Development of Predictive Biomarkers
Type1diabetesInvestigators aim to further the understanding of the various factors that govern the progression of beta-cell death in individuals recently diagnosed with Type 1 diabetes (T1D). Specifically, the investigators wish to examine the utility of plasma-induced signatures and other measures as predictive biomarkers for the rate of C-peptide decline in individuals with recent onset T1D. Persistent C-peptide in individuals with T1D reflects some degree of β-cell function and is clinically associated with a reduction in both severe hypoglycemic events and microvascular complications such as diabetic nephropathy and retinopathy. There is significant heterogeneity in the rate of C-peptide decline in individuals with T1D, reflective of the complex disease process. For example, ~10% of individuals have no discernable fall in stimulated C-peptide after two years from clinical diagnosis as compared to other individuals with very rapid C-peptide decline. It is currently impossible to predict how long, and to what extent, someone will have residual C-peptide production. This complicates clinical management but also the design and interpretation of T1D β-cell preservation trials. The "gold standard" outcome measure of any T1D β-cell preservation trial is the stimulated C-peptide to a mixed meal tolerance test (MMTT). Given the variability in this measure, intervention studies must include more subjects over a longer period of time. This slows the rate of scientific discovery and increases cost. This study aims to define the governing mechanisms of post-onset T1D disease trajectory. Understanding the trajectory of the disease may lead to the development of biomarkers to predict disease progression and therapies that could reverse or prevent the development of Type 1 diabetes.
PeRsOnalising Treatment Of Diabetic Nephropathy:
Diabetes MellitusType 12 moreBackground: Today diabetic nephropathy is a frequent, and the most lethal and costly complication of diabetes. Although treating blood pressure with agents blocking renin angiotensin system has improved outcome, the prognosis is still poor and no new interventions have been successful during the past decade. There is an urgent need for discovery of new pathways behind the development and progression of diabetic nephropathy as well as of biomarkers which can identify subjects at risk of developing adverse events. Objective: By using a multidimensional 'omics' approach, we aim to search for novel proteins, metabolites and pathways that will point to the putative new mechanisms which underlie the early renal decline. Design: Cross-sectional study, with long-term register-based follow-up. Study population: 160 patients with type 1 diabetes recruited from Steno Diabetes Center Copenhagen stratified based on stage of diabetic kidney disease, and 50 healthy non-diabetic controls. Endpoints: Primary endpoint: Glycocalyx thickness, assessed as perfused boundary region. Secondary endpoints: Gut microbiome characterisation and markers of gastrointestinal inflammation, autonomic and periphery neuropathy, urine and plasma Flow Cytometry Analysis (FACS), metabolomics and proteomics in plasma and urine, and other potential biomarkers.
CSII in Type 1 Diabetes: Diet, Quality of Life & Cardiometabolic Risks - A Cross-Sectional Study...
Type 1 DiabetesGlycaemic control is an important aspect of Type 1 diabetes (T1D) management for diabetologists and patients alike. Evidence suggests continuous subcutaneous insulin infusion (CSII) is an effective method of achieving this. Among the advantages of CSII is the opportunity for patients to potentially discard relatively inflexible mealtimes and carbohydrate requirements imposed by other regimes such as multiple daily injections (MDI). There are also reported improvements in quality of life. Furthermore, in patients with good glycaemic control, such as those often assisted by CSII, various qualitative atherogenic lipid abnormalities may exist, despite the presence of a normal quantitative lipid profile; potentially leading to increased cardiometabolic risks. Literature examining the eating behaviours, quality of life and cardiometabolic risks of CSII patients over time after commencement of the therapy is sparse, frequently dated and worthy of further research.
Fats And Carbohydrates Quality on Postprandial glycemIc Response in Type 1 Diabetes
Type 1 DiabetesThe purpose of this study is to determine whether dietary fats may affect postprandial glycemic response differently according to their quality, and these effects may differ whether they are assumed in the context of meals with high or low glycemic index in patients with type 1 diabetes. This interaction between quality of fat and glycemic index of carbohydrates may have clinical implication for the calculation of prandial insulin dose in these patients.
Adipose Tissue Function After Pancreas Transplantation
Diabetes MellitusType 23 moreClinical measures of adipose tissue mass (BMI, waist circumference, waist-to-hip ratio) do not adequately explain the inter-individual and ethnic heterogeneity in diabetes. . There is a need to identify novel/universal markers of risk for diabetes (DM) and cardiovascular disease (CVD). These biomarkers also can become additional outcome measures for an intervention such as pancreatic/kidney transplant. If biological markers show an improvement with an intervention before anthropometric changes occur, intermediate outcomes can be an encouraging finding for practitioners. This study will focus on the central question of "adipose tissue dysfunction" as mediator of metabolic complications of positive energy balance, independent of body fat content and distribution. This study will address the question of effect of hyperglycemia on adipose tissue function independent of body fat mass. This project will take advantage of unique expertise of our investigators to perform detailed metabolic studies in patients with diabetes who undergo pancreatic/kidney transplant. The results of the proposed study will provide support to the novel approach of identifying adipose tissue dysfunction, rather than obesity and fat distribution, as predictor of diabetes and CVD across all ethnic groups, age and gender. We will obtain necessary preliminary data for future grant submissions to support our central hypothesis and develop stronger interactions within and outside The University of Texas Medical Branch (UTMB) with clinical investigators in the area of DM and its complications.
Absorption of Insulin Following Subcutaneous Bolus Administration With Different Bolus Durations...
Type 1 DiabetesTo cover meal-related insulin requirements, insulin pumps allow insulin to be delivered at high rates over a short period of time (bolus delivery). The length of this period (bolus duration) usually depends on the chosen bolus size and on the used insulin pump model. This study will evaluate the impact of different bolus durations (i.e., durations commonly employed in commercially available insulin pumps: 2 and 40 seconds for delivering 1 Unit of insulin) on the pharmacokinetic and pharmacodynamic properties of an rapid-acting insulin analogue. Objective: To evaluate in type 1 diabetic patients the pharmacodynamics and pharmacokinetics of rapid-acting insulin (insulin lispro) administered as subcutaneous boluses with different bolus durations. Study design: Single-center, randomized, controlled, two-arm cross-over intervention study Population: Twenty type 1 diabetic subjects Intervention: The investigational treatment is the subcutaneous administration of insulin lispro either as one bolus of 15 IU over a period of 30s or as one bolus of 15 IU over a period of 10 min. Plasma samples to assess pharmacodynamic and pharmacokinetic properties will be taken during an 8-hour clamp experiment. Patients will undergo both investigational treatments in a randomized order; between the two clamp visits there will be a wash-out period of 5-21 days. Main study endpoint: Time to maximum glucose infusion rate
Model Driven Diabetes Care
Diabetes MellitusType 1Patients with Diabetes Mellitus Type 1 using electronic self-help tools typically registers a large amount of data on their disease. The study intends to see if giving advanced feedback on these data can improve their blood glucose management.
Hippocampal Metabolism and Function in Patients With Type 1 Diabetes
HypoglycemiaDiabetes MellitusThe hippocampus is an area of brain which plays an essential role in learning and memory processing and is thought to be particularly vulnerable to effects of hypoglycemia (low blood glucose). The goal of this project is to examine hippocampal neurochemistry and metabolism and identify how diabetes and recurrent hypoglycemia alter the hippocampus.
Urine-plasminogen as a Predictor for Development Of Preeclampsia in Pregnant Women With Type 1 Diabetes...
PreeclampsiaType 1 DiabetesA tonic active epithelial Na+ channel (ENaC) in pre-eclampsia (PE) escaped normal hormonal control may offer an attractive explanatory model for the pathophysiology of established PE. The channel is activated by plasmin. Microalbuminuria predicts the development of pre-eclampsia in pregnant patients with pregestational diabetes type 1. The investigators hypothesize that urine-plasmin excreted in the kidneys, when proteinuria occurs, could be the cause. The investigators want to test the correlation between measurable plasmin/plasminogen in the urine early in pregnancy and the development of preeclampsia in pregnant patients with type 1 diabetes.
Closed Loop Control in Adolescents Using Heart Rate as Exercise Indicator
Type 1 Diabetes MellitusThe purpose of this study is to see if the Artificial Pancreas (AP) Platform can successfully control blood sugar in people with type 1 diabetes mellitus on insulin pump therapy in a hospital setting. Investigators will also be studying to see if the heart rate informed Control To Range (hrCTR) can improve the performance of the system during and immediately after exercise.