Journal
JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM
Volume 41, Issue 7, Pages 1682-1691Publisher
SAGE PUBLICATIONS INC
DOI: 10.1177/0271678X20974170
Keywords
Cerebral small vessel disease; cortical thickness; diffusion-weighted imaging; structural connectivity; white matter hyperintensities
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The study found that white matter hyperintensities (WMH) may influence cortical thickness through fiber tract connectivity, with a specific association observed between periventricular WMH and reduced cortical thickness.
We examined the relationship between white matter hyperintensities (WMH) and cortical neurodegeneration in cerebral small vessel disease (CSVD) by investigating whether cortical thickness is a remote effect of WMH through structural fiber tract connectivity in a population at increased risk of CSVD. We measured cortical thickness on T1-weighted images and segmented WMH on FLAIR images in 930 participants of a population-based cohort study at baseline. DWI-derived whole-brain probabilistic tractography was used to define WMH connectivity to cortical regions. Linear mixed-effects models were applied to analyze the relationship between cortical thickness and connectivity to WMH. Factors associated with cortical thickness (age, sex, hemisphere, region, individual differences in cortical thickness) were added as covariates. Median age was 64 [IQR 46-76] years. Visual inspection of surface maps revealed distinct connectivity patterns of cortical regions to WMH. WMH connectivity to the cortex was associated with reduced cortical thickness (p = 0.009) after controlling for covariates. This association was found for periventricular WMH (p = 0.001) only. Our results indicate an association between WMH and cortical thickness via connecting fiber tracts. The results imply a mechanism of secondary neurodegeneration in cortical regions distant, yet connected to subcortical vascular lesions, which appears to be driven by periventricular WMH.
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