Suppression of Endogenous Glucose Production by Injectable HDV-Insulin Lispro: A Dose Response Study...
Type 1 DiabetesSingle-center, double-blind, random-sequence study assessing the HDV dose-response relationship to Endogenous Glucose Production (EGP), Free Fatty Acids (FFA) and Glucose Disposal Rate (GDR) during a euglycemic clamp procedure following overnight stabilization of blood glucose with intravenous insulin (and, if needed intravenous glucose). EGP and GDR will be determined using established radioisotope methodology. The concentration of Hepatic Directed Vesicles (HDV) in the insulin lispro (LIS) infused during the clamp procedure will be varied such that the percentage of HDV-bound LIS will range from 0%, 1%, 10%, and 100%. Each participant will thus undergo four clamp procedures at the four different HDV levels. LIS will be infused at a constant dose (6 mU/m2/min) for each of the four procedures.
Trial of Semaglutide for Diabetic Kidney Disease in Type 1 Diabetes
Diabetic Kidney DiseaseType 1 DiabetesThe primary objective of this study is to determine the effects of semaglutide on kidney oxygenation and function in type 1 diabetes. The secondary objective is to determine the glycemic effects and safety of semaglutide in type 1 diabetes.
BetaFIT Study: Beta Cell Imaging After Faecal mIcrobiota Transplantation
Type 1 DiabetesThe main goal is to investigate whether beta cell mass is correlated to beta cell function after autologous faecal microbial transplantation (FMT) in patients with newly diagnosed type 1 diabetes
Impact of Hybrid Closed Loop Systems in People With Type I Diabetes
Type 1 DiabetesInsulin Pump Therapy1 moreType 1 diabetes requires people with type 1 diabetes to constantly monitor their blood glucose and adjust their insulin doses to try and keep glucose levels in range. Hybrid closed loop systems (also called artificial pancreas) consist of a sensor that continuously measures glucose levels, an algorithm that then decides every few minutes how much insulin to deliver and an insulin pump that then delivers the insulin. These systems have been shown in observational and randomized studies to improve glucose levels and have high levels of user satisfaction. The National Health Service (NHS) in the UK has launched a pilot for up to 1,000 people with type 1 diabetes to trial these devices for up to 1 year and the results of that pilot will be audited by clinical teams. This study will recruit people from that pilot and use well validated as well as bespoke questionnaires to assess the impact of this technology on various key patient reported outcomes such as depression, diabetes related distress and fear of hypoglycemia (low blood glucose). We will invite a small number of participants to take part in semi-structured interviews to gain a more detailed understanding of the benefits and challenges of using these devices, and the impact they have on people living with type 1 diabetes. We know that living with a partner with type 1 diabetes can also have a negative impact on quality of life, and so we will invite partners of people using the hybrid closed loops systems to complete some validated and bespoke questionnaires. A small sample will also be invited to participate in interviews. The data from this real-world study of the impact of hybrid closed loop systems on patient reported outcomes will be of value to clinicians, people with type 1 diabetes and policy makers in understanding the value of these systems to people with type 1 diabetes and their families.
EXtremely Early-onset Type 1 Diabetes EXtremely Early-onset Type 1 Diabetes (A Musketeers' Memorandum...
Type1 Diabetes MellitusType 1 diabetes (T1D) results from destruction of insulin-producing beta cells in the pancreas by the body's own immune system (autoimmunity). It is not fully understood what causes this type of diabetes and why there is variation in age of onset and severity between people who develop the disease. The aim of this work is to study very unusual people who develop T1D extremely young, as babies under 2 years of age (EET1D). The investigators think that, for the condition to have developed that early, they must have an unusual or extreme form of autoimmunity. Studying people with EET1D will enable us to look at exactly what goes wrong with the immune system because they have one of the most extreme forms of the disease. We may be able to learn a lot about the disease from a small number of rare individuals. We aim to confirm that they have autoimmune type 1 diabetes and then try to understand how they have developed diabetes so young by studying their immune system genes, the function of their immune system, and environmental factors (such as maternal genetics) that may play a role in their development of the disease. People with diabetes diagnosed under 12 months are very rare, live all over the world. and are usually referred to Exeter for genetic testing. As part of their wider clinical team, we will contact them via their clinician to ask for more information about their diabetes and their family history. We will collect samples to study whether they still make any of their own insulin and whether they make specific antibodies against their beta cells in the pancreas. Separately, we will study their immune system in depth using immune cells isolated from a blood sample. We will then study these cells using cutting edge techniques by Dr Tim Tree at King's College London, by Professor Bart Roep at the Diabetes Metabolism Research Institute Faculty, City of Hope National Medical Center, California (USA), and Dr Cate Speake, Benaroya Research Institute, Seattle (USA). Some of these tests have never been used in people of young ages around the world, so an aim of this project will be to develop methods that can be used to study people even if they live far away. Additional funding extends the study for a further 3 years (Phase 2) to include recruitment of infants without diabetes, aged 0-6 years, as controls to enable assessment of how the abnormalities found in autoimmune and non-autoimmune diabetes compare to normal early life development of the immune system.
Early Stage Retinal Abnormalities in Type 1 Diabetes, Screened With OCT Angiography.
Type 1 Diabetes PatientsThe improvement of imaging techniques in ophthalmology has made it possible to carry out a precise non-invasive study of the retinal microvascular network and to detect early abnormalities in retinal disorders. The presence of such early retinal abnormalities remains poorly known during type 1 diabetes and may be detected with OCT-angiography. Furthermore, the association with glycemic variability, likely to have deleterious effects on microvessels, has never been studied.
Study of High Density Lipoprotein Function in Type 1 Diabetic Patients With Nephropathy
Type 1 DiabetesA number of arguments suggest that the deterioration in high density lipoproteins (HDL) functioning may worsen with the development of nephropathy during type 1 diabetes (T1D). The objective of this study will be to investigate to what extent nephropathy in T1D patients in the microalbuminuria and macroalbuminuria stages, compared to T1D patients without nephropathy, is associated with an alteration in HDL functionality and changes in HDL size and composition (lipids with detailed study of phosphates and sphingolipids, main lipoproteins, inflammatory markers).
Genetics Of Autoimmunity In Type I Diabetes
Type1diabetesDiabetes Mellitus3 moreThe purpose of this study is to gain more information about the step-by-step process that causes someone to develop type 1 diabetes. Scientists think that a person's own immune system, directed by genetic and environmental factors play a major role in its development. Participation involves a blood draw, a brief medical history questionnaire and measurements of height and weight. Some participants will be asked to return for annual follow-up visits for 10 years.
GPPAD-POInT (Global Platform of Autoimmune Diabetes - Primary Oral Insulin Trial)
Diabetes MellitusType 1The GPPAD-POInT Study is designed as a randomized, placebo-controlled, double blind, multicentre, multinational primary prevention phase IIb study aiming to induce immune tolerance to beta-cell autoantigens through regular exposure to oral insulin for a period of 29 to 32 months. The hypothesis is that regular exposure to oral insulin throughout the period in life where beta-cell autoimmunity usually initiates will tolerize against insulin and train the body's immune system to recognize the treatment product without reacting adversely to it in a manner seen in children who develop T1D. This immune tolerance induction therapy would reduce the likelihood of beta-cell autoimmunity. The study objective is to determine whether daily administration of oral insulin from age 4 months - 7 months until age 3.00 years to children with elevated genetic risk for type 1 diabetes reduces the cumulative incidence of beta-cell autoantibodies and diabetes in childhood.
Effect of HCL Insulin Delivery System on Glycemic Control in Patients With T1D
Diabetes MellitusType 1The goal of this study is compare the effect of hybrid closed loop system (HCL) for automatic insulin dosing treatment on the glycemic control of type 1 diabetes (T1D) in patient with different initial glycated hemoglobin.