Regional grey matter microstructural changes and volume loss according to disease duration in multiple sclerosis patients

Elisabeth Solana,Carmen Montejo,E H Martinez-Lapiscina,Juan Fortea,Irene Pulido-Valdeolivas,Magi Andorra,Elisabet Lopez-Soley,Eloy Martinez-Heras,Joan Berenguer,Joaquim Radua,Pablo Villoslada,Eduard Vilaplana,Albert Saiz,Victor Montal,Yolanda Blanco,Sara Llufriu,Maria Sepúlveda,Ferran Prados,Nuria Sola-Valls

doi:10.1038/s41598-021-96132-x

Abstract

The spatio-temporal characteristics of grey matter (GM) impairment in multiple sclerosis (MS) are poorly understood. We used a new surface-based diffusion MRI processing tool to investigate regional modifications of microstructure, and we quantified volume loss in GM in a cohort of patients with MS classified into three groups according to disease duration. Additionally, we investigated the relationship between GM changes with disease severity. We studied 54 healthy controls and 247 MS patients classified regarding disease duration: MS1 (less than 5 years, n = 67); MS2 (5–15 years, n = 107); and MS3 (more than15 years, n = 73). We compared GM mean diffusivity (MD), fractional anisotropy (FA) and volume between groups, and estimated their clinical associations. Regional modifications in diffusion measures (MD and FA) and volume did not overlap early in the disease, and became widespread in later phases. We found higher MD in MS1 group, mainly in the temporal cortex, and volume reduction in deep GM and left precuneus. Additional MD changes were evident in cingulate and occipital cortices in the MS2 group, coupled to volume reductions in deep GM and parietal and frontal poles. Changes in MD and volume extended to more than 80% of regions in MS3 group. Conversely, increments in FA, with very low effect size, were observed in the parietal cortex and thalamus in MS1 and MS2 groups, and extended to the frontal lobe in the later group. MD and GM changes were associated with white matter lesion load and with physical and cognitive disability. Microstructural integrity loss and atrophy present differential spatial predominance early in MS and accrual over time, probably due to distinct pathogenic mechanisms that underlie tissue damage.

Highlights

The spatio-temporal characteristics of grey matter (GM) impairment in multiple sclerosis (MS) are poorly understood
Changes to microstructural barriers predominated in the cortex, while volume loss was mainly linked to deep brain structures and precuneus, without overlap between these changes
Our results indicate that mean diffusivity (MD), rather than fractional anisotropy (FA), is sensitive to GM damage in patients with MS already at the beginning of the illness

Summary

Introduction

The spatio-temporal characteristics of grey matter (GM) impairment in multiple sclerosis (MS) are poorly understood. This approach, which reduces the partial volume effects[14,15,16], has been applied to other neurodegenerative diseases like Alzheimer’s disease and frontotemporal dementia where it offers superior sensitivity in mapping cortical GM changes By adopting this methodology, the present study aimed to characterise the regional GM damage, both in cortical and deep GM, analysing the spatial distribution and overlap of diffusion metrics and volume changes in MS patients segregated according to three different periods of the disease course. These modifications were mapped to disease severity

Methods

Results

Conclusion