Active clinical trials for "Diabetes Mellitus, Type 1"

The aims of this pilot study are to evaluate the feasibility, acceptability, preliminary impact, and costs of a brief, behavioral intervention delivered remotely by diabetes educators to people with type 1 diabetes and their family members. The purpose of the intervention is to support health-related quality of life for people with type 1 diabetes of all ages and to support the diabetes health-related quality of life of their parents and partners. This pilot study will explore how this intervention works as a supplement to routine medical care in three clinical care settings: an adult specialty diabetes care setting, a pediatric subspecialty diabetes care setting, and for people who receive diabetes medical care from a primary care provider. To maximize data about feasibility and acceptability of the intervention, all participants in the pilot study will receive the intervention and there will not be randomization to a control condition.

Diabetes mellitus (diabetes) is a chronic condition that represents a major public health and clinical concern. Self-monitoring of blood glucose (SMBG) is a critical part of the care of individuals with diabetes. SMBG entails capillary fingerstick blood glucose testing multiple times per day. Many people with diabetes find this testing painful and cumbersome, often resulting in poor compliance to a glucose self-monitoring schedule. Furthermore, SMBG only provides limited visibility on daily and nightly glucose profiles, meaning that hypo- and hyperglycaemic episodes can be missed or detected with delay. The use of minimally invasive continuous glucose monitoring devices (CGMs) in diabetes management circumvents these challenges as CGMs measure glucose every few minutes over a period of 1-2 weeks through a sensor with a fine needle that is inserted once into a user's arm or abdomen. This enables periodic glucose measurement without repeat finger pricks and provides the user with a detailed glucose profile over the entire wear time of the sensor, thus enabling better adjustment of therapy or behaviour. In populations where CGMs are accessible to people with diabetes as standard of care and without additional cost, many people with type 1 diabetes have switched from SMBG via fingerstick to the use of CGMs permanently, using the devices continuously. This is rarely possibly for people with type 1 diabetes in the public sector in LMICs as CGMs are not provided as standard of care. Little data on effectiveness, feasibility, acceptability, and cost of the use of CGMs in LMIC populations is available to inform clinical models for the integration of CGMs into diabetes management. Furthermore, it has not been investigated if intermittent, as opposed to continuous use of CGMs provides clinical benefit. Intermittent use could be beneficial for people with diabetes who do not have the means to pay for continuous use of CGMs. This study aims to evaluate the effectiveness, feasibility, acceptability, and cost of intermittent and continuous use of CGM among people with type 1 diabetes in South Africa.

To determine if increased targeted contact between patients and the care team can improve diabetes outcomes in the 1st year after diagnosis. We will be using the GluVue platform to remotely view continuous glucose monitor (CGM) data.

The purpose of this study is to collect information on how NovoPen® 6 works with Tresiba® & Fiasp® for treatment of people with type 1 diabetes and see if the use of NovoPen® 6 can help participants achieve better blood sugar levels. Participants will use Tresiba® & Fiasp® in NovoPen® 6 as prescribed to participants by the study doctor. NovoPen® 6 is a smart pen, which collects and stores the date and time of injections and number of units of insulin participants have taken. NovoPen® 6 can transfer participants insulin dosing information to the mobile application, which participants use to see their continuous blood sugar level. This will allow participants to see their insulin doses along with continuous blood sugar level in the mobile application. Participants will keep using their own continuous blood sugar monitoring device and the mobile application to see these data during the study. The study will last for about 9-11 months. Participants will be asked to complete 2 questionnaires in this study. One questionnaire is about overall satisfaction of using a digital health solution and other is about quality of life. Participants will complete these questionnaires during their normally scheduled visit with the study doctor, on 2 separate occasions

The goal of this longitudinal clinical trial is to measure variability of interstitial glucose levels with a user-friendly real-time continuous glucose monitoring (CGM) technology at regular intervals in normo- and dysglycemic multiple autoantibody-positive first-degree relatives (age 5-39 years) of type 1 diabetes patients, in comparison with single autoantibody-positive relatives in the same age range. Participants will asked to undergo repeated oral glucose tolerance tests (OGTTs) (age 5-39 years) and hyperglycemic clamp tests (age 12-39 years) in parallel for a period of at least 2-3 years. In case of confirmed dysglycemia, we propose to perform CGM and OGTT every 3 months. The main questions the study aims to answer are: Do the amplitude and time trends of CGM-derived glycemic variability indices and OGTT- and clamp-derived variables differ between the intermediate, high and very high risk groups? Can (changes in) CGM-derived glycemic variability indices predict/detect dysglycemia in initially normoglycemic (single or multiple autoantibody-positive) relatives with the same diagnostic efficiency as OGTT- or clamp-derived variables? Can (changes in) CGM-derived glycemic variability indices predict clinical onset in (stage 1 or 2) multiple autoantibody-positive relatives with the same diagnostic efficiency as OGTT- or clamp-derived variables? Can correlating (changes in) CGM-derived indices with (changes in) OGTT- and clamp-derived variables help to better understand the sequence of events leading to dysglycemia and clinical onset, as well as the relative contribution of beta cell function and insulin action to glycemic variability according to disease stage and biological and phenotypical characteristics of the relatives?

Type 1 DM; It is a chronic metabolic disease that develops as a result of the destruction of pancreatic ß cells, which are responsible for insulin production. Although type 1 DM can occur at any age, the highest incidence is seen between the ages of 10-14. Especially in this age group (7-15 years), who are more social than the previous period with the emergence of diabetes symptoms, both physical restrictions and limitations in their emotional and social functionality permanently change the lives of children with diabetes. According to the International Diabetes Federation (IDF) 2019 data, it is estimated that the patients with Type 1 diabetes in the world are 1,110,100 children/adolescents. This number is increasing each year, and it is estimated that approximately 98,200 children and adolescents under the age of 15 are diagnosed with Type 1 diabetes each year. It is seen that there is an increase in the number of cases in young children in high-risk groups. Therefore, early diagnosis and initiation of treatment is a necessary step. The basic elements of type 1 diabetes treatment are; diabetes education, nutrition, exercise, insulin, blood sugar monitoring and psychosocial counseling. Recently; It is seen that the use of technology in children with diabetes has increased thanks to the opportunity to access information at any time, to choose the information according to one's own needs, to receive service when it is ready, to reduce costs in health, and to be educated at home due to limitations. Taking measures to prevent worsening of glycemic regulation and weight gain in patients with diabetes, especially in situations that cause social isolation such as pandemics, monitoring and management of patients with diabetes during the social isolation process, and enabling patients to access the information they need in a short time are of great importance in terms of diabetes tables. When the literature is examined, it is seen that there are many pages and mobile applications related to this. In this study, it is aimed to improve the self-management of children/adolescents with a mobile application that can be accessed from any device suitable for today. For this, it is aimed to create a mobile application that includes all sub-dimensions of diabetes self-management and contains content that other applications do not have.

Diabetes mellitus (diabetes) is a chronic condition that represents a major public health and clinical concern. Self-monitoring of blood glucose (SMBG) is a critical part of the care of individuals with diabetes. SMBG entails capillary fingerstick blood glucose testing multiple times per day. Many people with diabetes find this testing painful and cumbersome, often resulting in poor compliance to a glucose self-monitoring schedule. Furthermore, SMBG only provides limited visibility on daily and nightly glucose profiles, meaning that hypo- and hyperglycaemic episodes can be missed or detected with delay. The use of minimally invasive continuous glucose monitoring devices (CGMs) in diabetes management circumvents these challenges as CGMs measure glucose every few minutes over a period of 1-2 weeks through a sensor with a fine needle that is inserted once into a user's arm or abdomen. This enables periodic glucose measurement without repeat finger pricks and provides the user with a detailed glucose profile over the entire wear time of the sensor, thus enabling better adjustment of therapy or behaviour. In populations where CGMs are accessible to people with diabetes as standard of care and without additional cost, many people with type 1 diabetes have switched from SMBG via fingerstick to the use of CGMs permanently, using the devices continuously. This is rarely possibly for people with type 1 diabetes in the public sector in LMICs as CGMs are not provided as standard of care. Little data on effectiveness, feasibility, acceptability, and cost of the use of CGMs in LMIC populations is available to inform clinical models for the integration of CGMs into diabetes management. Furthermore, it has not been investigated if intermittent, as opposed to continuous use of CGMs provides clinical benefit. Intermittent use could be beneficial for people with diabetes who do not have the means to pay for continuous use of CGMs. This study aims to evaluate the effectiveness, feasibility, acceptability, and cost of intermittent and continuous use of CGM among people with type 1 diabetes in Kenya.

In this study, blood flow and tissue changes in adult and pediatric patients with diabetes mellitus will be characterized by MSOT and compared with existing methods (ABI testing, neurological testing) (method comparison). The aim is to quantify changes and to possibly allow early detection of concomitant diseases. This could, similar to peripheral arterial occlusive disease, lead to a new possibility of non-invasive assessment of disease progression in the future.

Type 1 diabetes mellitus is the most common chronic metabolic disorder in children. Diabetic children who take proper nutrition and good care attain normal growth status. Factors affecting growth in diabetic patients include gender, age at diagnosis, duration of disease, glycemic control, and puberty status. Moreover, diabetes mellitus has negative impact on vestibular system, affect proprioception and lower limb muscle fatigue resulting in reduced balance.

The goal of the study is to characterize preclinical Alzheimer's Disease and related dementias (AD/ADRD) neuropathology in a selected group of young adults with youth-onset diabetes, and an age-similar group of young adults without diabetes.