Early Detection of Long-term Diabetic Complications in Children and Adolescents With Type 1 Diabetes

The project is designed as a cross-sectional cohort study. The study consists of a one-day visit where 400 children and adolescents with T1D will be thoroughly examined after an overnight fast.

The following examinations are parof this study:

• Standard physical examination: Including cor/pulm/abdomen, heart rate and blood pressure measurement. Data regarding age, sex, diabetes duration, growth, weight, and pubertal status.

Blood sampling

• Bloodsampling: Include routine tests (hemoglobin and iron metabolites, BS, HbA1c, electrolytes, creatinine, urea, LDL, HDL, triglyceride, total cholesterol), and markers of glucose (insulin, c-peptide), lipid (leptin, adiponectin), bone (VitD, calcium, PTH, phosphate, magnesium, BASP, OCN, P1NP, CTX, uOCN, sclerostine, RANKL, osteoprotegrin and osteoglycin), gastrointestinal (GLP-1, GIP and glucagon) metabolism. IGF-1, IGF-BP3, thyroid metabolism (TSH, T3, free T4), sex hormones, adrenal androgens, aldosterone. Thyroid and celiac disease autoantibodies. Markers for inflammation and endothelial dysfunction will be examined. Plasma, serum and urine will also be collected for a Biobank for future research e.g. for studying metabolomics.
• Carotid-femoral pulse wave velocity: Assessed with the Sphygmocor (AtCor Medical) device to measure arterial stiffness in the large arteries.
• Evaluation of the nervous system function:
• Cardiac autonomic neuropathy function will be assessed by the Vagus device.
• Large sensory nerve function test assessed by sural nerve conduction velocity and sural nerve amplitude, measured with the non-invasive handheld device DPNCheckTM (NeuroMetrix, Inc., Waltham, USA).
• Small sympathetic nerve fiber function assessed by electrochemical skin conductance assessed using the non- invasive device Sudoscan™ (Impeto Medical, Paris, France).
• Kidney: Three morning urine samples will be collected at home for analyses of albumin/creatinine ratio.
• Bone age Measured on an x-ray of the left hand using BoneXpert software to adjust for potentially biological age.
• Dual energy X-ray absorptiometry scan: Performed to evaluate body composition and bone mineral density.
• Fibroscan: To determine the stiffness of the liver (liver elastography).
• Eye-examination: Visus, OPTOS, OCT og OCTA.
• Continuous blood glucose monitoring (CGM) Evaluation of glucose variability for at least 14 days. Most children and adolescent at our outpatient clinics use these as part of their regular regulation and treatment. If the participant normally uses a CGM-device, data on blood glucose variation from the past 90 days will be collected. If not a CGM-monitor will be placed on the upper arm and the participants will be instructed to wear it for the next 14 days.
• AX3: Physical activity for 7 days will be measured. Questionnaire Physical activity, Life quality
• Extended lungfunction

Medical history/journals Diabetes duration, treatment modality, insulin dosage, previous medication, episodes of diabetic ketoacidosis and hypoglycemia.

All earlier blood samples on: Hba1c, HDL, LDL, cholesterol. All earlier blood pressure, heart rate, weight, height, abdominal and hip circumference. Diabetic complication status: nephropathy, retinopathy, neuropathy or vascular complications. Data on current and prior asthma, atopy and eczema will be collected. Family history of type 2 diabetes, cardiovascular disease, asthma and atopy will be collected.

Insulin sensitivity Calculated using a validated score based upon Hba1c, waist circumference, fasting glucose and fasting insulin.

Participants will be recruited from the Paediatric Diabetes outpatient clinic at Steno Diabetes Center Copenhagen (SDCC) and Steno diabetes Center Sjælland (SDCS). All examinations and tests will be performed at SDCC. All children aged 6-18 years, with T1D for more than 12 months will be offered to participate. With a total of 950 T1D children/adolescent followed yearly at SDCC and 450 at SDCS the planned number of participants is realistic.

Sub-study I:

Insulin sensitivity (IS) has significant importance in T1D. The gold-standard measurement of IS is the hyperinsulinemic euglycemic clamp (HE clamp), a time-consuming procedure unfit for daily clinical practice. Thus, surrogate markers based on blood samples and anthropometric measurements have been developed. Only one of these surrogate markers is validated in youth with T1D and account for approximately 70 % of variance in IS. It has previously been demonstrated that lower IS, assessed by this surrogate marker, is associated with increased progression of arterial stiffness over time in youth with T1D. Arterial stiffness is associated with increased morbidity and mortality; thus, as IS is a modifiable risk factor it could serve as an instrument to reduce morbidity and mortality in T1D (17).

The hypothesis is that data from CGM devices can serve as a useful basis for constructing a surrogate marker for insulin sensitivity (IS), as CGM data provides comprehensive information on glucose metabolism and blood glucose patterns.

As a proof of concept, 14 pubertal boys (aged 14-18 years) will be invited to attend a second visit (Visit 1a), during which the gold-standard hyperinsulinemic-euglycemic (HE) clamp will be conducted. The clamp is performed in the morning after an overnight fast. A hyperinsulinemic state is induced through continuous insulin infusion for 2 hours and maintained until the end of the procedure.

Blood glucose is measured every 5-10 minute and glucose 20% is administrated based on these blood glucose measurements to keep a normal blood glucose level of 5-5.5 mmol/L. After approximately 2 hours, a steady state is achieved where the infusion of insulin and glucose balance one another. At this point glucose infusion rate (GIR) is measured and determines the glucose disposal rate (GDR). From the GDR the true physiological IS can be determined.

Data from CGM-devices and insulin administration 14 days prior to visit 1a will be analyzed in statistical models to predict IS, both direct measures (GDR) and assessed by the surrogate marker.

Statistics The methods applied to measure early markers of long-term diabetic complications both regarding arterial stiffness and the nerve system are all continuous parameters and no definitive cut offs between normal and early changes in children and adolescent are known. Therefore, sample size calculation for this study is not possible.

As described earlier, the SEARCH-study (7, 22) included some of the same outcome for evaluating cardiovascular-, nephrotic- and nerve system complications and showed statistically significant results with a number of 289 adolescents with T1D. The study plan to include 400 children and adolescent with T1D.

For descriptive data we will report frequency, mean (standard deviation) or median (interquartile range), as appropriate. Comparisons between relevant groups will be done for means with t-tests and medians with Mann-Whitney U-tests.

Linear regression models will be applied to assess the cross-sectional associations. Univariate and multivariable models will be used; adjustment will include risk factors and confounders based on prior evidence. In all analyses, model assumptions will be ascertained.

A two-sided p-value < 0.05 is considered statistically significant.