Frontiers in Neuroscience (Apr 2023)

Microstructural and functional impairment of the basal ganglia in Wilson’s disease: a multimodal neuroimaging study

  • Dongning Su,
  • Zhijin Zhang,
  • Zhe Zhang,
  • Zhe Zhang,
  • Yawen Gan,
  • Yingkui Zhang,
  • Yingkui Zhang,
  • Xinyao Liu,
  • Xinyao Liu,
  • Jingfeng Bi,
  • Jingfeng Bi,
  • Lingyan Ma,
  • Huiqing Zhao,
  • Xuemei Wang,
  • Zhan Wang,
  • Huizi Ma,
  • Shairy Sifat,
  • Junhong Zhou,
  • Junhong Zhou,
  • Wei Li,
  • Wei Li,
  • Tao Wu,
  • Tao Wu,
  • Jing Jing,
  • Jing Jing,
  • Jing Jing,
  • Tao Feng,
  • Tao Feng

DOI
https://doi.org/10.3389/fnins.2023.1146644
Journal volume & issue
Vol. 17

Abstract

Read online

ObjectivesMagnetic susceptibility changes in brain MRI of Wilson’s disease (WD) patients have been described in subcortical nuclei especially the basal ganglia. The objectives of this study were to investigate its relationship with other microstructural and functional alterations of the subcortical nuclei and the diagnostic utility of these MRI-related metrics.MethodsA total of 22 WD patients and 20 healthy controls (HCs) underwent 3.0T multimodal MRI scanning. Susceptibility, volume, diffusion microstructural indices and whole-brain functional connectivity of the putamen (PU), globus pallidus (GP), caudate nucleus (CN), and thalamus (TH) were analyzed. Receiver operating curve (ROC) was applied to evaluate the diagnostic value of the imaging data. Correlation analysis was performed to explore the connection between susceptibility change and microstructure and functional impairment of WD and screen for neuroimaging biomarkers of disease severity.ResultsWilson’s disease patients demonstrated increased susceptibility in the PU, GP, and TH, and widespread atrophy and microstructural impairments in the PU, GP, CN, and TH. Functional connectivity decreased within the basal ganglia and increased between the PU and cortex. The ROC model showed higher diagnostic value of isotropic volume fraction (ISOVF, in the neurite orientation dispersion and density imaging model) compared with susceptibility. Severity of neurological symptoms was correlated with volume and ISOVF. Susceptibility was positively correlated with ISOVF in GP.ConclusionMicrostructural impairment of the basal ganglia is related to excessive metal accumulation in WD. Brain atrophy and microstructural impairments are useful neuroimaging biomarkers for the neurological impairment of WD.

Keywords