2019
1382-P: Impaired Default Mode Network Suppression and Compensatory Hyperactivation in Children with Type 1 Diabetes
FOLAND-ROSS L, BUCKINGHAM B, MAURAS N, ARBELAEZ A, WHITE N, AYE T, WILSON D, TAMBORLANE W, WEINZIMER S, TSALIKIAN E, TANSEY M, CATO A, HERSHEY T, FOX L, TONG G, ENGLERT K, MAZAIKA P, REISS A. 1382-P: Impaired Default Mode Network Suppression and Compensatory Hyperactivation in Children with Type 1 Diabetes. Diabetes 2019, 68 DOI: 10.2337/db19-1382-p.Peer-Reviewed Original ResearchDefault mode networkExecutive control regionsDiabetes careMedtronic MiniMedSpouse/partnerGreater activationEunice Kennedy Shriver National InstituteLess suppressionEffects of dysglycemiaAdvisory PanelEli LillySimilar task performanceExecutive control areasParent-report measuresTakeda Pharmaceutical Company LimitedNondiabetic childrenT1D groupHbA1c levelsNondiabetic controlsSlower processing speedT1D onsetHigher HbA1cChild healthResearch supportMulti-site study
2018
Longitudinal assessment of hippocampus structure in children with type 1 diabetes
Foland‐Ross L, Reiss AL, Mazaika PK, Mauras N, Weinzimer SA, Aye T, Tansey MJ, White NH, Network T. Longitudinal assessment of hippocampus structure in children with type 1 diabetes. Pediatric Diabetes 2018, 19: 1116-1123. PMID: 29675980, PMCID: PMC6195484, DOI: 10.1111/pedi.12683.Peer-Reviewed Original ResearchAge-matched control subjectsType 1 diabetes mellitusHealthy age-matched controlsEffects of dysglycemiaEffect of diabetesRisk of hypoglycemiaHealthy control childrenType 1 diabetesAge-matched controlsGreater glycemic variabilityYoung childrenStructural magnetic resonance imaging (MRI) dataGlycemic exposureDiabetes mellitusControl subjectsGlycemic variabilityHippocampal volumeMagnetic resonance imaging dataHippocampus volumeCognitive alterationsHippocampus structureT1DControl childrenLongitudinal assessmentLongitudinal changes