View clinical trials related to Type 2 Diabetes.
Filter by:This research study is being done to evaluate the effect of hepatic ultrasound insonification on whole-body insulin sensitivity and evaluate the safety and tolerability of hepatic ultrasound insonification in subjects with Type 2 Diabetes Mellitus (T2DM). "Insonify/insonification" is defined as applying to an area or an object carefully-controlled sound waves, typically as in ultrasound imaging. GE Research is sponsoring this research study. The purpose of this research study is to: - Evaluate the effect of liver ultrasound waves on changes from baseline in whole-body insulin sensitivity - Test the safety and tolerability of liver ultrasound waves in subjects with Type 2 Diabetes Mellitus - Evaluate the effect of liver ultrasound waves on change from baseline in glucose tolerance and insulin secretion - Evaluate the effect of liver ultrasound waves on glucose metabolism Insulin sensitivity refers to how sensitive the body's cells are in response to insulin. Glucose tolerance refers to the body's ability to handle (tolerate) glucose. Insulin secretion is a process in which the body releases insulin in response to glucose levels in the blood becoming elevated. The study device used in this study is cleared for use by the United States Food and Drug Administration (FDA) for ultrasound diagnostic exams, however it has not been tested or approved specifically for modulation of metabolism in people with diabetes. The use of the study device in this study is investigational and is considered a Non-Significant Risk (NSR).
The strict rules applied in Italy during the recent COVID-19 pandemic, with the prohibition to attend any regular outdoor activity, are likely to influence the degree of metabolic control of patients with type 2 diabetes. The aim of this observational, prospective, single centre study was to evaluate the immediate impact of the lockdown rules on the metabolic profile of a cohort of patients with type 2 diabetes.
The Primary Care Diabetes Support Program (PCDSP) offers a lifestyle medicine program, STAND, that patients can self-select themselves to participate. STAND offers biweekly, one-hour educational classes. With the onset of COVID-19, the clinic has moved virtually, but has yet to offer an individualized exercise program. Little evidence is available on utilizing telemedicine and wearable technologies combined in a clinical exercise setting. This is a 6-week single cohort prospective study assessing the feasibility of incorporating wearable activity trackers and individualized exercise prescriptions in the PCDSP's virtually delivered, STAND program in an adult population with type 2 diabetes mellitus. Roughly 15-20 participants will be recruited. Participants will attend the bi-weekly STAND classes and track their step counts daily using FitBits, trying to achieve individually prescribed step counts. Participants receive a brief follow up phone call every other week. The primary outcomes assessed will be recruitment and retention rates, as well as acceptability of, and adherence to, the virtual program. Acceptability will be assessed by an exit survey and mean number of reported technological issues. Adherence will be number of classes attended and percent of days with FitBit worn (>500 steps) and average percent Libre sensor is active. Change in self-efficacy levels, diabetes emotional related distress, exercise volume, glucose control and fitness levels will secondarily be assessed.
Diabetes mellitus has been declared a major public health issue. Among the complications of the disease, retinopathy can have a significant impact on mobility and quality of life for individuals living with diabetes. As the leading cause of new blindness in adults, diabetic retinopathy has been shown to affect 23% of all Type 1 and 14% of Type 2 diabetic individuals. Various studies have reported that a number of components in the egg may contribute to visual function and eye health. Specifically, i) egg yolk naturally contains, and can be further enriched with the carotenoids lutein and zeaxanthin. Lutein and zeaxanthin protect the retina against light induced retinal damage by acting as potent antioxidants that shield the retina from harmful short-wave radiation. ii) eggs can also be enriched to provide a vehicle for specific nutrients to promote eye health including omega-3 fatty acid, docosahexaenoic acid (DHA). A substantial amount of DHA is uniquely found within the retina. A DHA deficiency has shown to induce abnormal retina function indicating a constant supply of this nutrient is necessary for retina health. Currently, the American Diabetes Association declares that eggs are an excellent choice for people with diabetes, but information lacks on the status of whole egg consumption in diabetic individuals in relation to their retinal health. Therefore, the current study aims to determine if the consumption of two lutein and DHA enriched eggs per day can safely improve the retina function of individuals with type 2 diabetes. A total of 60 adult diabetic male and female participants will be recruited to take part in this double-blinded, randomized, placebo-controlled, parallel trial. Participants will be randomly assigned to include two DHA and lutein enriched eggs or regular eggs into their usual diet for 6 weeks. At the beginning and end of the trial, a variety of measures will be analyzed including blood lipid parameters, carotenoid status, anthropometrics, arterial stiffness, advanced glycated end products, macular pigment optical density and electroretinography. These measures will aid in determining whether enriched egg consumption can safely improve retina function, while not adversely effecting body composition and cardiovascular risk factors in individuals with diabetes. The results of this study will contribute to the development of valuable prevention strategies for eye health in individuals with diabetes, thereby improving their quality of life.
In this project, investigators explored the role of the particles that carry "bad cholesterol" in the blood (termed LDL) that are known to promote heart disease, in the promotion of type 2 diabetes (T2D) in humans. In specific, they investigated how these particles may induce the activation of an immune pathway in human fat tissue leading to multiple anomalies that favors T2D. They also explored whether omega-3 fatty acids, which are the type of fat found in fish oils can counterbalance the negative effects of LDL in fat tissue, thus providing a natural way to help reduce the risk for T2D in subjects with elevated blood LDL. To do so, 41 subjects who were free of disease or medication affecting metabolism were enrolled at the Montreal Clinical Research Institute between 2013 and 2019 and were placed on an intervention with omega-3 fatty acids supplementation for 12 weeks (2.7 g/day, Triple Strength Omega-3 from Webbers Naturals). Investigators examined the effects of LDL and omega-3 on risk factors for T2D before and after the intervention in the whole body and specifically in fat tissue biopsies taken from the hip region. Eighty percent of the subjects who were enrolled into the study completed the intervention.
Patients newly diagnosed with T2D will be recruited and will receive sitagliptin treatment for 3 months. The gut microbiome of the participants before and after the treatment and the effectiveness of sitagliptin treatment on type 2 diabetes will be evaluated.
Non Alcoholic Fatty Liver Disease (NAFLD) is an emergent disease worldwide, and soon the leading cause of hepatic transplant in the USA. Among this high number of patients, the current challenge is to detect or even predict patients at risk of inflammation (Non Alcoholic or Steatohepatitis or NASH) and end-stage fibrosis, which are the best predictors of liver-related mortality. Visceral obesity is intimately associated with metabolic disease and adverse health outcomes, such as diabetes, and NAFLD. It has been demonstrated that visceral adipose tissue-linked inflammation was a risk factor of stroke, myocardial infarction, and others metabolic-related complications. The aim of this study was to evaluate the association of the quantity and percentage of Visceral Adipose Tissue by Dual X-Ray Absorptiometry and liver stiffness by Fibroscan in patients with type 2 diabetes, and other predictors of fibrosis such as FIB-4 and Fibrotest. We retrospectively collected the data of all the diabetic patients who had undergone a DEXA and a Fibroscan between January 1st, 2014 and Decembre 31th, 2019, in the Universitary Hospital of Nancy, France.
Every 3 minutes a new case of diabetes is diagnosed in Canada, mostly type 2 diabetes (T2D) increasing the risk for heart disease. T2D and heart disease share many common risk factors such as aging, obesity and unhealthy lifestyle. Paradoxically however, while lowering blood LDL, commonly known as "bad cholesterol", is protective against heart disease, research over the past 10 years have shown that the lower is blood LDL, the higher is the chance of developing T2D. This phenomena is happening whether blood LDL is lowered by a common drug against heart disease called Statins, or by being born with certain variations in genes, some of which are very common (~80% of people have them). To date, it is unclear why lowering blood LDL is associated with higher risk for diabetes, and whether this can be treated naturally with certain nutrients. Investigators believe that lowering blood LDL by forcing LDL entry into the body tissue through their receptors promotes T2D. This is because investigators have shown that LDL entry into human fat tissue induces fat tissue dysfunction, which would promote T2D especially in subjects with excess weight. On the other hand, investigators have shown that omega-3 fatty acids (omega-3) can directly treat the same defects induced by LDL entry into fat tissue. Omega-3 is a unique type of fat that is found mostly in fish oil. Thus the objectives of this clinical trial to be conducted in 48 subjects with normal blood LDL are to explore if: 1. Subjects with higher LDL receptors and LDL entry into fat tissue have higher risk factors for T2D compared to subjects with lower LDL receptors and LDL entry into fat tissue 2. 6-month supplementation of omega-3 from fish oil can treat subjects with higher LDL receptors and LDL entry into fat tissue reducing their risk for T2D. This study will thus explore and attempt to treat a new risk factor for T2D using an inexpensive and widely accessible nutraceutical, which would aid in preventing T2D in humans.
The purpose of this study is to investigate the user experience of an integrated insulin management system (IIM) in participants with type 1 or type 2 diabetes. The IIM system is comprised of an insulin injection pen with a data transmission module and blood glucose meter which are connected to a mobile phone application. The application will be used to record and track diabetes-data related information.
The study is conducted to assess the efficacy of real-time CGM data in preventing hypoglycemia in patients with type 2 diabetes and end-stage kidney disease (ESKD), treated with insulin therapy and receiving hemodialysis.