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β-cells in youth with impaired glucose tolerance or early type 2 diabetes secrete more insulin and are more responsive than in adults.

Citation
Utzschneider, K. M., et al. “Β-Cells In Youth With Impaired Glucose Tolerance Or Early Type 2 Diabetes Secrete More Insulin And Are More Responsive Than In Adults.”. Pediatric Diabetes, pp. 1421-1429.
Center Indiana University University of Chicago University of Washington Yale University
Multicenter
Multicenter
Author Kristina M Utzschneider, Mark T Tripputi, Alexandra Kozedub, Kieren J Mather, Kristen J Nadeau, Sharon L Edelstein, Tamara S Hannon, Silva A Arslanian, Melanie Cree-Green, Thomas A Buchanan, Sonia Caprio, Andrea Mari, RISE Consortium
Keywords Impaired glucose tolerance, insulin secretion, insulin sensitivity, type 2 diabetes, β-cell function
Abstract

OBJECTIVE: Glycemic control deteriorates more rapidly in youth vs adults. We compared model-derived measures of β-cell function between youth and adults with either impaired glucose tolerance (IGT) or type 2 diabetes to determine if a β-cell defect differentiates these age groups.

METHODS: This is a cross-sectional analysis of baseline data from the Restoring Insulin Secretion (RISE) Study. Youth (54 Y-IGT, 33 Y-D) and adults (250 A-IGT, 104 A-D) underwent 3-hour oral glucose tolerance tests for modeling of insulin secretion rates (ISRs), glucose sensitivity, and rate sensitivity. Insulin sensitivity was quantified as the glucose infusion rate/insulin (M/I) from a hyperglycemic clamp.

RESULTS: Youth had lower insulin sensitivity despite similar body mass index. Analyses were adjusted for insulin sensitivity. Youth had higher basal ISRs (Y-IGT 200 ± 161 vs A-IGT 152 ± 74, P < .001; Y-D 245 ± 2.5 vs A-D 168 ± 115 pmol/min/m , P = .007) and total ISRs (Y-IGT 124 ± 86 vs A-IGT 98 ± 39, P < .001; Y-D 116 ± 110 vs A-D 97 ± 62 nmol/m , P = .002). Within IGT, glucose sensitivity (Y-IGT 140 ± 153 vs A-IGT 112 ± 70 pmol/min/m /mM, P = .004) and rate sensitivity (median[interquartile range]:Y-IGT 2271[1611, 3222] vs A-IGT 1164[685, 1565] pmol/m /mM, P < .001) were higher in youth, but not different by age group within diabetes.

CONCLUSIONS: Model-derived measures of β-cell function provide additional insight into the pathophysiology of type 2 diabetes in youth with higher ISRs and β-cell secretion more responsive to glucose in youth relative to adults even after adjusting for differences in insulin sensitivity. It is unknown whether these findings in youth reflect β-cells that are healthier or whether this is a defect that contributes to more rapid loss of function.

Year of Publication
2020
Journal
Pediatric diabetes
Volume
21
Issue
8
Number of Pages
1421-1429
Date Published
12/2020
ISSN Number
1399-5448
DOI
10.1111/pedi.13113
Alternate Journal
Pediatr Diabetes
PMID
32902875
PMCID
PMC7642023
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