Continuos Subcutaneous Insulin Infusion in Italy
Type 1 DiabetesThis is an observational, multicenter, cross sectional study, collecting clinical and metabolic informations about patients treated with CSII in Italy.
Pilot Study: Intensive Education in a Residential Camp Setting for Families of Young Children With...
Type 1 Diabetes Mellitus18 preschool aged children and their families will attend structured, multidisciplinary, family-centered intensive education sessions over a 3-day weekend in a residential camp setting to address the unique challenges of managing type 1 diabetes mellitus in young children. A second 'booster' session, will be conducted 6 months later.
PRECISION Study: Evaluating the Accuracy of the LabPatch Continuous Glucose Monitor
Type1 Diabetes MellitusType 2 Diabetes MellitusThe purpose of this study is to evaluate the accuracy and efficacy of the Cambridge Medical Technologies, LLC LabPatch Continuous Glucose Monitoring (CGM) System compared to a laboratory glucose analyzer (YSI 2300 STAT Plus) and 2 commercial glucometers, OneTouch Verio and Freestyle Lite. The LabPatch system includes: The LabPatch circuit chip which lies in the center of a circular push-button. The circuit is in the form of a small chip (approximately 15.7 mm [0.618"] x 15.7 mm [0.618"]) placed in contact with the skin. The chip has a telescopic micropipette which draws interstitial fluid to be analyzed for glucose levels. The chip is also able to measure skin temperature to ensure appropriate skin contact. A Lab Patch holding device (blue box). A wire that connects the chip to a laptop that continuously captures glucose data.
Evaluation of the EarEEG System for Detection of Hypoglycaemia-induced Changes in the EEG in Subjects...
Diabetes MellitusType 1The EarEEG system is a novel non-invasive, unobstructed and discrete method for recording EEG in which the signal is recorded using dry-contact electrodes embedded on a customised ear piece. One intended medical indication of the EarEEG system is the detection of hypoglycaemia-induced changes in the EEG in patients with type 1 diabetes. Currently, no studies exist investigating the detection of hypoglycaemic episodes by use of ear electrodes. While a finger prick test accurately measures the blood glucose level, it does not provide continuous measurements, and hence it is unreliable as a hypoglycaemia alarm. Recent studies have indicated that the use of continuous glucose monitoring (CGM) reduces the risk of severe hypoglycaemia. However, some find these devices troublesome to use and utilisation of CGM has remained limited to date. Observational data show that only a small percentage of patients with type 1 diabetes are using CGM on an ongoing basis. Thus, there is a medical need for a reliable hypoglycaemia detection device which is easy and convenient to use. This clinical study aims at investigating the feasibility of measuring hypoglycaemia induced changes in the EEG by use of the EarEEG system.
Smartguard Use in Real Life : a Longitudinal Study in Patients With Type 1 Diabetes
Type 1 Diabetes Mellitus Maturity OnsetThe reference treatment of the type 1 diabetes is intensified insulin therapy by insulin pump. The CGM (continuous glucose monitoring) is a technology available for a decade, which allows the continuous measure of interstitial glucose rate. The results are available in real time to the user, who can so use them to optimize the adjustment of its treatment by insulin pump. Since a few years, several research programs aim for finalizing an automated system using the data of real time interstitial glucose to adjust automatically, via an algorithm, the release of insulin by the pump. This type of closed-loop system is for the moment only experimental, not still widely available in routine. On the other hand, rudimentary regulation systems partially automated already exist and can be used in common clinical practice. One of these systems, Smartguard ®, allows this type of regulation to decrease the hypoglycemic risk of the patients treated by insulin pump. It is indeed a hypo minimizer which interrupts the basal output when the algorithm embarked on the pump determines thanks to the CGM data what a hypoglycemia risks to occur in the 30 minutes. The efficiency of this system to reduce hypoglycemias was proved by several studies in pediatric and adult populations of subjects with DT1 (Diabetes Care on 2015; 38:1197-1204. J Diabetes Sci Technol. 2016 May 20. Pii: 1932296816645119). However, to date, there are no published data concerning the method of use of this system (sensor et pump initial configuration; patient education), nor the evolution of the sensor and pump parameters during the use. The aim of this observationnelle study is to collect the data of efficiency, safety and use of the system Smartguard ® in common clinical practice in an adult population of subjects DT1.
Preservation of Residual Beta Cell Mass and Prevention of Celiac Disease in Children With Recent...
Diabetes MellitusType 12 moreThe overall aim of this project is to investigate whether a gluten free diet after the onset of type 1 diabetes (T1D) can better preserve the remaining beta cell mass and at the same time prevent the development of Celiac Disease (CD) in these patients. Specific aims • To study whether gluten free diet during one year after the onset of diabetes influence the appearance and duration of clinical remission in children with Type 1 diabetes. New data show that a gluten free diet is beneficial concerning the insulin production after the onset of diabetes. The investigators want to investigate if gluten is a triggering protein for the destruction of the beta cell function after the onset of diabetes by comparing children who have a normal diet compared to children with a gluten free diet during one year after the onset of the disease. To study whether a gluten free diet during one year after the onset of diabetes prevent the development of Celiac Disease in these children and the impact of having two diseases It is known that it is almost 10 times more common that children with Type 1 Diabetes (IDDM) develop Celiac Disease (CD) than the general population and that most of these children (6-7 %) develop CD after the onset of Diabetes and within 5 years. Based on our new data that CD is preventable to some extent the investigators plan to perform randomized controlled studies if it is possible to prevent or postpone CD by means after the onset of IDDM. To investigate the impact of gluten free diet on the regulation of autoimmune responses The investigators will test the hypothesis that gluten free diet in children with recent onset T1D will implement immune regulation and inhibit the activation of potentially autoreactive T cells.
The Diabetes Patient Takes Responsibility
Diabetes MellitusType 12 morePeople with Type 1 diabetes (T1D) are randomized to follow the normal scheduled visit procedure in the outpatient clinic OR to have open access to the clinic, i.e. they can get an appointment with a nurse or doctor within defined time intervals via telephone, e-mail or apps. Patient-reported outcomes (patient satisfaction and experience, QoL) clinical variables (HbA1c, blood pressure etc.) and use of human resources (doctors, diabetes-nurses and diet physicians) are monitored.
Managing Type 1 and High Risk Type 2 Diabetes in the Hospital Setting: Glucose as a Vital Sign
Diabetes MellitusType 12 moreThis program will provide patients with type 1 and high risk type 2 diabetes the safest hospitalization by using wireless continuous glucose monitoring devices (CGM) to track their glucose parameters in real-time similar to other continuously monitored vital signs. The CGM will inform a team of health professionals who will monitor the patients' progress, communicate recommendations, and be available for discussion when recommended targets are not achieved. Health teams will utilize sensor results in addition to existing electronic medical records data to evaluate progress and manage care.
Evaluation of Gut Absorption Rate of Glucose After a Large Evening Meal in Type 1 Diabetes
Type 1 DiabetesEight adolescent and young adult subjects with type 1 diabetes, age 16-24 years, will be recruited for this study on the basis of informed consent. Participants will be invited to attend the Wellcome Trust Clinical Research Facility at Addenbrooke's Hospital, Cambridge, on two occasions. On each occasion participants will arrive at the unit at 9am having controlled their diabetes with short acting insulin for 24 hours and they will remain in the unit until 8am the next morning. During the day, between 9am and 6pm participants will remain fasting and their blood glucose levels will be controlled by intravenous insulin, the dose being determined by 15-30 minute blood glucose estimations. At 1800hr on visit 1 the subjects will be asked to ingest an evening meal enriched by a cold isotope glucose tracer (non radioactive). The variable insulin infusion will be adjusted to allow for the meal in order to achieve good glycaemic control after the meal until 0200hr. From then until 0800hr in the morning the study team will again adjust the infusion rates to maintain normal glycemia until the participants are ready to go home on their normal insulin regimen. On the second visit the protocol will be identical until 1800hr when instead of giving the meal variable amounts of glucose will be infused to ensure the glucose levels are identical to those observed on visit 1. After 0200hr the study will be effectively finished but the study team will continue to vary the insulin infusion to keep blood glucose levels normal until the subjects can go home on their normal insulin regime at 8am. In order to achieve sufficient information to make all the calculations needed other cold isotope glucose tracers will be infused during the study period. These safe non radioactive isotope tracers will enable us to assess glucose being produced by the body, its distribution and utilization. Throughout both study periods the subjects will be monitored very closely by a Clinical Research Fellow, assisted by a Research Nurse, in order to avoid any risk of low blood glucose levels.
Psychosocial Functioning in Young Adults With Type 1 Diabetes
Type 1 Diabetes MellitusBackground: The often studied psychosocial correlates that relate to health outcomes in adolescents with Type 1 Diabetes (T1D) are factors such as self-efficacy, depression, distress, quality of life, and adherence. These psychosocial factors are not well-studied within a young adult (YA) population and the parents of YAs during the transition planning phase. Impact: This study aids program development for pre-transfer educational interventions to ensure more successful post-transfer health outcomes from both a patient and parent perspective. Methods: This longitudinal study is designed to characterize the psychosocial factors relevant for a population of YA with T1D. Data analyses of these psychosocial and transition readiness variables allow for understanding of prospective health outcomes for young adults with T1D during the transition process. Implications/Future Directions: From a clinical perspective, the outcomes of this feasibility study will be two-fold: (1) establish which of the clinical measures used in the study are related to meaningful health outcomes in this young adult population in order to determine future standardized assessments in the Diabetes Center and (2) determine which psychosocial constructs are relevant to health outcomes to then more fully develop the Diabetes Center's transition program interventions to improve functioning clinic-wide (e.g., group day sessions). Finally, it would be attractive to various National Institutes of Diabetes and Digestive and Kidney Disorder (NIDDK) grant mechanisms to identify the relevant psychosocial measures that assess the psychosocial functioning of YA with diabetes after they transfer to adult care.