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Neuroradiology
Published in: Neuroradiology 5/2016

01-05-2016 | Diagnostic Neuroradiology

Lesion filling effect in regional brain volume estimations: a study in multiple sclerosis patients with low lesion load

Authors: D Pareto, J Sastre-Garriga, F X Aymerich, C Auger, M Tintoré, X Montalban, A Rovira

Published in: Neuroradiology | Issue 5/2016

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Abstract

Introduction

Regional brain volume estimation in multiple sclerosis (MS) patients is prone to error due to white matter lesions being erroneously segmented as grey matter. The Lesion Segmentation Toolbox (LST) is an automatic tool that estimates a lesion mask based on 3D T2-FLAIR images and then uses this mask to fill the structural MRI image. The goal of this study was (1) to test the LST for estimating white matter lesion volume in a cohort of MS patients using 2D T2-FLAIR images, and (2) to evaluate the performance of the optimized LST on image segmentation and the impact on the calculated grey matter fraction (GMF).

Methods

The study included 110 patients with a clinically isolated syndrome and 42 with a relapsing-remitting MS scanned on a 3.0-T MRI system. In a subset of consecutively selected patients, the lesion mask was semi-manually delineated over T2-FLAIR images. After establishing the optimized LST parameters, the corresponding regional fractions were calculated for the original, filled, and masked images.

Results

A high agreement (intraclass correlation coefficient (ICC) = 0.955) was found between the (optimized) LST and the semi-manual lesion volume estimations. The GMF was significantly smaller when lesions were masked (mean difference −0.603, p < 0.001) or when the LST filling technique was used (mean difference −0.598, p < 0.001), compared to the GMF obtained from the original image.

Conclusion

LST lesion volume calculation seems reliable. GMFs are significantly reduced when a method to correct the contribution of MS lesions is used, and it may have an impact in assessing GMF differences between clinical cohorts.
Literature
1.
2.
Lassmann H (2008) The pathologic substrate of magnetic resonance alterations in multiple sclerosis. Neuroimaging Clin N Am 18(4):563–76CrossRefPubMed
3.
Filippi M, Rocca MA, Barkhof F, Brück W, Chen JT, Comi G et al (2012) Attendees of the correlation between pathological MRI findings in MS workshop. Association between pathological and MRI findings in multiple sclerosis. Lancet Neurol 11:349–60CrossRefPubMed
4.
Bermel RA, Bakshi R (2006) The measurement and clinical relevance of brain atrophy in multiple sclerosis. Lancet Neurol 5(2):158–70CrossRefPubMed
5.
Filippi M (2015) MRI measures of neurodegeneration in multiple sclerosis: implications for disability, disease monitoring, and treatment. J Neurol 262(1):1–6CrossRefPubMed
6.
De Stefano N, Airas L, Grigoriadis N, Mattle HP, O'Riordan J, Oreja-Guevara C et al (2014) Clinical relevance of brain volume measures in multiple sclerosis. CNS Drugs 28:147–56CrossRefPubMed
7.
Derakhshan M, Caramanos Z, Giacomini PS, Narayanan S, Maranzano J, Francis SJ, Arnold DL, Collins DL (2010) Evaluation of automated techniques for the quantification of grey matter atrophy in patients with multiple sclerosis. Neuroimage 52:1261–7CrossRefPubMed
8.
Chard DT, Jackson JS, Miller DH, Wheeler-Kingshott CA (2010) Reducing the impact of white matter lesions on automated measures of brain gray and white matter volumes. J Magn Reson Imaging 32:223–8CrossRefPubMed
9.
Schmidt P, Gaser C, Arsic M, Buck D, Förschler A, Berthele A et al (2012) An automated tool for detection of FLAIR-hyperintense white-matter lesions in multiple sclerosis. Neuroimage 59:3774–83CrossRefPubMed
10.
Maldjian JA, Whitlow CT, Saha BN, Kota G, Vandergriff C, Davenport EM et al (2013) Automated white matter total lesion volume segmentation in diabetes. AJNR Am J Neuroradiol 34:2265–70CrossRefPubMedPubMedCentral
11.
12.
13.
Gelineau-Morel R, Tomassini V, Jenkinson M, Johansen-Berg H, Matthews PM, Palace J (2012) The effect of hypointense white matter lesions on automated gray matter segmentation in multiple sclerosis. Hum Brain Mapp 33:2802–14CrossRefPubMed
Metadata
Title
Lesion filling effect in regional brain volume estimations: a study in multiple sclerosis patients with low lesion load
Authors
D Pareto
J Sastre-Garriga
F X Aymerich
C Auger
M Tintoré
X Montalban
A Rovira
Publication date
01-05-2016
Publisher
Springer Berlin Heidelberg
Published in
Neuroradiology / Issue 5/2016
Print ISSN: 0028-3940
Electronic ISSN: 1432-1920
DOI
https://doi.org/10.1007/s00234-016-1654-5

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