View clinical trials related to Diabete Type 2.
Filter by:Single-center trial The goal is to better understand the various genetic mutations encountered in cases of type 2 diabetes as well as their frequency of occurrence in the population. Such analyzes also make it possible to develop personalized medicine and to be able to prevent the associated risks. The aim of this work is also to demonstrate the value of a systematic genetic diagnosis of patients with DMT2 in order to improve their clinical management. Taking a blood sample, which will consist of the single sample from the entire study (1 single visit, combined with a follow-up visit to the patient's usual diabetist). Participation in this study would make it possible to diagnose rare pathogenic mutations in type 2 diabetes and therefore to be able to adapt the treatment in a specific and personal way depending on the presence or not of the mutations and also to prevent the appearance of other pathologies.
People with type 2 diabetes are two-and-a-half times more likely to experience heart failure and twice more likely to have a heart attack compared to people without diabetes. People coming to hospital often have unknown hyperglycaemia. It is thought that three quarters of people admitted to the Coronary care unit with a myocardial infarction have hyperglycaemia and over a third of whom are undiagnosed with diabetes and over 40% with impaired glucose tolerance (IGT). All of these patients are at greater risk of poor outcomes in the presence of uncontrolled hyperglycaemia. Patients presenting to A&E have routine bloods taken for condition which are they are being investigated and treated for. Therefore the aim of the study is to identify the prevalence of undiagnosed diabetes (HbA1c >48mmol/mol) or impaired glucose tolerance/pre-diabetes (HbA1c >39mmol/mol) in patients attending the accident and emergency department or acute medical unit and to see if this is a good screening measure for diagnosis of diabetes. This project will help identify those undiagnosed with glucose intolerance (T2D and IGT) and instigate appropriate treatment and improve outcomes for this group of patients. This will in the long term reduce the burden to the NHS. This project will help in the development of guidance for diagnosis of T2D in an acute setting and treatment for hospital admission and continued care. This project will include 10,000 consecutive patients over the age of 30 years attending the A&E or AMU departments of Tameside and Glossop Integrated Care NHS FT. All patients will be screened for glucose intolerance with a blood test in which patients' blood would be taken anyway for clinical reasons and the laboratory will perform an HbA1c investigation on the sample collected.
This is a multicenter, long term safety and efficacy follow up study for with insulin dependent diabetes 2 type who have been treated with ex vivo gene therapy product in Ukraine Association of Biobank bio-sponsored clinical studies. After completing the parent clinical study (2 years),eligible subjects will be followed for an additional 8 years for total 10 years post-drugproduct infusion. No investigation drug product will be administered in the study
In this study we research patient segmentation made by Suuntima-service and it´s impacts to Quality of care, Service use and Costs of care among Type 2 Diabetes patients and Substance Abuse patients. With this Suuntima-servise based segmentation we assume to find appropriate services and Self-Management to allocate Type 2 Diabetes and Substance Abuse patients. We plan their care pathways by Suuntiman-service customership strategies (Self-acting, community, co-operation, network).
Pomegranate fruits and products, including juice, tea, wine and extracts are widely consumed and recognized for their health benefits. Pomegranate fruit possesses strong antioxidant, anti-inflammatory and antiproliferative properties. The effects of pomegranate on type 2 diabetic (T2DM) conditions have previously been reported. Although 8 oz. of Pom juice (PJ) contains 36.9 g of sugar, 12-week PomJ supplementation did not change plasma advanced glycated end-products, fasting glucose and HbA1C, but reduced lipid peroxidation in T2D subjects. Additionally, acute PJ consumption has been shown to lower postprandial glycemic response of a meal with high glycemic index (GI) and lower fasting blood glucose, and long-term PomJ consumption did not worsen diabetic markers. However, a large knowledge gap still exists regarding the form of sugars in PJ and the hormonal responses to PJ consumption in different physiological conditions. Therefore currently the consumption of PJ is not recommended for individuals with T2DM. This clinical study will focus on the short-term effects of PJ consumption on different diabetic variables to further evaluate the health benefits of PJ for T2DM.
Several crosssectional and prospective studies have shown that metabolic syndrome and its related components are associated with both prevalent and incident CKD . Although the mechanisms for these cardiovascular benefits of Metformin and vildagliptin remain unclear, they extend well beyond glycemic lowering, and therefore are probably best considered diverse "cardiometabolic" pharmaceuticals rather than simply type 2 diabetes drugs. Metformin and vildagliptin have known vasculoprotective actions, but the value of these drugs on drug-naïve diabetic patients during 24 week use warrants investigation. The investigator's purpose was to observe their effects on weight control, Cardiometabolic Risk Factors, Metabolic Syndrome risk, and diabetic nephrooathy Progression.
Type 2 diabetes is the most common form of diabetes and according to several studies, even lung can represent another target of the diabetic disease. Asthmatic patients often show comorbidities and obesity is one of the main.Several studies in literature suggest that patients with higher Body Mass Index (i.e. overweight and obese) have a greater risk of developing asthma compared to normal weight subjects. Considering inflammation, asthma is usually characterized by an increase of eosinophils in the airways and by a Th2 type inflammation, while a immunological type Th1 switch systemically characterizes diabetes. Even asthmatic patients, especially if diabetic, might have an increase of glucose in their airways, that could favourite or feed an inflammatory/infective state. Up to-day there are not in literature studies that have investigated the airways inflammatory pattern and the exercise capacity in relation to functional characteristics in diabetic patients affected by asthma.
Type 2 diabetes mellitus (T2DM) is a well-recognized independent risk factor for heart failure (HF). Whereas the prevalence of HF in the general population is 1-4%, it reaches approximately 12% in T2DM patients. In 1972, Rubler reported a specific diabetes-associated cardiac injury called diabetic cardiomyopathy. This cardiomyopathy is defined by ventricular dysfunction occurring without coronary disease or hypertension. Diabetic cardiomyopathy is also characterized by left ventricular (LV) hypertrophy, diastolic dysfunction and myocardial fibrosis. A large body of work indicates that diabetic cardiomyopathy is associated with altered cardiac energy metabolism. Indeed, in obese T2DM patients, heart lipid uptake is increased. Several studies support that free fatty acid (FFA) accumulation leads to the increased production of diacylglycerol (DAG), ceramides and reactive oxygen species (ROS), affecting cardiac insulin sensitivity and cardiac contractility. On the other hand, hyperglycemia and glucose overload have been involved in cardiac hypertrophy and dysfunction in the context of T2DM and obesity. The diabetic heart is simultaneously characterized by impaired insulin-stimulated glucose uptake and obvious signs of glucose overload, such as ROS and advanced glycation end-product (AGE) production as well as hexosamine pathway chronic activation. Interestingly, when comparing diabetic and nondiabetic obese patients, we previously demonstrated that hyperglycemia per se plays a central role in the impaired cardiac mitochondrial activity associated with myocardial contractile dysfunction.
This study is designed to test if there is a difference in brain glucose transport kinetics in poorly controlled T2DM individuals with short duration and long duration of diabetes, using non-invasive magnetic resonance spectroscopy (MRSI). Also, if these changes are reversible with improved glucose control will be tested. A better understanding of the impact of duration of diabetes on brain glucose transport function may have important implications for understanding the pathophysiology of brain complications in T2DM.
The aim of this study is to assess the significance of serum fetuin-A as a marker of obesity and type 2 diabetes mellitus. We used multiple statistical approaches to determine that the fetuin-A level is correlated to body mass index (BMI) as well as random blood sugar in type 2 diabetic patients. Also, we found that there is a Positive correlation between the serum fetuin-A levels and the level of glycosylated hemoglobin (HbA1c) in diabetic patients.