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High spatial overlap but diverging age-related trajectories of cortical MRI markers aiming to represent intracortical myelin and microstructure

Authors :
Olivier Parent
Emily Olafson
Aurélie Bussy
Stephanie Tullo
Nadia Blostein
Alyssa Salaciak
Saashi A. Bedford
Sarah Farzin
Marie-Lise Béland
Vanessa Valiquette
Christine L. Tardif
Gabriel A. Devenyi
M. Mallar Chakravarty
Publication Year :
2022
Publisher :
Cold Spring Harbor Laboratory, 2022.

Abstract

Cortical thickness (CT), gray-white matter contrast (GWC), boundary sharpness coefficient (BSC), and T1-weighted/T2-weighted ratio (T1w/T2w) are cortical metrics derived from standard T1- and T2-weighted magnetic resonance imaging (MRI) images that are often interpreted as representing or being influenced by intracortical myelin content. However, there is little empirical evidence to justify these interpretations nor have the homologies or differences between these measures been examined. We examined differences and similarities in group mean and age-related trends with the underlying hypothesis that different measures sensitive to similar changes in underlying myelo- and microstructural processes should be highly related. We further probe their sensitivity to cellular organization using the BigBrain, a high-resolution digitized volume stemming from a whole human brain histologically stained for cell bodies with the Merker stain.The measures were generated on both the MRI-derived images of 127 healthy subjects, aged 18 to 81, and on the BigBrain volume using cortical surfaces that were generated with the CIVET 2.1.0 pipeline. Comparing MRI markers between themselves, our results revealed generally high overlap in spatial distribution (i.e., group mean), but mostly divergent age trajectories in the shape, direction, and spatial distribution of the linear age effect. Significant spatial relationships were found between the BSC and GWC and their BigBrain equivalent, as well as a correlation approaching significance between the BigBrain intensities and the T1w/T2w ratio in gray matter (GM) both sampled at half cortical depth.We conclude that the microstructural properties at the source of spatial distributions of MRI cortical markers (e.g. GM myelin) can be different from microstructural changes that affect these markers in aging. While our findings highlight a discrepancy in the interpretation of the biological underpinnings of the cortical markers, they also highlight their potential complementarity, as they are largely independent in aging. Our BigBrain results indicate a general trend of GM T1w signal and myelin being spatially related to the density of cells, which is possibly more pronounced in superficial cortical layers.Highlights–Different MRI cortical markers aim to represent myelin and microstructure–These markers show high spatial overlap, but mostly divergent age trajectories–It is unlikely that myelin changes are the source of the age effect for all markers–Trend of MRI signal being related to cell density in more superficial cortical layers

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........39b67cd1d27aae0ae09b29bcfd3f17ac
Full Text :
https://doi.org/10.1101/2022.01.27.477925