Background and purpose: Optic neuritis (ON) is an acute episode of inflammation in the visual pathway (VP). It may occur as part of a demyelinating disease, which can affect white matter (WM) throughout the VP. Compensatory cortical adaptations may occur following WM damage to maintain visual integrity. Our aim was to investigate whether resting-state functional MRI (rsfMRI) can detect cortical adaptations following ON attacks and to correlate rsfMRI with diffusion tensor imaging (DTI) of WM within the VP.
Materials and methods: Neuromyelitis optica spectrum patients were compared to healthy controls at least 6 months after ON onset. DTI and rsfMRI were performed and post-processed using FSL tools (TBSS for DTI and MELODIC for fMRI).
Results: Ptients had higher synchronization values than controls in the visual network (3.48 vs. 2.12, P < .05). A weak trend of correlation was revealed between fMRI and structural analysis by DTI using fractional anisotropy (right side: R = -.36, P < .08; left side: R = .075, P < .73).
Conclusions: The rsfMRI detected cortical reorganization following ON attack, but WM was considerably preserved in the posterior VP.
Keywords: MRI; Neuromyelitis optica; diffusion tensor imaging; neuritis optica; resting-state functional.
Copyright © 2015 by the American Society of Neuroimaging.