Keywords: Susceptibility/QSM, Microstructure, Brain
Motivation: Susceptibility source separation methods to disentangle sub-voxel paramagnetic and diamagnetic susceptibility sources may provide higher specificity to distinguish tissue microstructural alterations.
Goal(s): Our goal was to investigate sub-cellular histopathological alterations in an established tauopathy mouse model using quantitative susceptibility source separation.
Approach: Brains of PS19 mice and wild-type controls (n = 5 each) were imaged at 11.7 T. We used the DECOMPOSE-QSM model to calculate paramagnetic and diamagnetic component susceptibility maps.
Results: Susceptibility maps revealed significant localized alterations in specific regions of the hippocampus and entorhinal cortex, which were found to correspond to regional microgliosis and tau deposition seen with immunohistology.
Impact: Our findings demonstrate unique sensitivity of paramagnetic and diamagnetic susceptibility changes to distinguish regional microgliosis and tau deposition in the brain. Quantitative magnetic susceptibility source separation may therefore provide a sensitive method to assess sub-cellular histopathological alterations in tauopathies.
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