Glycemic Variations During the Menstrual Cycle in Women With Type 1 Diabetes
Type1diabetesIn clinical practice, women living with type 1 diabetes frequently report that insulin requirements change across the menstrual cycle. Consequently, glycemic fluctuations are observed. This phenomenon could be explained by a decrease in insulin sensitivity during the second half of the menstrual cycle (luteal phase). Overall, despite an important proportion of women reporting glycemic and/or insulin variations across the menstrual cycle, studies to date have involved small sample sizes, and have had inconsistent results. The objective of this study will be to study glycemic fluctuations across the menstrual cycle using CGM data, alongside insulin data, in a large sample of women.
Android Artificial Pancreas System (Android APS) Versus Control-IQ
Diabetes MellitusType 1The aim of the investigator's study is to compare two different closed loop hybrid systems - certified Control-IQ and noncertified AndroidAPS in adult patients with Type 1 Diabetes (T1D), who had been using AndroidAPS previously from their own decision, during 12 weeks of follow-up.
Closed-Loop Insulin Delivery During Pregnancy (IADIABENCEINTE)
Type 1 DiabetesThe imbalance of diabetes is associated with an increased risk of maternal and fetal complications. In women, it can cause abortion, hypertension, preeclampsia, and obstructed labor; in the fetus, it increases the risk of many malformations, including neurological and cardiac, fetal death in utero, intrauterine growth retardation, macrosomia, prematurity and metabolic complications. Despite the various therapeutic tools available and used during pregnancy, maintaining blood sugar levels within this narrow range remains a challenge. Automated Insulin Therapy (IA) Could Further Improve Outcomes With Continuous Glucose Monitoring and Increase Percentage of Time Spent on Target Between 63 and 140 mg/dL The objective of this observational study is to describe the clinical characteristics, metabolic data on MCG and maternal and/or fetal complications in women with T1D treated during pregnancy with an AI system available in France.
Skeletal Effects of Type 1 Diabetes on Low-Trauma Fracture Risk
Type 1 DiabetesOsteopenia3 morePatients with Type 1 Diabetes Mellitus (T1DM) have a higher risk of low-trauma (osteoporotic) fracture that is 7-12 times higher than non-diabetics. The bone density of people with Type 1 Diabetes is higher at the time of fracture than in non-diabetics. This suggests the presence of underlying bone tissue mechanical defects. The potential benefits to participants would be knowledge gained about their bone density and the results of laboratory tests. On a wider scale, there may be general benefits to society because the knowledge gained from this study may help better understand the effects of diabetes on bone health
Evaluation of Main Determinants of Postprandial Glucose Response in Type 1 Diabetes
Type 1 DiabetesThe goal of this observational study is to explore inter- and intra-individual determinants of postprandial glucose response in patients with type 1 diabetes using continous glucose monitoring (CGM). A blood glucose sample will be collected during hospital visit. Participants will be asked to: record a seven-day food diary complete EPIC food frequency questionnaire collect a stool sample.
Fr1da Insulin Intervention
Stage 1 Diabetes MellitusType 1Type 1 diabetes (T1D) results from an autoimmune destruction of the insulin-producing beta cells. The process of autoimmune destruction is identified by circulating islet autoantibodies to beta cell antigens, and is mediated by a lack of immunological self-tolerance. Self-tolerance is achieved by T cell exposure to antigen in the thymus or periphery in a manner that deletes autoreactive effector T cells or induces regulatory T cells. Immunological tolerance can be achieved by administration of antigen under appropriate conditions. Evidence is now emerging in humans that these approaches may be effective in chronic inflammatory diseases such as multiple sclerosis and allergy. Administration of oral insulin in multiple islet autoantibody-positive children offers the potential for inducing immunological tolerance to beta cells and thereby protect against further development progression to type 1 diabetes.
Automated Fully Closed-Loop Insulin Delivery in Type 1 Diabetes With Ultra-Rapid Lispro (ACOLYTE...
Diabetes MellitusType 1The main objective of the study is to determine whether fully closed-loop insulin delivery using ultra-rapid acting insulin lispro will improve glucose control compared to standard lispro under conditions mimicking missed meal bolus. Ultra-rapid acting lispro (Lyumjev) is a novel formulation of insulin lispro in which two additional excipients (citrate and trepostinil) have been added, resulting in accelerated initial absorption and more than double the glucose lowering effect in the first 30 minutes after subcutaneous administration using insulin pump. To date, no randomised controlled trial involving fully closed-loop in type 1 diabetes has been performed to evaluate the benefit of Lyumjev over standard lispro. This is an open-label, single-centre, two-period, randomised, crossover study. The study involves two 12-hour in-patient stays at the clinical research facility during which glucose levels will be controlled by the Cambridge closed-loop system with either Lyumjev or standard lispro. Up to 26 adults with type 1 diabetes treated with insulin pump will be recruited at Manchester Royal Infirmary, aiming for 19 completed participants. During the study days, closed-loop will automatically modulate insulin infusion rate based on real-time glucose sensor measurements. Participants will receive standardised meals with no meal bolus for the lunch time meal during each study day. Primary outcome is the time spent in sensor glucose range (3.9-10.0mmol/l) between 11:00 - 17:00 hrs. Secondary outcomes are the time spent with glucose levels above and below target, and other sensor-based metrics. Safety evaluation comprises assessment of the frequency of hypo and hyperglycaemic episodes.
Stimulated Glucagon as a Biomarker of Hypoglycemic Risk in Type 1 Diabetes
Type 1 DiabetesHypoglycemiaType 1 diabetes (T1D) results from destruction of insulin producing beta cells by the body's own immune system (autoimmunity) causing an individual to lose the ability to make enough insulin to control their blood sugar levels and need to have insulin injections to lower blood glucose levels. Whilst high blood sugar level is a problem for people with Type 1 diabetes, taking insulin medication to lower sugar levels, delayed meals and exercise can all result in dangerously low blood sugar levels (hypoglycaemia). The biological causes of hypoglycaemia, and ways to prevent it are poorly understood. In non-diabetic individuals, a hormone called glucagon is secreted naturally to raise blood glucose levels but it is unclear why glucagon secretion is impaired during hypoglycaemia in individuals with T1D. The aim of this prospective observational study is to test the relationship between a glucagon stimulation test and risk of hypoglycaemia in T1D. It is hoped this research will establish whether this relationship could be used as a blood test and be a clinically useful biomarker of hypoglycaemia risk and, therefore, directly inform clinical care of people with T1D, particularly those with highest risk of hypoglycaemia. Participants will be asked to complete: a Mixed Meal Tolerance Test (MMTT) at Visit 1 or 2 an Arginine Stimulation Test (AST) at Visit 1 or 2 a Light MMTT or repeat AST at Visit 3 (approx 6-7 months of Visit 1) continuous glucose monitoring (CGM) and self-reported time spent in hypoglycaemia will be undertaken for 2 weeks following Visits 1 and 3.
Slow Digestible Carbohydrates and Exercise in Adolescents With Type 1 Diabetes
Type 1 DiabetesHypoglycemiaIn this within-subject cross-over study, the investigators hypothesize that corn-starch based supplements taken prior to exercise will decrease the risk of delayed hypoglycemia in adolescents with T1D, improve performance during exercise, and decrease glycemic variability during exercise.
Type I Diabetes and Non-surgical Periodontal Treatment
Type 1 DiabetesPeriodontitis5 moreCurrent evidence suggests a bidirectional association between periodontitis and diabetes. Periodontal therapy improves short term HbA1c levels and is safe to perform. Most studies are focused on type 2 Diabetes. Literature about the correlation between periodontitis and type 1 diabetes is scarce, since no randomized clinical trials have been performed. The objective of the present clinical investigation is to evaluate the effects of nonsurgical treatment of periodontal disease on glycemic variability in patients with type 1 diabetes (T1DM). The hypothesis is that nonsurgical periodontal therapy affects glycemic variability in terms of time spent in hyperglycemia.