Erschienen in:
13.04.2018 | Article
Persistence of abnormalities in white matter in children with type 1 diabetes
verfasst von:
Larry A. Fox, Tamara Hershey, Nelly Mauras, Ana Maria Arbeláez, William V. Tamborlane, Bruce Buckingham, Eva Tsalikian, Kim Englert, Mira Raman, Booil Jo, Hanyang Shen, Allan Reiss, Paul Mazaika, for the Diabetes Research in Children Network (DirecNet)
Erschienen in:
Diabetologia
|
Ausgabe 7/2018
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Abstract
Aims/hypothesis
Prior studies suggest white matter growth is reduced and white matter microstructure is altered in the brains of young children with type 1 diabetes when compared with brains of non-diabetic children, due in part to adverse effects of hyperglycaemia. This longitudinal observational study examines whether dysglycaemia alters the developmental trajectory of white matter microstructure over time in young children with type 1 diabetes.
Methods
One hundred and eighteen children, aged 4 to <10 years old with type 1 diabetes and 58 age-matched, non-diabetic children were studied at baseline and 18 months, at five Diabetes Research in Children Network clinical centres. We analysed longitudinal trajectories of white matter using diffusion tensor imaging. Continuous glucose monitoring profiles and HbA1c levels were obtained every 3 months.
Results
Axial diffusivity was lower in children with diabetes at baseline (p = 0.022) and at 18 months (p = 0.015), indicating that differences in white matter microstructure persist over time in children with diabetes. Within the diabetes group, lower exposure to hyperglycaemia, averaged over the time since diagnosis, was associated with higher fractional anisotropy (p = 0.037). Fractional anisotropy was positively correlated with performance (p < 0.002) and full-scale IQ (p < 0.02).
Conclusions/interpretation
These results suggest that hyperglycaemia is associated with altered white matter development, which may contribute to the mild cognitive deficits in this population.