1,569 Clinical Trials for Various Conditions
The goal of this study is to learn about the effect of the study drug acetazolamide in individuals with Type 1 Diabetes. Specifically, whether acetazolamide provides benefits to the kidneys while minimizing any side effects of the drug. These changes will be measured by laboratory tests that tell us how well the kidneys are functioning.
The challenges of living with type 1 diabetes often stand in the way of getting enough exercise. Continuous blood sugar monitoring has revolutionized type 1 diabetes care but remains underutilized to sustainably support exercise and related behaviors. This research will develop a mobile application that delivers personalized encouragement and data-driven health insights based upon patterns in blood sugar, exercise, mood, and sleep, to assist people with type 1 diabetes in exercising more frequently and confidently.
The main purpose of this study is to find out how well and how safely tirzepatide works long-term in adults who have type 1 diabetes and obesity or overweight. Participation in the study will last about 20 months.
T1D Pregnancy \& Me will partner with pregnant participants living with type 1 diabetes (T1D) in the United States to collect real-world data on management of T1D in pregnancy. This is a remote study where participants can complete online surveys and share device data (continuous glucose monitor (CGM) data and insulin data). Through the collection of CGM, insulin, and pregnancy outcome data, the study will provide important information to understand how diabetes is being managed during pregnancy. These data will provide much needed evidence to guide modern management of diabetes during pregnancy with a goal of improving care and outcomes.
A randomized controlled trial of Control-IQ, assessing glycemic control (time-in-range 70-180 mg/dL) for Lyumjev insulin (in which the insulin settings have been determined using an experimental conversion factor) as compared to Humalog or Novolog (using optimized settings)
The overall goal of the study is to create a standardized, stakeholder-informed system within EMRs, that will enable an equitable and regular prescription and documentation of advanced diabetes technologies. This will reduce racial disparities and generate an understanding of the reasons behind prescription decisions. The study will highlight the development and implementation an EMR-based Best Practice Advisory (BPA). The study will answer whether the EMR-based BPA can effectively reduce disparities. Additionally, it will explore why providers may not prescribe advanced diabetes technologies. Patients will also be surveyed to understand their perspectives on developing the EMR-based BPA.
This is a 78-week single arm, multi-center, Phase 1 study to evaluate the safety, tolerability, cellular kinetics, and biomarker changes in C-peptide over time of GNTI-122, an investigational cell therapy manufactured from a participant's own blood cells in adult participants with recently diagnosed T1D. After assessment of eligibility, participants who qualify for the study will be enrolled sequentially in 1 of 3 cohorts. Cohort 1 participants (n=3) receive a low dose of GNTI-122 . Cohort 2 participants (n=3) receive a high dose of GNTI-122. Cohort 3 participants (n=10) receive a high dose of GNTI-122 in combination with rapamycin. Participants are followed for 78 weeks after the administration of GNTI-122 during which safety and efficacy assessments are made, including vital signs, ECG, physical exam, clinical labs, and monitoring of adverse events and concomitant medications. Disease markers (e.g., MMTT-stimulated C-peptide, HbA1c) and pharmacodynamic activity (e.g., lymphocyte subsets and phenotypes, effector T cell responses to islet antigens ex vivo, T1D autoantibodies) will be monitored serially throughout the study. The study will include sentinel dosing and a Safety Review Committee to ensure participant safety.
The main purpose of this study is to find out how well and how safely tirzepatide works in adults who have type 1 diabetes and obesity or overweight. Participation in the study will last about 49 weeks.
The purpose of this study is to identify people with T1D or celiac disease (CD) early in the course of their disease and to improve the methods of screening for these diseases.
This study is being done to see if using technology, with the help of a Patient Navigator, can help address disparities, improve outcomes, and promote healthcare equity in type 1 diabetes.
Type 1 diabetes mellitus (T1D) is a chronic autoimmune disease caused by the destruction of pancreatic β cells. T1D pathogenesis progresses through several stages: Stage 1 T1D includes the presence of β cell autoimmunity and thus presence of islet autoantibodies, without the presence of dysglycemia and symptoms. Stage 2 T1D includes the presence of islet autoantibodies and dysglycemia, also with no symptoms. Stage 3 T1D includes presence of islet autoantibodies, overt hyperglycemia, and symptoms; most patients with Stage 3 T1D meet standard diagnostic criteria for diabetes and require insulin treatment. Teplizumab has been shown to delay progression to Stage 3 in participants at Stage 2 in a Phase 2 clinical trial, leading to subsequent approval in the United States of America (USA). Patients outside of the USA are able to receive the treatment through Pre-Registration Import Licenses and Managed Access Programs. The current study will collect data on the use of teplizumab in routine care, to better understand which patients received teplizumab and how these patients were managed after they received the treatment.
The goal of this multi-center, randomized, cross-over study is to evaluate the safety and effectiveness of the Omnipod 5 SmartAdjust 2.0 System in individuals with type 1 diabetes. Study participants will complete about 5 in-person visits and be expected to treat their diabetes per their usual routine using the system at the lowest available target setting. Each participant will begin the study using either the Omnipod 5 SmartAdjust 2.0 System or the Omnipod 5 System for 4 weeks (Period 1) then switch to the opposite system for the next 4 weeks (Period 2). Everyone will use the Omnipod 5 SmartAdjust 2.0 System for the last 4-6 weeks (Period 3). During Period 3, participants will have a goal of administering no more than 3 meal or snack boluses per day.
This is a study to evaluate the HLA-DRB1\*04:01 genotype in adults that have been diagnosed with type 1 diabetes
This study will evaluate the efficacy, safety, and tolerability of VX-880 in participants with Type 1 Diabetes (TID) with a kidney transplant.
The goal of this clinical trial is to investigate the autonomic and vascular function in men and women with Type 1 diabetes. The main questions it aims to answer are: 1. Patients with type 1 diabetes exhibit attenuated vascular function during steady-state exercise 2. Patients with type 1 diabetes have altered autonomic function at rest and during exercise pressor reflex 3. Patients with type 1 diabetes have attenuated muscle sympathetic activity
This study aims to compare inpatient glycemic control by measuring the percentage of time in the range of 70-180 mg/dl and the frequency of hypoglycemia between Dexcom G7 Continuous Glucose Monitoring (CGM) and Point of Care (POC) Blood Glucose Testing in poorly controlled subjects with Type 1 Diabetes Mellitus. The main question it aims to answer is: -Whether there is a difference between POC testing (standard of care) and Real-time CGM in glycemic control and hypoglycemic events during hospitalization:
The goal of this clinical trial is to learn if implementing a single-session depression intervention for youth with type 1 diabetes (T1D) is feasible and acceptable to patients. can help improve mood and health outcomes. It will also learn about the initial efficacy of the intervention. The main questions it aims to answer are: 1. Is a single-session depression intervention for youth with T1D feasible to recruit and implement? 2. Is a single-session depression intervention for youth with T1D acceptable to patients (i.e., do they find it helpful)? 3. Does a single-session depression intervention for youth with T1D lead to improvements in low mood? Researchers will compare a single-session depression intervention for youth with to a education control to see if a single-session depression intervention works to improve depressive symptoms. Participants will: * Participate in a single-session depression intervention * Complete questionnaires and provide a sample for A1c at a baseline, 3-month, and 6-month visit * Complete daily questionnaires once a day for two weeks before and after the single-session depression intervention
The purpose of this trial is to test and refine the PACTAID smart phone application in adults with type 1 diabetes mellitus to help manage exercise while on automated insulin delivery systems with the goal of improving glycemic control during and after exercise as well as improving multiple other cardiovascular risk factors.
This is a single-site study using wearable sensor technology (CGM and smartwatch) to better explain low blood sugars in patients living with type 1 diabetes. Up to 20 participants with T1D will wear a continuous glucose monitor (CGM) and a smartwatch to collect information about hypoglycemia (low blood sugar), heart rate variability (HRV), and sleep for 4 weeks. The main goal is to create a hypoglycemia risk score using wearable sensor metrics that can be easily applied to all patients with T1D to identify those at greater risk of hypoglycemia.
This is a cross-sectional study in patients with Type 1 diabetes (TID) and chronic kidney disease (CKD) to test if time in range (TIR) affects the degree of hyperglycemia required for monocyte activation, podocyte injury, and assess if monocyte activation is attenuated by glucagon-like peptide (GLP-1) agonist treatment ex vivo.
This study will evaluate the safety, efficacy and durability of SR-02 administered to the omentum of patients of Type 1 diabetes with severe recurrent hypoglycemia. The study will also help establish the optimal treatment dose. Although this study is open to patients with all HLA or blood types, immunosuppression to prevent rejection will be required in this first in human study.
The purpose of this research study is to investigate the effects of a combination of weekly distribution of healthy foods and intensive nutrition counseling as complementary therapies to the standard insulin therapy in children with new diagnosis of stage 3 type 1 diabetes (T1D). Feasibility, acceptability, and fidelity of this intervention will be measured. We will also explore the likelihood of prolonging the honeymoon phase of T1D in the intervention study group. Comparisons will be made between this combined nutrition intervention and free healthy foods vs. current standard nutrition counseling. Both study groups will receive standard of care treatment for T1D (insulin therapy). The results of this study could inform future research that will ultimately lead to design of a larger clinical trial testing implementation of novel medical nutrition therapies for children newly diagnosed with stage 3 of T1D, and may lead to prolongation of the honeymoon phase. The overall goal is to promote the beta cell function survival and to reduce the progression to stage 4 of T1D. Condition or Disease: * Type 1 Diabetes Mellitus * New Diagnosis of Stage 3 Type 1 Diabetes ≤ 60days Intervention/Treatment: - Weekly Free Healthy Foods + Intensive Nutrition Counseling for 12 weeks
The purpose of this research is to evaluate the effect of a wearable insulin pump on blood sugar levels during sleep. The study device works with continuous glucose monitors (CGM) to calculate and deliver rapid-acting insulin doses during sleep. The study device does not replace long-acting, correction, or mealtime insulin. The study will involve applying the study device before bed for a period of 13 weeks. The overall study length is approximately 17 weeks. The study aims to evaluate whether the study device is safe and if it lowers blood sugar levels in people who have consistently high blood sugar during sleep and at wake.
Research has shown a link between poor sleep health and late circadian timing with cardiometabolic health in adolescents with type 1 diabetes (T1D). Cardiovascular disease (CVD) is the leading cause of morbidity and mortality in T1D, which begins as early as adolescence, and current therapies are limited. Therefore, this study plans to investigate whether cardiometabolic health can be improved with increased sleep duration and advanced circadian timing in adolescents with T1D with habitually insufficient sleep. To answer this question, investigators will study adolescents with T1D who get \<7h sleep on school nights and measure changes in insulin sensitivity, glycemic control, and vascular function after one month of a sleep and circadian intervention (1+ hour longer time in bed each night plus evening melatonin and morning light therapy) compared to one month of typical sleep (usual school schedule).
People with type 1 diabetes are disproportionately affected by cardiovascular disease (CVD). Short and irregular sleep have been associated with cardiovascular risk in this population. Improving sleep regularity has been associated with improved glycemic markers however mechanisms by which improving sleep regularity improves metabolic and cardiovascular health is not known. The investigators propose to conduct a mechanistic study using a sleep stability manipulation. This proposal will advance the understanding of mechanisms by which improving sleep regularity influences glycemic control and cardiovascular risk in T1D.
Type 1 diabetes (T1D) is a common chronic illness among children requiring a high degree of self-management for good glycemic control. Adolescents are at risk for poor disease management and health outcomes due to a number of factors, including high rates of depression, anxiety, and stress. Accessing support for these challenges can be a barrier to care, so the current study, BRinging Empowerment and Attention to Teen HEalth-T1D, evaluates the efficacy of a virtual, group-based mindfulness based intervention and a virtual group-based diabetes education intervention on improving symptoms of depression and anxiety, and diabetes self management in teens with T1D. The study also aims to study how these interventions might be implemented in diabetes clinic settings.
This study aims to understand the heart and blood sugar health benefits of using an adjunctive therapy to lower high insulin levels in people with type 1 diabetes. The investigators will also look at people with a specific type of diabetes called Glucokinase-Maturity Onset Diabetes of the Young (GCK-MODY) and those without diabetes to help interpret the results. The investigators will use a medication that helps the body get rid of sugar, called and SGLT2 inhibitor, with the goal to reduce the body's insulin requirements. The investigators believe this could lead to better heart and blood sugar health, including a better response to insulin and more available nitric oxide, a gas that helps blood vessels function well. The investigators will compare heart and blood sugar health risk factors in participants with type 1 diabetes, participants with Glucokinase-Maturity Onset Diabetes of the Young (GCK-MODY), and non-diabetic healthy volunteers under two conditions: high insulin levels typical of type 1 diabetes and normal insulin levels typical of the other two groups.
This study is assessing the accuracy of continuous glucose monitors during surgical procedures requiring anesthesia.
This study is First In Human study for Encapsulated Porcine Islet Cells for Xenotransplantation (OPF-310). The purpose of this study to assess the safety, tolerability, and efficacy of OPF-310 transplantation and to define the recommended Phase 2 dose (RP2D) in adult subjects with unstable Type 1 Diabetes Mellitus (T1DM) and a level 3 (severe) hypoglycemic episode at least three times within the 1 year prior to enrollment despite treatment with a closed loop system (CLS) for at least 6 months.
Type 1 diabetes (T1D) arises from abnormal immune cell-mediated injury to beta cells that make insulin. The injured beta cells can then no longer make the needed amount of insulin to stay healthy. However, in the early stages of T1D, some beta cells are still alive and functioning. Treatment to protect the beta cells against injury at this time could slow the progress of disease. Denosumab is an approved treatment for osteoporosis (a disease that thins and weakens the bones), high blood calcium levels, bone cancer, and other bone problems in patients who have cancer. The research team has found that the bone pathway that denosumab works on to treat these bone conditions also has effects on the health of the beta cells. Lab studies suggest that denosumab may protect and/or increase the number of beta cells and improve how well they work. This study will test whether denosumab is safe and improves beta cell function and blood sugar control in people with early T1D.