Recruitment

Recruitment Status
Recruiting
Estimated Enrollment
Same as current

Summary

Conditions
Type1diabetes
Type
Interventional
Phase
Not Applicable
Design
Allocation: RandomizedIntervention Model: Parallel AssignmentIntervention Model Description: Participants will be randomized in a parallel design to receive a standard carbohydrate diet versus very low carbohydrate diet. Both of diet groups will undergo euglycemic-hypoglycemic insulin clamps and MRI studies to assess brain hypoglycemia tolerance. The standard diet group will undergo an additional euglycemic-hypoglycemic insulin clamp - with and without exogenous oral ketones in random order.Masking: None (Open Label)Primary Purpose: Supportive Care

Participation Requirements

Age
Between 18 years and 30 years
Gender
Both males and females

Description

To test the hypothesis that a ketogenic diet increases hypoglycemia tolerance and improves brain function and cognitive performance during hypoglycemia, the researchers propose a randomized mechanistic study using insulin infusions and neuroimaging. The study will leverage an existing randomized con...

To test the hypothesis that a ketogenic diet increases hypoglycemia tolerance and improves brain function and cognitive performance during hypoglycemia, the researchers propose a randomized mechanistic study using insulin infusions and neuroimaging. The study will leverage an existing randomized controlled trial (RCT) in 32 young adults with T1D who will receive a ketogenic vs a standard carbohydrate diet for 12 weeks. Researchers will conduct a euglycemic-hypoglycemic insulin clamp using a continuous infusion of insulin, along with a glucose infusion that is adjusted to keep blood glucose levels normal (90 mg/dL), followed by a slow drop to hypoglycemia (50 mg/dL). Researchers will assess activation and connectivity of relevant brain areas by magnetic resonance imaging (MRI). Using continuous imaging during the gradual glycemic descent from 90 mg/dL to 50 mg/dL, the researchers will establish the glycemic threshold at which the hypothalamus becomes activated. Using a combination of MRI modalities, they will assess brain activation and connectivity changes during hypoglycemia versus euglycemia, both during rest and in relation to a cognitive task. Brain findings will be integrated with physiologic (blood levels of glucose, ketones, free fatty acids, counter-regulatory hormones) and behavioral (reaction time, cognitive task performance, hypoglycemia symptoms scale) parameters. In additional studies, researchers will give an oral ketone drink to raise blood ketone levels in participants in the standard carbohydrate diet arm. They will perform the same insulin infusion and MRI investigations to clarify the mechanistic role of ketones in mediating brain activation patterns. Comparison will be between nutritional vs no ketosis, exogenous vs no ketosis, and nutritional vs exogenous ketosis.

Tracking Information

NCT #
NCT04219709
Collaborators
Beth Israel Deaconess Medical Center
Investigators
Principal Investigator: Belinda Lennerz, MD, PhD Boston Children's Hospital
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