NeuroImage (Nov 2023)

Identifying and reverting the adverse effects of white matter hyperintensities on cortical surface analyses

  • Yuki Oi,
  • Masakazu Hirose,
  • Hiroki Togo,
  • Kenji Yoshinaga,
  • Thai Akasaka,
  • Tomohisa Okada,
  • Toshihiko Aso,
  • Ryosuke Takahashi,
  • Matthew F. Glasser,
  • Takuya Hayashi,
  • Takashi Hanakawa

Journal volume & issue
Vol. 281
p. 120377

Abstract

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The Human Connectome Project (HCP)-style surface-based brain MRI analysis is a powerful technique that allows precise mapping of the cerebral cortex. However, the strength of its surface-based analysis has not yet been tested in the older population that often presents with white matter hyperintensities (WMHs) on T2-weighted (T2w) MRI (hypointensities on T1w MRI). We investigated T1-weighted (T1w) and T2w structural MRI in 43 healthy middle-aged to old participants. Juxtacortical WMHs were often misclassified by the default HCP pipeline as parts of the gray matter in T1w MRI, leading to incorrect estimation of the cortical surfaces and cortical metrics. To revert the adverse effects of juxtacortical WMHs, we incorporated the Brain Intensity AbNormality Classification Algorithm into the HCP pipeline (proposed pipeline). Blinded radiologists performed stereological quality control (QC) and found a decrease in the estimation errors in the proposed pipeline. The superior performance of the proposed pipeline was confirmed using an originally-developed automated surface QC based on a large database. Here we showed the detrimental effects of juxtacortical WMHs for estimating cortical surfaces and related metrics and proposed a possible solution for this problem. The present knowledge and methodology should help researchers identify adequate cortical surface biomarkers for aging and age-related neuropsychiatric disorders.

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