Screening for Islet Autoantibodies in the Israeli Paediatric General Population for Detection of...
Type1diabetesA national screening program for children aged 9-18 months that will be tested for the presence of islet autoantibodies.Up to 50,000 Children will be screened by their primary care physician all over Israel. The initial screening will be done at the age of 1 year (in conjunction with the routinely collection of blood for CBC ) and repeated at ages 2-5 years. Antibodies will be measured in capillary blood samples using the Ultrasensitive Antibody Detection by Agglutination-PCR (ADAP) technology developed by Enable Biosciences, which is 1,000-10,000 times more analytically sensitive than currently used methods. By using this innovative technology in such a large cohort, the study is anticipated to detect antibodies at an unprecedented earlier age.When positive in the screening, multiple antibodies will be confirmed by a second sample analyzed by the ADAP technology. In addition, multiple antibodies will be also measured using a radio-binding assay (RBA) of a venous blood sample for investigational purpose only. Children with confirmed multiple antibodies (stage 1 or 2 T1D) will be followed up routinely for the appearance of clinical signs of diabetes (HbA1c, repeated OGTT, monitoring of urine and blood glucose where indicated) and will be invited along with their families to attend an educational program. This program will include diabetes education emphasizing on DKA prevention as well as stress assessment for the families involved and stress alleviating interventions. The analysis and storage of the samples will be done in a single screening center at Schneider Children's Medical Center of Israel.
Gastric Pathophysiology in Diabetes
Diabetes MellitusType 15 moreThis is a comprehensive pathophysiological study assessing various gastric functions in patients with diabetes mellitus. The investigators aim to examine the stomach with various measurement devices to gain information about its different functions and malfunctions. After the initial measurements, the examinations will be repeated after a year in each patient. Changes in the measurement values will be examined and their relations to each other and to the overall health of the patients will be investigated. For example it is hypothesised that diabetic patients also suffering from functional dyspepsia or gastroparesis will also show some changes in the function of the pyloric muscle.
Breaking Disparities in Access to Advanced Diabetes Technologies in Children With Type 1 Diabetes...
Diabetes MellitusType 13 more50 children/adolescents (ages 6 to <18yrs) with T1D in suboptimal control (HbA1c≥8.0%) and lower SES (below 200% poverty line) on insulin therapy (either injections or open-loop pumps) will be recruited at Nemours ~ 1/3 each AA, Hispanic/Latino, non-Hispanic whites. All families that qualify and agree to transition to closed-loop technologies will be recruited to allow data to be gathered before and after use of devices. They will go through the process of approval with the assistance of an insurance navigator in clinic. Those not a CGM will be prescribed one as well. Diabetes care will be 'real life', devices will be prescribed, and care per clinic routine with periodic device downloads. Principal outcome, time-in-range, will be analyzed at 3-months compared to baseline, each participant their own control. Secondary outcomes including HbA1c, other glucose metrics and questionnaires related to use of technology and diabetes distress will be also analyzed. All outcomes will also be collected at 6-months. Results could have important and fast applicability to the field and help better inform decision makers, including payers, clinicians, and patients and families and could serve to decrease health care disparities in this needy population.
Mechanisms of Type 1 Diabetes Endophenotypes
Type 1 Diabetes MellitusGenetic Predisposition to DiseaseThe goal of this observational study consists of performing cluster analysis to decipher underlying disease mechanisms of type 1 diabetes in children and young adults. To this end, we will combine clinical, laboratory, genetic, transcriptomic, and metabolomic datasets of an extensively phenotyped cohort of children and young adults with type 1 diabetes. We will also assess the risk for cardiovascular diseases in this most vulnerable diabetes cohort.
Monogenic Diabetes Misdiagnosed as Type 1
Diabetes MellitusType 16 moreThe study has two aims: To (1a) determine the frequency of monogenic diabetes misdiagnosed as type 1 diabetes (T1D) and (2) to define an algorithm for case selection. To discover novel genes whose mutations cause monogenic diabetes misdiagnosed as T1D.
Registry of Patients Living With Type 1 Diabetes
Type 1 Diabetes MellitusA registry of individuals with type 1 diabetes open to all patients with type 1 diabetes living in the province of Quebec will be established. The objective of this registry will be to measure the frequency and the severity of episodes of hypoglycemia. Participants will be invited to answer questionnaires about the frequency of their hypoglycemic episodes, their fear about hypoglycemia, their symptoms of hypoglycemia, the factors in cause (insulin therapy, nutrition, exercise, etc.), etc. Participation to the registry is divided in 3 phases. The first phase is mandatory for all participants. Phases 2 and 3 are optional.
China Diabetes Type 1 Study (CD1S) by China Alliance for Type 1 Diabetes
Type1diabetesDiabetesThe aim of the China Diabetes Type 1 Study (CD1S) is to conduct a nationwide type 1 diabetes (T1D) registry study in patients with T1D and in pediatric adolescent patients with diabetes who had an age of onset <= 20 years. CD1S compromises a retrospective study enrolling inpatients hospitalized from Jan 1st, 2016 to Dec 31, 2021, and a prospective study beginning from the year 2022.
Early Detection of Long-term Diabetic Complications in Children and Adolescents With Type 1 Diabetes...
Diabetes Complicationstype1diabetes4 moreAims: To investigate early markers of arterial stiffness and nerve dysfunction and the association to an extended glucose metabolic profile comprising glucose control (current and past), glucose variability and insulin sensitivity in children and adolescents with type 1 diabetes (T1D). Background: Most Danish children and adolescents with T1D do not achieve their metabolic target and are at increased risk of developing long-term diabetic complications, reducing their life expectancy and increase their morbidity rate. Hence, improved metabolic control, a better understanding of what optimal metabolic control means, combined with detailed monitoring of the first markers of long-term complications and their reversibility or lack thereof are needed. Methods: A cross-sectional study of 400 children, aged 6-18 years old, with T1D>12 months. Early markers of long-term diabetic complications will be investigated as arterial stiffness, nerve dysfunction and nephropathy. Data on T1D onset, duration, treatment modality, self-monitoring-blood-glucose profiles, growth, weight, and pubertal status will be collected. Blood sampling will include routine tests and markers of glucose, lipid, bone, and gastrointestinal metabolism. DXA-scan, Fibroscan, bone-age and physical activity will be measured. Data on retrospective glucose- and lipid-profiles will be collected. Perspectives: This study provides novel insight into the frequency of early markers of long-term diabetic complications and its association to the interplay of the pancreas, adipose, gastrointestinal and bone metabolic axis. Which can assist in identifying subgroups of children and adolescents requiring earlier in-depth screening for early markers of long-term diabetic complications, for putative interventions for prevention, hence reducing morbidity and mortality in T1D.
Covid-19 Infection and New Onset Type 1 Diabetes
Covid19type1diabetesAlthough recognized as an autoimmune disease the etiology of type 1 diabetes remains unknown. Virus infections has been suggested as a possible agent triggering the autoimmune reaction finally resulting in beta-cell destruction and fate of insulin secretion. SARS Cov-2 virus enters the infected cells by binding to the ACE-2 receptor, which is abundant in many tissues including the pancreas. Accordingly, SARS Covid-19 infection may trigger the development of type 1 diabetes either by an activation of the immune system or directly via beta-cell infection and destruction. Our aim is to study the impact of the Covid-19 epidemic on the development of type 1 diabetes. This will be done in two ways: a clinical study and an epidemiological follow up. During the next two years, adult patients with newly diagnosed type 1 diabetes will be asked to participate. Type 1 diabetes will be diagnosed by usual means and a mixed meal tolerance test will be performed at time of diagnosis and after one year to evaluate beta-cell function. People with type 1 diabetes and serologically documented previous SARS Covid-19 will be compared with people with no previous infection regarding beta-cell function and fate of insulin secretion. In addition, we will estimate the number of new diagnosed type 1 diabetes patients compared to previous years.
Multicenter Study of Fulminant Type 1 Diabetes in China
Diabetes MellitusType 1This study took FT1D(fulminant type 1 diabetes) as the research object, collected the cases of FT1D patients, and described the clinical characteristics of this type of disease. The HLA susceptibility genes of FT1D were identified by PCR and other techniques, taking age-sex-matched healthy subjects as controls and HLA genes as the research entry point.