57 Clinical Trials for Various Conditions
The purpose of this study is to use data from the Continuous Glucose Monitor (CGM) to determine the degree of variation in glucose levels of individuals with an eating disorder and type 1 diabetes and only an eating disorder.
This study is a test of the safety and effectiveness of two drugs, one for diabetes and one for hypertension, in keeping patients with high lab values of glucose from progressing to frank diabetes and developing cardiovascular complications. People in this study cannot have frank diabetes but are considered "borderline" based on blood tests. People in the study take none, one or both of the drugs and do not know which one(s) they are taking.
The proposed project will assess hypothesized risk factors (age of onset, Diabetic ketoacidosis (DKA) at presentation and glycemic control), as well as potentially modifiable protective factors (child sleep quality, caregiver distress, and use of diabetes devices). In addition, the study will optimize imaging protocols and processing tools to allow for harmonization of neuroimaging data across sites and scanners for the most robust analysis.
In an ongoing study new dental patients are screened to determine their risk of having undiagnosed pre-diabetes or diabetes based on risk factors readily known by the patient and signs of gum disease. Investigators further seek to assess if a post-identification intervention leads to a greater likelihood of study participants identified as potentially pre-diabetic or diabetic visiting their physician regarding their screening blood test results, and to improved health outcomes.
This study is a prospective, 2-arm, randomized controlled trial to determine whether glycemic control, achieved through intensification of treatment, is effective in preventing clinical macrovascular complications in patients with type 2 DM who are no longer responsive to oral agents alone. The study consists of a two-year accrual period and five years of follow-up (7 years total) of 1700 patients across 20 centers. We have powered the study to detect a 21% reduction in the primary event rate. Additional study goals are to determine whether the expenditures, discomfort, and adverse effects associated with intensive intervention are justified in terms of their clinical benefits, considering both macrovascular and microvascular complications.
Minoritized individuals with type 1 diabetes (T1D) have approximately 2% higher average A1c levels and twice the rate of hospitalizations, complications, and mortality as their white counterparts. However, the efficacy trials establishing the benefits of hybrid closed loop (HCL) pump therapy in T1D have been in more socially advantaged and predominantly non-Hispanic white patients. Use of this technology by individuals with T1D from underserved communities remains very low. The investigators plan to conduct a randomized effectiveness trial - with broader eligibility criteria (including markedly elevated A1c) and longer follow up than the previous HCL efficacy trials - to evaluate the benefits, safety risks and treatment complications of HCL use in underserved adults with T1D. A comprehensive mixed-methods approach will be implemented to capture information about the user experience. Participants will be randomized (3:1 ratio) to one of three FDA-approved HCL systems or continuous glucose monitoring and multiple daily injection therapy. Subjects will be followed for 9 months to collect data on effectiveness (glucose % time-in-range 70-180 mg/dL and % time \< 70 mg/dL), safety (diabetic ketoacidosis and severe hypoglycemia events) and patient experience using the systems (including benefits and burdens, the impact of life stressors on HCL use, and how the match between HCL system functionality and the individual's needs and expectations impacts on user experience).
GFB-024 is intended for use in patients with kidney disease such as diabetic nephropathy. This study is the first time GFB-024 has been used in humans. The first part of the study will assess the safety of a single dose of GFB-024 in healthy overweight and obese volunteers and the effect of GFB-024 on the body as compared to an inactive placebo medication. The second part of the study will assess the safety of repeated doses of GFB-024 in participants with Type 2 diabetes and the effect of GFB-024 on the body as compared to an inactive placebo medication.
In type 1 diabetes (T1DM), automated insulin delivery (AID) systems such as the hybrid closed loop artificial pancreas (HCL AP) combine the use of an insulin pump, continuous blood sugar monitor, and control algorithm to adjust background insulin delivery to improve time in target blood sugar range. Systems such as the predictive low glucose suspend system (PLGS) pause insulin delivery to try and reduce low blood sugars. We aim to complete a pilot study involving recruitment of youth ages 7 to 18 years from the following groups with type 1 diabetes: control participants consisting of youth on either multiple daily insulin injections or conventional insulin pump therapy that plan to continue with their current treatment modality, youth being transitioned to the HCL AP system, and youth being transitioned to the PLGS system. Individuals will be recruited into each of the aforementioned study groups based on their own expressed desire to either continue on MDI/standard insulin pump therapy or transition to either the HCL AP or PLGS systems. The decision to either continue with current therapy or transition therapy will remain entirely up to the participant and their family and will be based on personal preference and insurance coverage for that individual. We will not be randomizing the participants to any given treatment group during this study but rather will be recruiting based on the participant's decision. We would like to complete a physical exam with pubertal staging, collect blood and urine samples to evaluate cardiometabolic and renal markers, and complete a DXA scan to evaluate total lean and fat mass. After 3-6 months of either continuation of current treatment with either multiple daily insulin injections or conventional insulin pump therapy or transitioning to the HCL AP or PLGS systems, we would like to repeat the previously described blood, urine, and imaging tests for comparison. We are interested in examining the impact of the HCL AP and PLGS systems on maintaining blood sugars in target range, insulin sensitivity, and markers of cardiometabolic and renal function. We hypothesize that pauses in insulin delivery, as seen in the setting of automated insulin delivery systems, will result in improvements in insulin sensitivity, cardiometabolic markers, and renal function markers.
Type 2 diabetes (T2D) in youth is increasing in prevalence in parallel with the obesity epidemic. In the US, almost half of patients with renal failure have DKD, and ≥80% have T2D. Compared to adult-onset T2D, youth with T2D have a more aggressive phenotype with greater insulin resistance (IR), more rapid β-cell decline and higher prevalence of diabetic kidney disease (DKD), arguing for separate and dedicated studies in youth-onset T2D. Early DKD is characterized by changes in intrarenal hemodynamic function, including increased renal plasma flow (RPF) and glomerular pressure with resultant hyperfiltration, is common in Y-T2D, and predicts progressive DKD. Studies evaluating the two currently approved medications for treating T2D in youth (metformin and insulin) have shown these medications are not able to improve β-cell function over time in the youth. However, recent evidence suggests that bariatric surgery in adults is associated with improvements in diabetes outcomes, and even T2D remission in many patients. Limited data in youth also supports the benefits of bariatric surgery, regarding weight loss, glycemic control in T2D, and cardio-renal health. While weight loss is important, the acute effect of bariatric surgery on factors such as insulin resistance likely includes weight loss-independent mechanisms. A better understanding of the effects of bariatric surgery on pancreatic function, intrarenal hemodynamics, renal O2 and cardiovascular function is critical to help define mechanisms of surgical benefits, to help identify potential novel future non-surgical approaches to prevent pancreatic failure, DKD and cardiovascular disease. The investigators' overarching hypotheses are that: 1) Y-T2D is associated with IR, pancreatic dysfunction, intrarenal hemodynamic dysfunction, elevated renal O2 consumption and cardiovascular dysfunction which improve with bariatric surgery, 2) The early effect of bariatric surgery on intrarenal hemodynamics is mediated by improvement in IR and weight loss. To address these hypotheses, the investigators will measure GFR, RPF, glomerular pressure and renal O2, in addition to aortic stiffness, β-cell function and insulin sensitivity in youth ages 12-21 with T2D (n=30) before and after vertical sleeve gastrectomy (VSG). To further investigate the mechanisms of renal damage in youth with T2D, two optional procedures are included in the study prior to vertical sleeve gastrectomy: 1) kidney biopsy procedure and 2) induction of induced pluripotent stem cells (iPSCs) to assess morphometrics and genetic expression of renal tissue.
Over 1.25 million Americans have type 1 diabetes (T1D), increasing risk for early death from cardiorenal disease. The strongest risk factor for cardiovascular disease (CVD) and mortality in T1D is diabetic kidney disease (DKD). Current treatments, such as control of hyperglycemia and hypertension, are beneficial, but only partially protect against DKD. Hyperfiltration is common in youth with T1D, and predicts progressive DKD. Hyperfiltration is also associated with early changes in intrarenal hemodynamic function, including increased renal plasma flow (RPF) and glomerular pressure. Intrarenal hemodynamic function is strongly influenced by the renin-angiotensin-aldosterone system (RAAS), which is also considered a key player in the pathogenesis of DKD. Preliminary data demonstrate differences in intrarenal hemodynamic function and RAAS activation in early and advanced DKD in T1D. However, the pathophysiology contributing to the differences observed in RAAS activation and intrarenal hemodynamic function in T1D are poorly defined Animal research demonstrates that arginine vasopressin (AVP) acts directly to modify intrarenal hemodynamic function, but also indirectly by activating RAAS. Preliminary data suggest that elevated copeptin, a marker of AVP, which predicts DKD in T1D adults, independently of other risk factors. However, no human studies to date have examined how copeptin relates to intrarenal hemodynamic function in early DKD in T1D. A better understanding of this relationship is critical to inform development of new therapies targeting the AVP system in T1D. Accordingly, in this study, the investigators propose to define the relationship between copeptin and intrarenal hemodynamics in early stages of DKD, by studying copeptin levels, renal plasma flow, and glomerular filtration in youth (n=50) aged 12-21 y with T1D duration \< 10 y.
What are the effects of transient insulin deprivation on brain structure, blood flow, mitochondrial function, and cognitive function in T1DM patients? What are the effects of transient insulin deprivation on circulating exosomes and metabolites in T1DM patients?
Through the multinational pooled dataset approach, this trial will aim to derive and validate specific in vivo Corneal Confocal Microscopy (CCM) parameter thresholds for the identification of diabetic polyneuropathy, and - more importantly - the identification of individuals at future risk. Results of the study will permit application in clinical practice and intervention trials for diabetic polyneuropathy (DPN) risk stratification. The primary goal of the study is to re-examine individuals with type 1 and type 2 diabetes with and without neuropathy, who had CCM performed in the past as a part of their neurological examination, to assess concurrent and predictive validity of different CCM parameters in individuals . These subjects will be invited to the study to be re-examined by CCM along with other neurological tests (physical exam, nerve conduction studies, quantitative sensory testing, blood test and in some centres also skin biopsy) during the single study visit. Additionally CCM data will be analyzed both manually and by recently developed automated analytical software to evaluate accuracy of the automated method. Evaluation of automated image analysis will influence likelihood of successful knowledge translation of this surrogate biomarker for DPN into clinical practice - in which the procedure could be harmonized with annual retinal examinations - and into intervention trials. Secondary aim of the study is to determine the factors associated with CCM parameters and their longitudinal change and collect bio-samples for future research in this field.
Despite improvements during the past 20 years in blood glucose and blood pressure control, diabetic kidney disease remains one of the most important causes of health problems in patients with diabetes. Novel treatments to complement blood glucose and blood pressure control are urgently needed. The goal of this study is to see whether a medication called allopurinol may help prevent loss of kidney function among people with type 1 diabetes. Allopurinol has been used for many years to decrease high blood uric acid and treat gout - a disease characterized by arthritis, especially of the foot joints. There is evidence suggesting that allopurinol might also be useful in people with diabetes who have normal or moderately impaired kidney function to decrease the risk of developing advanced kidney disease in the future. To prove this beneficial effect of allopurinol, we will be conducting an international clinical trial at eight diabetes centers, enrolling approximately 480 patients with type 1 diabetes who are at increased risk of developing kidney disease. Participants will be randomly assigned to take allopurinol or placebo (inactive pill) for three years, during which they will be followed through periodical visits. To prevent any possible bias, neither the participants nor the clinical staff knows who is taking allopurinol and who is taking the placebo. Kidney function will be measured at the beginning and at the end of the treatment period to see whether patients taking allopurinol experience a slower loss of kidney function over time as compared to those taking the inactive pill. If this trial is successful, the reduction in health problems resulting from the prevention or delay of kidney function loss due to the use of allopurinol would have a major impact on the lives of type 1 diabetic patients as well as on society at large, significantly reducing the human and financial costs associated with diabetic kidney disease. Because of the emphasis on early intervention, the proposed trial, if successful, will establish a new paradigm in treatments to slow or prevent progression towards end stage kidney disease in type 1 diabetes far beyond anything achieved to date.
We will perform blood sugar studies to assess changes in metabolic (biochemical processes that occur within us) profiles associated with high blood sugar and diabetes.
Background: * Diabetes is a disease defined by abnormally high blood sugar (glucose) levels. Glucose is an essential source of energy for the body s cells, but insulin is required to move the glucose into the cells. Insulin is a hormone produced by the pancreas that allows glucose to enter cells. * In diabetes, the body is unable to supply enough insulin to meet its demands. The problem may be a low supply of insulin or a high demand for insulin. Someone who has been diagnosed with diabetes has lost much of their insulin-producing capacity. Clinical studies have shown that good control of blood sugar is essential to prevent diabetes complications like damage to the eyes, kidneys, nerves, and blood vessels. Objectives: * To establish a relationship with several individuals with diabetes caused by the immune system attacking the body s insulin-producing cells in order to: * Explore why the immune system attacks insulin-producing cells. * Understand why some individuals develop diabetes-related complications and others do not. * Develop therapies to improve how patients can control their blood sugar levels. * Continue to follow subjects who have completed or are considering other NIH diabetes-related studies. * To develop improved tests for determining an individual s risk for developing diabetes and/or to accurately diagnose the exact type of diabetes. Eligibility: * Individuals who have been diagnosed with or are at risk for developing diabetes. Design: * Standard physical examination and clinical tests to determine if the patient has diabetes or to confirm a particular type of diabetes: * None of the treatment in this study is experimental. * Patients will receive a separate consent form for any special tests needed to learn more about their particular type of diabetes. * Patients may be asked to provide additional urine and blood samples for use in laboratory research about diabetes. * Researchers may offer medical treatment advice for diabetes, or explain how to improve patients diabetes management skills.
Background. Long-term microvascular and neurologic complications cause major morbidity and mortality in patients with insulin-dependent diabetes mellitus (IDDM). We examined whether intensive treatment with the goal of maintaining blood glucose concentrations close to the normal range could decrease the frequency and severity of these complications. Methods. A total of 1441 patients with IDDM -- 726 with no retinopathy at base line (the primary-prevention cohort) and 715 with mild retinopathy (the secondary-intervention cohort) were randomly assigned to intensive therapy administered either with an external insulin pump or by three or more daily insulin injections and guided by frequent blood glucose monitoring or to conventional therapy with one or two daily insulin injections. The patients were followed for a mean of 6.5 years, and the appearance and progression of retinopathy and other complications were assessed regularly.
Diabetic kidney disease (DKD) occurs in up to 40% of people with type 1 diabetes (T1D), often leading to kidney failure and markedly magnifying risks of cardiovascular disease and premature death. Landmark T1D kidney biopsy studies identified the classic pathological lesions of DKD, which have been attributed largely to hyperglycemia. Recent advances in continuous glucose monitoring (CGM) and automated insulin delivery have facilitated improved glycemic control, but the residual risk of DKD continues to be high. In addition, obesity and insulin resistance (IR) have accompanied intensive glycemic therapy and may promote mitochondrial dysfunction and inflammation. Deciphering the molecular underpinnings of DKD in modern-day T1D and identifying modifiable risk factors could lead to more effective and targeted therapies to prevent DKD.
Type 2 diabetes results in a host of neuromuscular, muscular, and autonomic system impairments that accelerate age-associated limitations in functional independence and the risk of falls. Diabetic peripheral neuropathy (DPN) contributes to functional declines in balance and mobility because of limitations metabolic abnormalities. The constellation of impairments accompanying type 2 diabetes diminishes muscle function and performance including strength and power. Loss of strength at higher speeds of movement (deficit in power) occurs in neural activation of muscles, changes in muscle properties, and through in older individuals with DPN compared to older controls. Consequently, this deficit in speed dependent muscle power production leads to limitations in rapidly responding to sudden loss of balance stability to prevent falling. The goal of this pilot research program is to determine the feasibility and effectiveness of a mechanism-based therapeutic intervention fro improving balance and mobility functions and preventing falls in older adults with DPN. The investigators pan to use the results from this pilot study to design and implement a larger randomized control trial.
The trial is designed as a feasibility study to determine the correlation of noninvasive measurements of AGE with the SCOUT device to diabetes complications.
Benfotiamine blocks three major pathways of hyperglycemic damage and prevents experimental diabetic retinopathy and incipient nephropathy in these models. In cultured vascular cells, it also reduces aldose reductase gene expression, activity, and sorbitol levels. It does so by activating the enzyme transketolase. α-lipoic acid, a potent antioxidant, has also been reported to reduce both diabetic microvascular and macrovascular complications in animal models. To determine whether benfotiamine in combination with α-lipoic acid would normalize markers of ROS-induced pathways of complications in humans, we performed a pilot study in subjects with Type 1 diabetes using one daily dose of benfotiamine in combination with α-lipoic acid.
The purpose of this study is to test an intervention in primary care clinics to improve three risk factors for diabetes complications: glucose control, blood pressure and cholesterol. Subjects in the study will be clinic staff and clinicians, not patients. The intervention is Practice Facilitation. Practice facilitation occurs when a trained facilitator meets with a team of staff and clinicians in each practice over a period of several months. Facilitation meetings create time for learning and reflection by members of the team and improves their communication so that they can adopt and implement a strategy to improve patient care
The focus of this project is cardiovascular diabetic autonomic neuropathy (DAN). DAN affects the nerves that control heart rate and blood flow to the heart in people with diabetes. DAN may cause problems with the rhythm of the heartbeat or decrease blood flow to the heart. Three medications will be tested for their effectiveness in DAN.
The primary aims of this study are: 1. To test the acceptability and feasibility of the electronic DTU intervention (eDTU) that has been adapted for cultural relevance and online delivery compared to waitlist control and the in-person DTU (iDTU). The hypothesis is that the adapted intervention will be culturally acceptable (by participant satisfaction scores) and well-subscribed (intervention attendance rates). 2. To test differences in diabetes distress and A1c change scores between intervention (changes in T2 to T4) and waitlist control (change in T1 to T2) by intervention group (eDTU vs. waitlist control; iDTU vs. waitlist control). The hypothesis is that both the eDTU and iDTU groups will show significant improvements in diabetes distress and A1c compared to waitlist control. In order to conserve sample size and budget, participants in each intervention group will serve as their own waitlist control. Secondary Objective. The secondary aim of the study is to evaluate changes in depressive symptoms, diabetes self-efficacy, and general and diabetes-specific quality of life in intervention (T2-T3 \& T4) compared to waitlist control (T1-T2). An exploratory aim will be to compare changes in eDTU to the iDTU pre/post intervention (T2-T3 \& T4). The hypothesis is that both groups will show comparable improvements in diabetes distress and A1c.
The investigators want to study the impact CGM (continuous glucose monitoring) has on patients glycemic control as determined by time in range (TIR 70-180 mg/dL) in the Diabetic Kidney Transplant population.
The Beaumont Hospital Royal Oak Outpatient Clinic (and other listed Beaumont recruiting locations) care for over 900 patients with diabetes. In an effort to improve the care provided to our patients, a pharmacist managed diabetes clinic (PMDC) was created. The investigators looked at patients with high-risk diabetes who have received education in the PMDC and compared them to patients that didn't not receive the pharmacy education. Our preliminary data showed a significant decrease in Hemoglobin A1c in the PMDC compared to our standard care cohort. Hemoglobin A1c is a marker of the severity of diabetes mellitus. Based on this data, we designed a randomized controlled trial to better assess the impact of a PMDC on diabetic outcomes.
Patients with type 1 diabetes type 1 (DM1) have increased risk of death due to heart disease and stroke. These cardiovascular conditions (CVD) are the leading cause of death in patients with DM1 younger than 40 years of age and up to 35% of all persons with DM1 will die before age 55 from CVD. Strategies are needed to help identify adolescents with DM1 at risk for CVD so that interventions to prevent heart disease and stroke can be undertaken.
This study will test whether lowering the delivery of excess fats to the heart in persons with type-2 diabetes mellitus improves heart muscle function. The investigators will also test whether specific lipid molecular species in plasma can serve as biomarkers for diabetic heart disease.
Diabetes poses a substantial burden to racial/ethnic minorities and in populations with limited access to healthcare. However, there is a shortage of healthcare providers available to help patients adopt the lifestyle changes required for diabetes control. The goal of the present study is to evaluate the feasibility and effectiveness of a diabetes self-care intervention delivered by medical students to patients with poorly controlled diabetes. Training medical students to use proven communication techniques to help patients identify and overcome barriers to adopting lifestyle changes in diabetes is a novel but plausible strategy. The investigators anticipate that findings from our pilot study will be used to develop a larger study to definitively test the program's effectiveness. A long-term benefit of our program is that future healthcare providers are practicing the skills needed to promote positive lifestyle changes and provide care for chronic conditions in diverse communities.
The purpose of this study is to evaluate the pharmacodynamic (PD) and pharmacokinetic (PK) profile and the safety and tolerability of RM-131 in patients with diabetes mellitus and delayed gastric emptying.
The purpose of the study is to evaluate the efficacy of multiple human placental membrane products and Standard of Care (SOC) versus SOC alone in the management of nonhealing diabetic foot ulcers (DFUs) and venous leg ulcers (VLUs) over 12 weeks using a modified platform trial design.