Author
Listed:
- Allan L. Reiss
(Stanford University
Stanford University
Stanford University)
- Booil Jo
(Stanford University)
- Ana Maria Arbelaez
(at Washington University in St, Louis)
- Eva Tsalikian
(University of Iowa)
- Bruce Buckingham
(Stanford University)
- Stuart A. Weinzimer
(Department of Pediatrics, Yale University)
- Larry A. Fox
(Nemours Children’s Health)
- Allison Cato
(Nemours Children’s Health)
- Neil H. White
(at Washington University in St, Louis)
- Michael Tansey
(University of Iowa)
- Tandy Aye
(Stanford University)
- William Tamborlane
(Department of Pediatrics, Yale University)
- Kimberly Englert
(Nemours Children’s Health)
- John Lum
(Jaeb Center for Health Research)
- Paul Mazaika
(Stanford University)
- Lara Foland-Ross
(Stanford University)
- Matthew Marzelli
(Stanford University)
- Nelly Mauras
(Nemours Children’s Health)
Abstract
Type 1 diabetes (T1D) is associated with lower scores on tests of cognitive and neuropsychological function and alterations in brain structure and function in children. This proof-of-concept pilot study (ClinicalTrials.gov Identifier NCT03428932) examined whether MRI-derived indices of brain development and function and standardized IQ scores in adolescents with T1D could be improved with better diabetes control using a hybrid closed-loop insulin delivery system. Eligibility criteria for participation in the study included age between 14 and 17 years and a diagnosis of T1D before 8 years of age. Randomization to either a hybrid closed-loop or standard diabetes care group was performed after pre-qualification, consent, enrollment, and collection of medical background information. Of 46 participants assessed for eligibility, 44 met criteria and were randomized. Two randomized participants failed to complete baseline assessments and were excluded from final analyses. Participant data were collected across five academic medical centers in the United States. Research staff scoring the cognitive assessments as well as those processing imaging data were blinded to group status though participants and their families were not. Forty-two adolescents, 21 per group, underwent cognitive assessment and multi-modal brain imaging before and after the six month study duration. HbA1c and sensor glucose downloads were obtained quarterly. Primary outcomes included metrics of gray matter (total and regional volumes, cortical surface area and thickness), white matter volume, and fractional anisotropy. Estimated power to detect the predicted treatment effect was 0.83 with two-tailed, α = 0.05. Adolescents in the hybrid closed-loop group showed significantly greater improvement in several primary outcomes indicative of neurotypical development during adolescence compared to the standard care group including cortical surface area, regional gray volumes, and fractional anisotropy. The two groups were not significantly different on total gray and white matter volumes or cortical thickness. The hybrid closed loop group also showed higher Perceptual Reasoning Index IQ scores and functional brain activity more indicative of neurotypical development relative to the standard care group (both secondary outcomes). No adverse effects associated with study participation were observed. These results suggest that alterations to the developing brain in T1D might be preventable or reversible with rigorous glucose control. Long term research in this area is needed.
Suggested Citation
Allan L. Reiss & Booil Jo & Ana Maria Arbelaez & Eva Tsalikian & Bruce Buckingham & Stuart A. Weinzimer & Larry A. Fox & Allison Cato & Neil H. White & Michael Tansey & Tandy Aye & William Tamborlane , 2022.
"A Pilot randomized trial to examine effects of a hybrid closed-loop insulin delivery system on neurodevelopmental and cognitive outcomes in adolescents with type 1 diabetes,"
Nature Communications, Nature, vol. 13(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-32289-x
DOI: 10.1038/s41467-022-32289-x
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