The goal of this clinical trial is to test the effects of a ketogenic diet on the progression and control of type 1 diabetes in children with newly diagnosed diabetes. The main questions to answer are: * Does a ketogenic diet prolong the honeymoon period of type 1 diabetes? * Does a ketogenic diet improve diabetes control? * Is a ketogenic diet safe, acceptable and sustainable in children with newly diagnosed diabetes? * What are the microbiome, inflammatory and metabolic changes linking diet to β-cell function? Participants will receive a combination of free meals, groceries, micronutrient supplements, and intensive diet and diabetes education for 9 months. * Diabetes care devices will be connected for cloud-based data collection. * Bi-weekly data downloads and remote check-ins will assess dietary intake, satisfaction with diet and study procedures, and possible safety concerns. * During four study visits held at at baseline, 1, 5, and 9 months, an intravenous catheter (IV) will be placed for collection of 5 blood samples before and up to 2 hours after a liquid test meal (protein shake) to assess insulin response. A stool sample will also be collected to assess microbiome changes. * Children and their caregivers may be invited to participate in a semi-structured interview, and online questionnaires to assess their experience with the diet and diabetes care, general well-being and quality of life. * Children and their caregivers may be invited to participate in a follow-up visit to evaluate long-term effects after 24 months. Comparison will be made between a ketogenic vs standard diet.
Diabetes Mellitus, Type 1
The goal of this clinical trial is to test the effects of a ketogenic diet on the progression and control of type 1 diabetes in children with newly diagnosed diabetes. The main questions to answer are: * Does a ketogenic diet prolong the honeymoon period of type 1 diabetes? * Does a ketogenic diet improve diabetes control? * Is a ketogenic diet safe, acceptable and sustainable in children with newly diagnosed diabetes? * What are the microbiome, inflammatory and metabolic changes linking diet to β-cell function? Participants will receive a combination of free meals, groceries, micronutrient supplements, and intensive diet and diabetes education for 9 months. * Diabetes care devices will be connected for cloud-based data collection. * Bi-weekly data downloads and remote check-ins will assess dietary intake, satisfaction with diet and study procedures, and possible safety concerns. * During four study visits held at at baseline, 1, 5, and 9 months, an intravenous catheter (IV) will be placed for collection of 5 blood samples before and up to 2 hours after a liquid test meal (protein shake) to assess insulin response. A stool sample will also be collected to assess microbiome changes. * Children and their caregivers may be invited to participate in a semi-structured interview, and online questionnaires to assess their experience with the diet and diabetes care, general well-being and quality of life. * Children and their caregivers may be invited to participate in a follow-up visit to evaluate long-term effects after 24 months. Comparison will be made between a ketogenic vs standard diet.
Carbohydrate Beta Cell Function and Glucose Control in Children With Diabetes
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Boston Children's Hospital, Boston, Massachusetts, United States, 02115
Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.
For general information about clinical research, read Learn About Studies.
5 Years to 12 Years
ALL
No
Boston Children's Hospital,
Belinda Lennerz, PRINCIPAL_INVESTIGATOR, Boston Children's Hospital
2029-04-30