View clinical trials related to Type2 Diabetes.
Filter by:Cognitive impairment is a common complication in diabetes for various reasons. Although glycemic control improves cognitive impairment, different antidiabetic medications' effects on cognitive functions are still being investigated. Brain-derived neurotrophic factor (BDNF) is a neuroinflammatory marker and a member of the neurotrophin family with growth factor properties. BDNF levels have been shown to decrease in mild cognitive dysfunction or in late-onset Alzheimer's disease. Our aim is to examine the effect of SGLT2 inhibitor use on cognitive functions and BDNF levels.
BT-001 is a software program intended to help patients with type 2 diabetes, under the guidance of their physician, improve glycemic control (i.e., levels of blood sugar). The BT-001 software delivers a type of behavioral therapy to patients via a mobile application that targets behaviors related to achieving glycemic control. The effectiveness of BT-001 will be measured by its ability to help patients reduce Hemoglobin A1c, or HbA1c (a marker in the blood that measures blood sugar) in patients with type 2 diabetes.
The purpose of this study is to look at feasibility (the likelihood) of continued use of the FreeStyle Libre 2 Continuous glucose monitor (CGM) when started at the time of hospital discharge in patients with poorly controlled diabetes and to look at the effects of CGM use on blood glucose control and quality of life. Additional information will be collected to determine the barriers to continuing CGM use after discharge. The investigators will also collect information to see how well blood glucose has been controlled after discharge while utilizing the CGM.
The aim of this study is to collect continuous glucose monitoring (CGM) data, coupled with physical activity and everyday day life data. The purpose of this data collection is to help diabetologists to make recommendations to optimize type 2 diabetic patient management.
In this study the investigators wish to evaluate the glucose metabolism in brown adipose tissue (BAT) in young healthy men (aged 18-35). The investigators wish to validate a novel MR modality - Deuterium Metabolic Imaging (DMI), which is a non-radioactive, non-invasive method that allows for spatial as well as metabolic imaging after oral administration of deuterium-labelled glucose. Deuterium is a stable isotope of hydrogen that can be bound to different metabolites, in this case glucose. This method allows for metabolic imaging and production of 2H MR spectra of metabolites downstream from glucose uptake that can be quantified. DMI has not yet been used to evaluate BAT in humans. Currently, FDG PET/CT is the most widely used method for BAT evaluation in humans, but due to the radiation-exposure associated with FDG PET/CT repetitive studies of BAT in healthy subjects are limited. Therefore, new in vivo methods (preferably non-invasive) are warranted. However, since FDG PET/CT is the most widely used method, the investigators wish to use this modality as reference. The investigators plan to screen 10-12 subjects with an individualized cooling protocol and FDG PET/CT. Only the BAT positive subjects will be included in the DMI study. In the DMI study, the BAT positive subjects will enter in a randomized two-phased cross-over study. The subjects will have 2 DMI scans performed after ingestion of deuterium-labelled glucose; one after 2h of cooling, another in thermoneutrality. Primary outcome is the differences in glucose metabolites between cooling and thermoneutrality. The investigators hypothesize that during cooling uptake of glucose and its metabolites such as glutamine/glutamate and water may be enhanced. Moreover, glucose metabolism may shift towards anaerobic metabolism with increased lactate production as observed in a previous rodent study by the investigators group.
Patiromer add-on to a mineralocorticoid receptor antagonist (MRA) in patients with Type 2 diabetes mellitus and chronic kidney disease (CKD) will reduce blood pressure and left ventricular (LV) mass to a greater extent compared to patients with MRA alone and favorably affect key secondary hemodynamic and inflammatory variables including atherosclerosis progression. Atherosclerosis is the leading cause of morbidity and mortality in Type II diabetes. A cell type called the monocyte/macrophage is critical to development and complications of atherosclerosis. This project will evaluate the effectiveness of a medication called Spironolactone in addition to Patiromer in preventing atherosclerosis in Type II diabetes through its effects on cells such as the monocyte. Spironolactone has been demonstrated to be effective for the treatment of patients after a heart attack and stroke. The investigators will evaluate the impact of Spironolactone in combination with Patiromer in reducing atherosclerosis plaque and additionally evaluate its potential in changing inflammation. The investigators envision that a strategy of simultaneously probing effect of a drug combined with analysis of mechanisms of action and predictive response will likely provide key information with which to design hard event (heart attack, stroke etc.) based trials.
This is a study to be performed in Qatar that will look at the comparison of glycemic control in patients with type 2 diabetes on insulin glargine U100 with insulin degludec over the Ramadan period, to determine whether better glycemic control with fewer hypoglycemic episodes can be achieved.
Obesity is a serious medical condition, the adverse consequences of which include increased risk of cardiovascular disease, diabetes mellitus, reduced fertility and cancer. The economic cost of obesity was placed at $58 billion dollars in Australia in 2008 [1]. Studies in mice and non-human primates have shown that moderate caloric restriction (CR) increases lifespan and reduces the incidence of cardiovascular disease, cancer, and type 2 diabetes [2]. Reduced risk of chronic diseases is also observed in humans following CR [3]. However, daily CR is difficult to maintain long term, since the body defends against weight loss by inducing "metabolic adaptation"[3] and altering the hormonal appetite response [4]. An emerging number of studies are examining the effects of limiting food intake to prescribed time periods per day, or every other day. Time restricted feeding (TRF) describes a dieting approach where food is available ad libitum, however only for a limited period of time (i.e. 3-12 hours). This pilot study will examine the effects of restricting daily food intake to within a 10 hour period on glycaemic control, body weight and biomarkers of metabolic health for 6-weeks. This study will build on the existing knowledge base in humans as to whether meal timing, rather than caloric restriction per se, is important to provide the stimulus required to improve metabolic health and reduce risk of chronic disease.
The primary objective of the study is to determine whether pemafibrate administered twice daily will delay the time to first occurrence of any component of the clinical composite endpoint of: - nonfatal Myocardial Infarction (MI) - nonfatal ischemic stroke - coronary revascularization; or - Cardio Vascular (CV) death.
This is an initial validation study of the Personal Nutrition Project (PNP) algorithm in a North American population with recently diagnosed Type 2 Diabetes (T2D). This is a 2-stage, single-group feeding study in 20 individuals, including 10 participants managed with lifestyle alone, and 10 managed with lifestyle plus metformin.