healthy lifestyles for CVD prevention and provide support for behavior change.
The rationale for the proposed research is that elucidating changes in localized diacylglycerol (DAG) and sphingolipid species that predict insulin sensitivity will reveal specific localized lipids to target in therapeutics for type 2 diabetes. To attain the overall objective, the investigators propose three specific aims: 1. Identify the influence of sarcolemmal DAG and sphingolipids on cell signaling and insulin sensitivity before and after insulin sensitizing lifestyle interventions. Strong preliminary data shape the hypothesis that sarcolemmal 1,2-disaturated DAG and C18:0 ceramide species will decrease after insulin sensitizing lifestyle interventions, leading to less Protein kinase C (PKC) and Protein phosphatase 2A (PP2A) activation, and enhanced insulin signaling. Skeletal muscle DAG and sphingolipid isomers, species, localization, and de novo synthesis will be measured before and after diet-induced weight loss or exercise training interventions in obese men and women. Insulin sensitivity will be measured using insulin clamps, and muscle lipids using Liquid Chromatography Mass Spectrometry (LC/MS). 2. Determine the impact of mitochondrial/ER (endoplasmic reticulum) DAG and sphingolipids on mitochondrial function and ER stress in vivo, before and after insulin sensitizing lifestyle interventions. The investigators hypothesize, again based on preliminary data, that mitochondrial/ER sphingolipids will decrease, yet DAG will increase after insulin sensitizing lifestyle interventions, and each will associate with increased insulin sensitivity. Changes in sphingolipids will relate to increased mitochondrial function, less ER stress, reactive oxygen species (ROS), and acyl-carnitine formation, while changes in DAG will relate to increased mitochondrial content and dynamics. 3. Identify the effect of exogenous DAG and sphingolipids on mitochondrial function in vitro, before and after insulin sensitizing lifestyle interventions. The working hypothesis is that DAG and sphingolipids will reduce mitochondrial respiration and increase ROS and acyl-carnitine content, but will be attenuated after endurance exercise training. The proposed research is innovative because it represents a substantive departure from the status quo by addressing cellular compartmentalization of bioactive lipids. The investigators contribution will be significant by identifying key species and locations of DAG and sphingolipids promoting insulin resistance, as well as mechanisms explaining accumulation that could be modified by insulin sensitizing therapeutic interventions.
The aim of the study is to investigate, if resistant starch type III increases butyrate-producing bacteria in the gut of (pre-) diabetic subjects. Diabetic blood parameters are also of interest.
The primary objective aims are to assess the effects of regular consumption of red raspberries (RRB) with and without fructooligosaccharide (FOS) on the composition of the gut microbiota after 4 week intake and in parallel characterize plasma and urine metabolite profiles examining qualitative and quantitative intervention associated changes.
Original research article entitled Induced and Controlled Dietary Ketosis as a Regulator of Obesity and Metabolic Syndrome by Madeline Gibas for consideration for publication in a clinical journal. This research manuscript builds on previous landmark studies that report that major weight and fat mass loss in type II (T2D) patients who were fed a very low carbohydrate, ketogenic diet. In this manuscript, the investigators outline our research study that showed statistically significant (p < 0.05) changes over time in hemoglobin A1c, weight, BMI, body fat percentage and ketones for patients with metabolic syndrome who were fed a very low carbohydrate diet, ketogenic diet.
The purpose of this study is to test the effectiveness of an out-of-school diabetes prevention program for youth (ages 7-15) with a family history of pre-diabetes or type 2 diabetes.
Purpose: This study is carried out to determine the effect of GI on 24 hour blood glucose profiles and energy regulation in Asians when fed a normal diet modulated with sweeteners.