View clinical trials related to Type 1 Diabetes.
Filter by:With over 6 billion mobile phone subscribers and 75% of the world having access to a device, global health communities increasingly recognize the potential for using these devices to improve access to health care and health outcomes-especially in sub-Saharan Africa (SSA), where device ownership has grown dramatically. Less attention, however, has been given to developing the research capacity to allow these countries' public health researchers to collaborate with software developers and the users of mobile health applications (henceforth apps) to develop their own interventions. If mobile health apps are to be adopted, effective, and scalable, they must be designed by and with these individuals, the people most knowledgeable about the issues affecting technology use and disease management in their countries. Human-centered design (HCD), or design thinking, is a promising design strategy that prioritizes the needs of the intended population. It has also been successfully used to develop innovative and locally relevant health interventions that improve health outcomes. The purpose of this R21 proposal is to introduce Kenyan public health researchers and software developers to the HCD process and then collaboratively develop and evaluate an mobile health app that targets a growing epidemic among middle-to-late adolescents (13-18 yrs.) in Kenya-Type 1 Diabetes (T1D). To achieve this goal, we will pursue these specific aims: (1) train Kenyan health practitioners and software developers in HCD; (2) use HCD to build a prototype mHealth intervention for adolescents in Kenya with T1D; and (3) assess the prototype's usability, accessibility, and feasibility in using it to increase adolescents' knowledge of T1D and management of the disease. Our long-term goals include: (1) building research capacity by establishing a research network between health researchers at The Kenyan Diabetes Management and Information Center (DMI-a non-profit organization that works with adolescents with T1D) and mobile software developers at Lake Hub (an innovation space) so they can design future mobile health apps; (2) developing a commercially available app that Kenyan adolescents can use to manage T1D and stay healthy; and (3) evaluating the HCD process as it applies to developing mobile health interventions that improve health outcomes.
In the general population, the excessive and constant desire to control one's diet and body has become increasingly problematic. Indeed, the demand for control over one's diet and body is now an unspoken social prescription that can lead in some cases to eating disorders. In patients with type 1 diabetes (T1D), these concerns are even more central, as they are accentuated by the very nature of the treatment of the disease (dietary modification, insulin compensation according to food intake, etc.). Studies on adolescents with T1D show that the prevalence of eating disorders would be present in at least 1 in 5 patients. Among these disorders, orthorexia is of particular interest. Indeed, orthorexia was defined in 1997 by Steven Bratman as a rigid eating behavior based on the avoidance of foods considered qualitatively unhealthy. More precisely, orthorexia is characterized by a constant preoccupation with one's diet and persistent nutritional (or health) beliefs that take precedence over food pleasure. It has been estimated that the prevalence of orthorexia in patients living with T1D may be as high as 80%. We are currently conducting a study on the mechanisms of orthorexia in the general population of Quebec (the results of phase 1 of this study are being analyzed). We now wish to conduct the same study in a population with T1D, which has a higher prevalence of people with orthorexia nervosa. The main objective of this study is to investigate the characteristics of orthorexia nervosa (obsessions and fixations on healthy eating) in the Quebec population with T1D from the BETTER Registry.
Predicting early onset neuropathy in people with type 1 diabetes
This project is a randomized controlled trial of iACT, a novel mHealth intervention for eating disorders in type 1 diabetes (ED-T1DM). Participants will be 128 T1DM patients between the ages of 16-45 with binge-purge EDs, including threshold and subthreshold bulimia nervosa, binge eating disorder and purging disorder. Participants will be randomized to either iACT or Usual Care, and complete assessments at baseline and every 3 months for 9 months. The primary outcome of interest is glycemic control as assessed by continuous glucose monitoring. Other outcomes include HbA1c, eating disorder symptoms, diabetes self-management and diabetes distress. In addition to examining clinical outcomes, this study tests biobehavioral mechanisms of change and predictors of treatment response. Process of change assessments focus on flexible responding to pathology-relevant stimuli and early improvement in glycemic control affecting executive function. The primary site is Duke University Medical Center. The Miriam Hospital is a secondary site.
In 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.
The purpose of this study is to assess the use of once weekly semaglutide injection in inadequately controlled obese adults with type 1 diabetes (T1D) using FDA-approved hybrid closed-loop therapies.
The purpose of this study is to understand the impact of the automated priming boluses on the safety and feasibility of a new fully automated AP controller.
Type 1 Diabetes (T1D) is the most common form of diabetes affecting children, requiring lifelong administration of insulin to prevent complications. The incidence of T1D has increased more among African Americans, Hispanics, and Asian/Pacific Islanders compared to Caucasian youths in the past two decades. Despite advances in insulin delivery systems, fewer black and Hispanic children compared to white children with T1D use insulin pumps. Therefore, most minority children with T1D in urban areas require multiple daily injections (MDI) of insulin which may put them at increased risk of poor glycemic control. Although several factors contribute to worsening glycemic control in adolescents with T1D, studies have shown that missing doses of insulin at mealtimes is a major factor. Adolescents with T1D who use MDI with a basal-bolus regimen use formulas to calculate insulin doses that involve a four-step process. The complexity of determining insulin doses contributes to inaccuracies in both timing of doses and amount of insulin given, both of which can lead to hyperglycemia and hypoglycemia. The InPen™ Smart Insulin Pen System (Medtronics) was approved by the FDA for children of all ages with T1D in June 2020. The InPen is a Bluetooth-enabled smart insulin pen that helps with management of insulin dosing and tracking via capture of rapid-acting insulin doses and tracking of insulin in the body through the use of its companion app (free on Apple iOS and Android). The app includes a bolus calculator, which can lead to more accurate insulin dosing, which may improve glycemic control. The specific benefits of using the InPen include the following: simplifying insulin dose calculations, administering more accurate insulin doses, tracking insulin doses to help prevent hypoglycemia, providing reminders to administer insulin, and storing data in the InPen App that can be easily shared with diabetes healthcare teams to assist with adjusting insulin doses. The goal of this study is to determine if use of the InPen will improve glycemic control and diabetes numeracy in adolescents with uncontrolled T1D living in urban areas.
The main objective is to determine the efficacy of Lyumjev (insulin) in a bi-hormonal reactive closed loop system for automated glucose regulation (artificial pancreas; AP®) in patients with diabetes mellitus type 1. In addition, safety parameters, pharmacodynamics and AP-related parameters will be acquired. This study is a multicenter, open-label, randomized, cross-over trial in 12 subjects. The subjects will be randomized to receive either Lyumjev or Humalog® for a 30-day study period and will then switch to the alternate insulin treatment after a wash-out period.
The aim of the study is to examine the relationship between the nutritional content of the diet consumed by children and adolescents (0-18 years old) with the diagnosis of type 1 diabetes and metabolic control. In this cross-sectional study, 150 children and adolescents with type 1 diabetes who came to Ege University Child Health and Diseases Department, Pediatric Endocrine and Diabetes Department for regular check-ups (4 diabetes control/year) and kept food consumption records in the last 1 year will be included. Body weight and height measurements of the cases will be done by the same person in Ege University Pediatric Endocrinology and Diabetes BD Polyclinic. Turkish Standard Institute approved Baster brand weighing instrument with 0.1 kg intervals and height measurements will be made with Harpander brand stadiometer with 0.1 cm intervals. SD scores of body weight, height and body mass index for age Neyzi et al. It will be calculated using the reference values developed for Turkish children by Age, diabetes age, gender, height - body weight-body mass index SD score, HbA1c level, daily energy intake, percentage of energy from carbohydrate-protein-fat-saturated fat in energy, daily fiber intake amount of the cases will be recorded in the case report form. The biochemical values of the participants will be taken from the file records. The data will be entered into the statistical package program and the patients' 1) carbohydrate, protein, fat, saturated fat intake, 2) vitamin-mineral intake, and 3) fruit and vegetable consumption will be compared with the recommendations in national and international guidelines and their relationship with metabolic control will be investigated