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Mild traumatic brain injury (mTBI) is common and can lead to persistent cognitive and behavioural symptoms. While diffusion tensor imaging (DTI) has demonstrated some sensitivity to changes in white matter following mTBI, recent studies have suggested that more complex geometric models of diffusion, including the Neurite Orientation Dispersion and Density Imaging (NODDI) model, may be more sensitive and specific. Here we evaluate microstructural changes in white matter following mTBI using DTI and NODDI in a mouse model and compare the time course of these changes to behavioural impairment and recovery. We also assess volumetric changes for a comprehensive picture of the structural alterations in the brain and histological staining to identify cellular changes that may contribute to the differences detected in the imaging data. Increased orientation dispersion index (ODI) was observed in the optic tracts of mTBI mice compared to shams. Changes in fractional anisotropy (FA) were not statistically significant. Volume deficits were detected in the optic tract as well as in several gray matter regions: the lateral geniculate nuclei of the thalamus, the entorhinal cortex, and the superior colliculi. GFAP and Iba1 staining was increased in the optic tracts of mTBI brains and this staining correlated with ODI values. A transient impairment in working memory was observed, which resolved by 6 weeks, while increased ODI, GFAP, and Iba1 persisted to 18 weeks post-injury. We conclude that The optic tracts are particularly vulnerable to damage from the closed-skull impact model used in this study and ODI may be a more sensitive metric to this damage than FA. Differences in ODI and in histological measures of astrogliosis, neuroinflammation and axonal degeneration persist beyond behavioural impairment in this model. Keywords: mild TBI, white matter, neurite orientation dispersion and density imaging (NODDI), diffusion tensor imaging (DTI), mice.

Original publication




Journal article


J Neurotrauma

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