View clinical trials related to Pre-diabetes.
Filter by:The purpose of this study is to establish safety of biweekly intermittent fasting in the setting of type 2 diabetes mellitus or prediabetes under treatment with non-hypoglycemic agents (e.g. metformin).
Pre-diabetes is characterized by high plasma concentration of glucose and glycated hemoglobin and is the main risk factor for the development of type 2 diabetes. Several studies show that the intestinal microbiota is intimately linked to cardio-metabolic factors (type 2 diabetes, insulin resistance) when in situations of dysbiosis. Food is a key element for a healthy microbiota, focusing on the consumption of polyphenols that modulate the intestinal environment through its alteration and production of short chain fatty acids, and can thus be a way of reversing situations such as pre- diabetes and insulin resistance. The objective of the study will be to investigate whether chronic supplementation of eriocitrin alters the intestinal microbiota of pre-diabetic and insulin resistant individuals, reversing these situations. This will be done by supplementation of eriocitrin-containing capsules with different dosages in pre-diabetic and insulin resistant individuals. There will be 12 weeks of intervention, with faecal collections, anthropometric and dietary evaluation, and then will be made microbiological analysis to identify the intestinal microbiota and biochemical analysis before and after the intervention. For statistical analysis, normality and homogeneity test (Kolmogorov-Smirnov and Levine test respectively), T-test to compare baseline time between groups and repeated-measures ANOVA (two-way) were used to compare changes within and between groups.
The purpose of this study is to determine whether changing the microbial composition in the colon can improve metabolism of sugar in people who are on the verge of developing diabetes (pre-diabetics). Study participants will undergo a fecal microbiota transplantation (FMT) using material from lean donors, as well as a series of tests prior to and after the transplant. The investigators will examine any changes in fecal bacterial composition associated with FMT and determine if any observed changes have an influence on blood sugar metabolism.
Major surgery results in a stress- induced catabolic response, marked by post-operative insulin resistance, hyperglycemia and loss of body protein, which is associated with increased morbidity, mortality and adverse outcomes. There has been a great deal of research on different approaches to optimize post-operative insulin sensitivity including hormonal and nutritional interventions, minimally invasive surgical techniques and epidural anesthesia. However, the correlation between insulin resistance and body protein loss is not well understood. Metformin is the most widely used insulin sensitizing and blood glucose-lowering drug in treatment of type 2 diabetic patients. This study will: 1) estimate the correlation between insulin resistance and body protein loss in pre-diabetic lung/colorectal resection patients; 2) investigate whether the post-operative metabolic state can be improved by the pre-operative administration of metformin; and assess the impact of metformin on surgical complications and hospital length of stay. The results of this study will provide insight into the relationship between insulin resistance and post-operative adverse events and potentially suggest a novel approach to improve outcomes using Metformin, a drug already in wide clinical use.
The investigators know that metformin works at the level of the cells in the body by acting on a protein called Cyclic amine monophosphate- Response Binding Elements (CREB) binding protein or Constitutive Reverter of eIF2α Phosphorylation (CREP) Binding Protein (CBP). What the investigators do not know is how this process is affected when the dose of the metformin is increased or changed. Currently the same doses of metformin are often used in both children and adults, but it is possible that the dose of metformin should be based on age and weight. Understanding how CBP works could potentially help us to tailor metformin treatment individually for patients based on their age, weight and CBP response.
Aims: 1. Does inflammation contribute importantly to concurrent defects in vascular and metabolic dysfunction in human pre-diabetic obesity? 2. Are there benefits of anti-inflammatory treatment strategies in pre-diabetic obesity in the context of existing treatment with metformin? 3. Are there benefits of anti-inflammatory treatment strategies in pre-diabetic obesity in the context of existing treatment with lisinopril?
This randomized, double-blind, parallel group, two-centre pilot study will test the hypothesis that subjects who are otherwise healthy but fulfill the criteria for a diagnosis of pre-hypertension and pre-diabetes will have regression or reduced progression of hypertension-associated changes in their resistance arteries if their blood pressure is controlled for 6 months with losartan, whereas similar subjects whose blood pressure is equally well controlled using hydrochlorothiazide will have significantly less improvement of the changes in their resistance arteries.