Abstract
BackgroundNeurodegeneration in multiple sclerosis (MS) may be investigated in the visual system as optical coherence tomography (OCT) and magnetic resonance imaging (MRI) allows examining structural integrity in detail. The association between thickness of retinal layers and focal cortical volumes beyond the primary visual system has not been thoroughly investigated.ObjectiveTo investigate the association between focal cortical volume and thickness of retinal layers.MethodsFifty‐four patients (relapsing–remitting MS, mean age 40.5 years, mean disease duration 7.6 years, median EDSS 2) underwent OCT and MRI. The association between focal cortical volume and OCT measurements was investigated with voxel‐based morphometry (VBM). Patterns of association were determined with Yeo's functional network atlas and the Harvard‐Oxford cortical atlas. We used GEE models with cortical volumes from the FreeSurfer parcellation to confirm VBM results. Post hoc, we analyzed the association between OCT, focal cortical volumes, and an extended neuropsychological assessment in a subgroup of 14 patients.ResultsMacular retinal nerve fiber layer (mRNFL) and ganglion cell /inner plexiform layer (GCIPL) showed a robust association with mainly the insular cortex and the cingulate cortex. VBM findings were confirmed with FreeSurfer volumes. The post hoc analysis detected significant correlations between both OCT outcomes and cognition.ConclusionBesides the primary visual system, OCT outcomes show a correlation pattern with cortical regions that are known to be important for cognitive performance, predominantly the insula in both hemispheres. Thus, OCT should be further investigated as a marker for neurodegeneration in MS.
Highlights
Multiple sclerosis (MS) is the most common chronic inflammatory disease of the central nervous system leading to progressive neuroaxonal degeneration and subsequent disability accumulation in young adults (Friese, Schattling, & Fugger, 2014)
The purpose of this study was to investigate to what extent optical coherence tomography (OCT) measures correlate with cortical areas that are not part of the primary visual system, and to explore if there is a distinctive pattern of association with cortical regions and if these associations might be linked to neuropsychological performance
Results from GEE models ordered by β, only significant correlations are listed
Summary
Multiple sclerosis (MS) is the most common chronic inflammatory disease of the central nervous system leading to progressive neuroaxonal degeneration and subsequent disability accumulation in young adults (Friese, Schattling, & Fugger, 2014). Investigating focal cortical volume patterns might help to identify regions that are important hubs in functional or structural networks and might contribute to the disability of MS patients. The purpose of this study was to investigate to what extent OCT measures correlate with cortical areas that are not part of the primary visual system, and to explore if there is a distinctive pattern of association with cortical regions and if these associations might be linked to neuropsychological performance. Neurodegeneration in multiple sclerosis (MS) may be investigated in the visual system as optical coherence tomography (OCT) and magnetic resonance imaging (MRI) allows examining structural integrity in detail. The association between thickness of retinal layers and focal cortical volumes beyond the primary visual system has not been thoroughly investigated. Conclusion: Besides the primary visual system, OCT outcomes show a correlation pattern with cortical regions that are known to be important for cognitive performance, predominantly the insula in both hemispheres. OCT should be further investigated as a marker for neurodegeneration in MS
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