Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis: an evaluation of four automated methods against manual reference segmentations in a multi-center cohort

Alexandra de Sitter; Tom Verhoeven; Jessica Burggraaff; Yaou Liu; Jorge Simoes; Serena Ruggieri; Miklos Palotai; Iman Brouwer; Adriaan Versteeg; Viktor Wottschel; Stefan Ropele; Mara A. Rocca; Claudio Gasperini; Antonio Gallo; Marios C. Yiannakas; Alex Rovira; Christian Enzinger; Massimo Filippi; Nicola De Stefano; Ludwig Kappos; Jette L. Frederiksen; Bernard M.J. Uitdehaag; Frederik Barkhof; Charles R.G. Guttmann; Hugo Vrenken; the MAGNIMS Study Group

doi:10.1007/s00415-020-10023-1

Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis: an evaluation of four automated methods against manual reference segmentations in a multi-center cohort

Alexandra de Sitter^*, Tom Verhoeven, Jessica Burggraaff, Yaou Liu, Jorge Simoes, Serena Ruggieri, Miklos Palotai, Iman Brouwer, Adriaan Versteeg, Viktor Wottschel, Stefan Ropele, Mara A. Rocca, Claudio Gasperini, Antonio Gallo, Marios C. Yiannakas, Alex Rovira, Christian Enzinger, Massimo Filippi, Nicola De Stefano, Ludwig KapposJette L. Frederiksen, Bernard M.J. Uitdehaag, Frederik Barkhof, Charles R.G. Guttmann, Hugo Vrenken, the MAGNIMS Study Group

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Background: Deep grey matter (DGM) atrophy in multiple sclerosis (MS) and its relation to cognitive and clinical decline requires accurate measurements. MS pathology may deteriorate the performance of automated segmentation methods. Accuracy of DGM segmentation methods is compared between MS and controls, and the relation of performance with lesions and atrophy is studied. Methods: On images of 21 MS subjects and 11 controls, three raters manually outlined caudate nucleus, putamen and thalamus; outlines were combined by majority voting. FSL-FIRST, FreeSurfer, Geodesic Information Flow and volBrain were evaluated. Performance was evaluated volumetrically (intra-class correlation coefficient (ICC)) and spatially (Dice similarity coefficient (DSC)). Spearman's correlations of DSC with global and local lesion volume, structure of interest volume (ROIV), and normalized brain volume (NBV) were assessed. Results: ICC with manual volumes was mostly good and spatial agreement was high. MS exhibited significantly lower DSC than controls for thalamus and putamen. For some combinations of structure and method, DSC correlated negatively with lesion volume or positively with NBV or ROIV. Lesion-filling did not substantially change segmentations. Conclusions: Automated methods have impaired performance in patients. Performance generally deteriorated with higher lesion volume and lower NBV and ROIV, suggesting that these may contribute to the impaired performance.

Original language	English
Journal	Journal of Neurology
Volume	267
Issue number	12
Pages (from-to)	3541-3554
Number of pages	14
ISSN	0340-5354
DOIs	https://doi.org/10.1007/s00415-020-10023-1
Publication status	Published - 2020

Keywords

Atrophy
Automated segmentation methods
Deep grey matter
Multiple sclerosis

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Reduced accuracy of MRI deep grey matter segmentation in multipleFinal published version, 1.75 MBLicence: CC BY

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de Sitter, A., Verhoeven, T., Burggraaff, J., Liu, Y., Simoes, J., Ruggieri, S., Palotai, M., Brouwer, I., Versteeg, A., Wottschel, V., Ropele, S., Rocca, M. A., Gasperini, C., Gallo, A., Yiannakas, M. C., Rovira, A., Enzinger, C., Filippi, M., De Stefano, N., ... the MAGNIMS Study Group (2020). Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis: an evaluation of four automated methods against manual reference segmentations in a multi-center cohort. Journal of Neurology, 267(12), 3541-3554. https://doi.org/10.1007/s00415-020-10023-1

Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis : an evaluation of four automated methods against manual reference segmentations in a multi-center cohort. / de Sitter, Alexandra; Verhoeven, Tom; Burggraaff, Jessica; Liu, Yaou; Simoes, Jorge; Ruggieri, Serena; Palotai, Miklos; Brouwer, Iman; Versteeg, Adriaan; Wottschel, Viktor; Ropele, Stefan; Rocca, Mara A.; Gasperini, Claudio; Gallo, Antonio; Yiannakas, Marios C.; Rovira, Alex; Enzinger, Christian; Filippi, Massimo; De Stefano, Nicola; Kappos, Ludwig; Frederiksen, Jette L.; Uitdehaag, Bernard M.J.; Barkhof, Frederik; Guttmann, Charles R.G.; Vrenken, Hugo; the MAGNIMS Study Group.

In: Journal of Neurology, Vol. 267, No. 12, 2020, p. 3541-3554.

Research output: Contribution to journal › Journal article › Research › peer-review

de Sitter, A, Verhoeven, T, Burggraaff, J, Liu, Y, Simoes, J, Ruggieri, S, Palotai, M, Brouwer, I, Versteeg, A, Wottschel, V, Ropele, S, Rocca, MA, Gasperini, C, Gallo, A, Yiannakas, MC, Rovira, A, Enzinger, C, Filippi, M, De Stefano, N, Kappos, L, Frederiksen, JL, Uitdehaag, BMJ, Barkhof, F, Guttmann, CRG, Vrenken, H & the MAGNIMS Study Group 2020, 'Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis: an evaluation of four automated methods against manual reference segmentations in a multi-center cohort', Journal of Neurology, vol. 267, no. 12, pp. 3541-3554. https://doi.org/10.1007/s00415-020-10023-1

de Sitter, Alexandra ; Verhoeven, Tom ; Burggraaff, Jessica ; Liu, Yaou ; Simoes, Jorge ; Ruggieri, Serena ; Palotai, Miklos ; Brouwer, Iman ; Versteeg, Adriaan ; Wottschel, Viktor ; Ropele, Stefan ; Rocca, Mara A. ; Gasperini, Claudio ; Gallo, Antonio ; Yiannakas, Marios C. ; Rovira, Alex ; Enzinger, Christian ; Filippi, Massimo ; De Stefano, Nicola ; Kappos, Ludwig ; Frederiksen, Jette L. ; Uitdehaag, Bernard M.J. ; Barkhof, Frederik ; Guttmann, Charles R.G. ; Vrenken, Hugo ; the MAGNIMS Study Group. / Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis : an evaluation of four automated methods against manual reference segmentations in a multi-center cohort. In: Journal of Neurology. 2020 ; Vol. 267, No. 12. pp. 3541-3554.

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title = "Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis: an evaluation of four automated methods against manual reference segmentations in a multi-center cohort",

abstract = "Background: Deep grey matter (DGM) atrophy in multiple sclerosis (MS) and its relation to cognitive and clinical decline requires accurate measurements. MS pathology may deteriorate the performance of automated segmentation methods. Accuracy of DGM segmentation methods is compared between MS and controls, and the relation of performance with lesions and atrophy is studied. Methods: On images of 21 MS subjects and 11 controls, three raters manually outlined caudate nucleus, putamen and thalamus; outlines were combined by majority voting. FSL-FIRST, FreeSurfer, Geodesic Information Flow and volBrain were evaluated. Performance was evaluated volumetrically (intra-class correlation coefficient (ICC)) and spatially (Dice similarity coefficient (DSC)). Spearman's correlations of DSC with global and local lesion volume, structure of interest volume (ROIV), and normalized brain volume (NBV) were assessed. Results: ICC with manual volumes was mostly good and spatial agreement was high. MS exhibited significantly lower DSC than controls for thalamus and putamen. For some combinations of structure and method, DSC correlated negatively with lesion volume or positively with NBV or ROIV. Lesion-filling did not substantially change segmentations. Conclusions: Automated methods have impaired performance in patients. Performance generally deteriorated with higher lesion volume and lower NBV and ROIV, suggesting that these may contribute to the impaired performance.",

keywords = "Atrophy, Automated segmentation methods, Deep grey matter, Multiple sclerosis",

author = "{de Sitter}, Alexandra and Tom Verhoeven and Jessica Burggraaff and Yaou Liu and Jorge Simoes and Serena Ruggieri and Miklos Palotai and Iman Brouwer and Adriaan Versteeg and Viktor Wottschel and Stefan Ropele and Rocca, {Mara A.} and Claudio Gasperini and Antonio Gallo and Yiannakas, {Marios C.} and Alex Rovira and Christian Enzinger and Massimo Filippi and {De Stefano}, Nicola and Ludwig Kappos and Frederiksen, {Jette L.} and Uitdehaag, {Bernard M.J.} and Frederik Barkhof and Guttmann, {Charles R.G.} and Hugo Vrenken and {the MAGNIMS Study Group}",

year = "2020",

doi = "10.1007/s00415-020-10023-1",

language = "English",

volume = "267",

pages = "3541--3554",

journal = "Deutsche Zeitschrift fur Nervenheilkunde",

issn = "0939-1517",

publisher = "Springer Medizin",

number = "12",

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TY - JOUR

T1 - Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis

T2 - an evaluation of four automated methods against manual reference segmentations in a multi-center cohort

AU - de Sitter, Alexandra

AU - Verhoeven, Tom

AU - Burggraaff, Jessica

AU - Liu, Yaou

AU - Simoes, Jorge

AU - Ruggieri, Serena

AU - Palotai, Miklos

AU - Brouwer, Iman

AU - Versteeg, Adriaan

AU - Wottschel, Viktor

AU - Ropele, Stefan

AU - Rocca, Mara A.

AU - Gasperini, Claudio

AU - Gallo, Antonio

AU - Yiannakas, Marios C.

AU - Rovira, Alex

AU - Enzinger, Christian

AU - Filippi, Massimo

AU - De Stefano, Nicola

AU - Kappos, Ludwig

AU - Frederiksen, Jette L.

AU - Uitdehaag, Bernard M.J.

AU - Barkhof, Frederik

AU - Guttmann, Charles R.G.

AU - Vrenken, Hugo

AU - the MAGNIMS Study Group

PY - 2020

Y1 - 2020

N2 - Background: Deep grey matter (DGM) atrophy in multiple sclerosis (MS) and its relation to cognitive and clinical decline requires accurate measurements. MS pathology may deteriorate the performance of automated segmentation methods. Accuracy of DGM segmentation methods is compared between MS and controls, and the relation of performance with lesions and atrophy is studied. Methods: On images of 21 MS subjects and 11 controls, three raters manually outlined caudate nucleus, putamen and thalamus; outlines were combined by majority voting. FSL-FIRST, FreeSurfer, Geodesic Information Flow and volBrain were evaluated. Performance was evaluated volumetrically (intra-class correlation coefficient (ICC)) and spatially (Dice similarity coefficient (DSC)). Spearman's correlations of DSC with global and local lesion volume, structure of interest volume (ROIV), and normalized brain volume (NBV) were assessed. Results: ICC with manual volumes was mostly good and spatial agreement was high. MS exhibited significantly lower DSC than controls for thalamus and putamen. For some combinations of structure and method, DSC correlated negatively with lesion volume or positively with NBV or ROIV. Lesion-filling did not substantially change segmentations. Conclusions: Automated methods have impaired performance in patients. Performance generally deteriorated with higher lesion volume and lower NBV and ROIV, suggesting that these may contribute to the impaired performance.

AB - Background: Deep grey matter (DGM) atrophy in multiple sclerosis (MS) and its relation to cognitive and clinical decline requires accurate measurements. MS pathology may deteriorate the performance of automated segmentation methods. Accuracy of DGM segmentation methods is compared between MS and controls, and the relation of performance with lesions and atrophy is studied. Methods: On images of 21 MS subjects and 11 controls, three raters manually outlined caudate nucleus, putamen and thalamus; outlines were combined by majority voting. FSL-FIRST, FreeSurfer, Geodesic Information Flow and volBrain were evaluated. Performance was evaluated volumetrically (intra-class correlation coefficient (ICC)) and spatially (Dice similarity coefficient (DSC)). Spearman's correlations of DSC with global and local lesion volume, structure of interest volume (ROIV), and normalized brain volume (NBV) were assessed. Results: ICC with manual volumes was mostly good and spatial agreement was high. MS exhibited significantly lower DSC than controls for thalamus and putamen. For some combinations of structure and method, DSC correlated negatively with lesion volume or positively with NBV or ROIV. Lesion-filling did not substantially change segmentations. Conclusions: Automated methods have impaired performance in patients. Performance generally deteriorated with higher lesion volume and lower NBV and ROIV, suggesting that these may contribute to the impaired performance.

KW - Atrophy

KW - Automated segmentation methods

KW - Deep grey matter

KW - Multiple sclerosis

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U2 - 10.1007/s00415-020-10023-1

DO - 10.1007/s00415-020-10023-1

M3 - Journal article

C2 - 32621103

AN - SCOPUS:85087420490

VL - 267

SP - 3541

EP - 3554

JO - Deutsche Zeitschrift fur Nervenheilkunde

JF - Deutsche Zeitschrift fur Nervenheilkunde

SN - 0939-1517

IS - 12

ER -

Reduced accuracy of MRI deep grey matter segmentation in multiple sclerosis: an evaluation of four automated methods against manual reference segmentations in a multi-center cohort

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Keywords

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