Carbohydrate Beta Cell Function and Glucose Control in Children With Diabetes

Type I diabetes is caused by an autoimmune destruction of insulin producing β-cells in the pancreas, resulting in absolute insulin deficiency. In the first months after diagnosis, a small number of β-cells typically remain and, by producing insulin, significantly improve diabetes control and reduce disease burden. Preliminary data suggest that this early disease stage entitled the "honeymoon period" might be extended by a ketogenic diet, which would provide a major therapeutic advantage and may reduce chronic disease burden. To test the hypothesis that a ketogenic vs. standard diet will extend the honeymoon period and improve diabetes control in children, the researchers are conducting a study employing education and food deliveries of a ketogenic or standard diet to children and their families. Fifty-two children aged 5 to 12 years with newly diagnosed diabetes will participate. Children will be assigned by chance (randomized) to receive either a ketogenic or a standard diet for 9 months. Chances to be assigned to either diet are 50:50 like a coin flip, and 26 children will participate in each diet arm. Participants will receive a combination of free meals, groceries, micronutrient supplements, and intensive diet and diabetes education throughout the 9 months. Continuous glucose monitoring (CGM) and diaries will be used for cloud-based data collection. Bi-weekly data downloads and remote check-ins will be performed to assess dietary intake, satisfaction with diet and study procedures, and possible safety concerns. Participants are instructed to measure blood ketone levels with their home ketone meter anytime blood glucose levels exceed a safety threshold and to call the study physician for persistent low glucose levels or ketones above diet specific safety thresholds. Study visits are held at at baseline, 1, 5, and 9 months to collect height, weight, stool and blood samples for hormones, metabolites and inflammatory biomarkers. At each visit, an intravenous catheter (IV) will be placed to collect fasting blood samples, followed by a liquid test meal (protein shake) and collection of four additional blood samples from the IV over the course of two hours. Prior to each visit, participants will collect stool samples at home using provided kits. In addition, participants and their families may be invited to participate in a semi-structured interview, and online questionnaires to asses their food intake, experience with the diet, diabetes care burden and complications, and general well-being and quality of life. They may also be invited to participate in a follow-up visit to evaluate long-term effects after 24 months.