Automatic segmentation of cerebral infarcts in follow-up computed tomography images with convolutional neural networks

Renan Sales Barros; Manon L. Tolhuisen; Anna M.M. Boers; Ivo Jansen; Elena Ponomareva; Diederik W.J. Dippel; Aad Van Der Lugt; Robert J. Van Oostenbrugge; Wim H. Van Zwam; Olvert A. Berkhemer; Mayank Goyal; Andrew M. Demchuk; Bijoy K. Menon; Peter Mitchell; Michael D. Hill; Tudor G. Jovin; Antoni Davalos; Bruce C.V. Campbell; Jeffrey L. Saver; Yvo B.W.E.M. Roos; Keith W. Muir; Phil White; Serge Bracard; Francis Guillemin; Silvia Delgado Olabarriaga; Charles B.L.M. Majoie; Henk A. Marquering

doi:10.1136/neurintsurg-2019-015471

Automatic segmentation of cerebral infarcts in follow-up computed tomography images with convolutional neural networks

Renan Sales Barros
, Manon L. Tolhuisen
, Anna M.M. Boers
, Ivo Jansen
, Elena Ponomareva
, Diederik W.J. Dippel
, Aad Van Der Lugt
, Robert J. Van Oostenbrugge
, Wim H. Van Zwam
, Olvert A. Berkhemer
, Mayank Goyal
, Andrew M. Demchuk
, Bijoy K. Menon
, Peter Mitchell
, Michael D. Hill
, Tudor G. Jovin
, Antoni Davalos
, Bruce C.V. Campbell
, Jeffrey L. Saver
, Yvo B.W.E.M. Roos

Keith W. Muir, Phil White, Serge Bracard, Francis Guillemin, Silvia Delgado Olabarriaga, Charles B.L.M. Majoie, Henk A. Marquering^*

^*Corresponding author for this work

Amsterdam University Medical Centers
Nico-lab
Erasmus MC
Maastricht University
Maastricht University Medical Center
Maastricht University
University of Calgary
Royal Melbourne Hospital
University of Pittsburgh
Hospital Universitari Germans Trias i Pujol
University of Melbourne
David Geffen School of Medicine at UCLA
University of Glasgow
Newcastle University
Newcastle upon Tyne Hospitals
Inserm

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

Background and purpose Infarct volume is a valuable outcome measure in treatment trials of acute ischemic stroke and is strongly associated with functional outcome. Its manual volumetric assessment is, however, too demanding to be implemented in clinical practice. Objective To assess the value of convolutional neural networks (CNNs) in the automatic segmentation of infarct volume in follow-up CT images in a large population of patients with acute ischemic stroke. Materials and methods We included CT images of 1026 patients from a large pooling of patients with acute ischemic stroke. A reference standard for the infarct segmentation was generated by manual delineation. We introduce three CNN models for the segmentation of subtle, intermediate, and severe hypodense lesions. The fully automated infarct segmentation was defined as the combination of the results of these three CNNs. The results of the three-CNNs approach were compared with the results from a single CNN approach and with the reference standard segmentations. Results The median infarct volume was 48 mL (IQR 15-125 mL). Comparison between the volumes of the three-CNNs approach and manually delineated infarct volumes showed excellent agreement, with an intraclass correlation coefficient (ICC) of 0.88. Even better agreement was found for severe and intermediate hypodense infarcts, with ICCs of 0.98 and 0.93, respectively. Although the number of patients used for training in the single CNN approach was much larger, the accuracy of the three-CNNs approach strongly outperformed the single CNN approach, which had an ICC of 0.34. Conclusion Convolutional neural networks are valuable and accurate in the quantitative assessment of infarct volumes, for both subtle and severe hypodense infarcts in follow-up CT images. Our proposed three-CNNs approach strongly outperforms a more straightforward single CNN approach.

Original language	English
Pages (from-to)	848-852
Number of pages	5
Journal	Journal of NeuroInterventional Surgery
Volume	12
Issue number	9
DOIs	https://doi.org/10.1136/neurintsurg-2019-015471
State	Published - 1 Sep 2020
Externally published	Yes

Keywords

CT
stroke
technique
thrombectomy

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Barros, R. S., Tolhuisen, M. L., Boers, A. M. M., Jansen, I., Ponomareva, E., Dippel, D. W. J., Van Der Lugt, A., Van Oostenbrugge, R. J., Van Zwam, W. H., Berkhemer, O. A., Goyal, M., Demchuk, A. M., Menon, B. K., Mitchell, P., Hill, M. D., Jovin, T. G., Davalos, A., Campbell, B. C. V., Saver, J. L., ... Marquering, H. A. (2020). Automatic segmentation of cerebral infarcts in follow-up computed tomography images with convolutional neural networks. Journal of NeuroInterventional Surgery, 12(9), 848-852. https://doi.org/10.1136/neurintsurg-2019-015471

@article{aa3206aec86d4f5ebd65386a58f66225,

title = "Automatic segmentation of cerebral infarcts in follow-up computed tomography images with convolutional neural networks",

abstract = "Background and purpose Infarct volume is a valuable outcome measure in treatment trials of acute ischemic stroke and is strongly associated with functional outcome. Its manual volumetric assessment is, however, too demanding to be implemented in clinical practice. Objective To assess the value of convolutional neural networks (CNNs) in the automatic segmentation of infarct volume in follow-up CT images in a large population of patients with acute ischemic stroke. Materials and methods We included CT images of 1026 patients from a large pooling of patients with acute ischemic stroke. A reference standard for the infarct segmentation was generated by manual delineation. We introduce three CNN models for the segmentation of subtle, intermediate, and severe hypodense lesions. The fully automated infarct segmentation was defined as the combination of the results of these three CNNs. The results of the three-CNNs approach were compared with the results from a single CNN approach and with the reference standard segmentations. Results The median infarct volume was 48 mL (IQR 15-125 mL). Comparison between the volumes of the three-CNNs approach and manually delineated infarct volumes showed excellent agreement, with an intraclass correlation coefficient (ICC) of 0.88. Even better agreement was found for severe and intermediate hypodense infarcts, with ICCs of 0.98 and 0.93, respectively. Although the number of patients used for training in the single CNN approach was much larger, the accuracy of the three-CNNs approach strongly outperformed the single CNN approach, which had an ICC of 0.34. Conclusion Convolutional neural networks are valuable and accurate in the quantitative assessment of infarct volumes, for both subtle and severe hypodense infarcts in follow-up CT images. Our proposed three-CNNs approach strongly outperforms a more straightforward single CNN approach.",

keywords = "CT, stroke, technique, thrombectomy",

author = "Barros, \{Renan Sales\} and Tolhuisen, \{Manon L.\} and Boers, \{Anna M.M.\} and Ivo Jansen and Elena Ponomareva and Dippel, \{Diederik W.J.\} and \{Van Der Lugt\}, Aad and \{Van Oostenbrugge\}, \{Robert J.\} and \{Van Zwam\}, \{Wim H.\} and Berkhemer, \{Olvert A.\} and Mayank Goyal and Demchuk, \{Andrew M.\} and Menon, \{Bijoy K.\} and Peter Mitchell and Hill, \{Michael D.\} and Jovin, \{Tudor G.\} and Antoni Davalos and Campbell, \{Bruce C.V.\} and Saver, \{Jeffrey L.\} and Roos, \{Yvo B.W.E.M.\} and Muir, \{Keith W.\} and Phil White and Serge Bracard and Francis Guillemin and Olabarriaga, \{Silvia Delgado\} and Majoie, \{Charles B.L.M.\} and Marquering, \{Henk A.\}",

note = "Publisher Copyright: {\textcopyright} Author(s) (or their employer(s)) 2020. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.",

year = "2020",

month = sep,

day = "1",

doi = "10.1136/neurintsurg-2019-015471",

language = "Ingl{\'e}s",

volume = "12",

pages = "848--852",

journal = "Journal of NeuroInterventional Surgery",

issn = "1759-8478",

publisher = "BMJ Publishing Group",

number = "9",

}

Barros, RS, Tolhuisen, ML, Boers, AMM, Jansen, I, Ponomareva, E, Dippel, DWJ, Van Der Lugt, A, Van Oostenbrugge, RJ, Van Zwam, WH, Berkhemer, OA, Goyal, M, Demchuk, AM, Menon, BK, Mitchell, P, Hill, MD, Jovin, TG, Davalos, A, Campbell, BCV, Saver, JL, Roos, YBWEM, Muir, KW, White, P, Bracard, S, Guillemin, F, Olabarriaga, SD, Majoie, CBLM & Marquering, HA 2020, 'Automatic segmentation of cerebral infarcts in follow-up computed tomography images with convolutional neural networks', Journal of NeuroInterventional Surgery, vol. 12, no. 9, pp. 848-852. https://doi.org/10.1136/neurintsurg-2019-015471

TY - JOUR

T1 - Automatic segmentation of cerebral infarcts in follow-up computed tomography images with convolutional neural networks

AU - Barros, Renan Sales

AU - Tolhuisen, Manon L.

AU - Boers, Anna M.M.

AU - Jansen, Ivo

AU - Ponomareva, Elena

AU - Dippel, Diederik W.J.

AU - Van Der Lugt, Aad

AU - Van Oostenbrugge, Robert J.

AU - Van Zwam, Wim H.

AU - Berkhemer, Olvert A.

AU - Goyal, Mayank

AU - Demchuk, Andrew M.

AU - Menon, Bijoy K.

AU - Mitchell, Peter

AU - Hill, Michael D.

AU - Jovin, Tudor G.

AU - Davalos, Antoni

AU - Campbell, Bruce C.V.

AU - Saver, Jeffrey L.

AU - Roos, Yvo B.W.E.M.

AU - Muir, Keith W.

AU - White, Phil

AU - Bracard, Serge

AU - Guillemin, Francis

AU - Olabarriaga, Silvia Delgado

AU - Majoie, Charles B.L.M.

AU - Marquering, Henk A.

PY - 2020/9/1

Y1 - 2020/9/1

N2 - Background and purpose Infarct volume is a valuable outcome measure in treatment trials of acute ischemic stroke and is strongly associated with functional outcome. Its manual volumetric assessment is, however, too demanding to be implemented in clinical practice. Objective To assess the value of convolutional neural networks (CNNs) in the automatic segmentation of infarct volume in follow-up CT images in a large population of patients with acute ischemic stroke. Materials and methods We included CT images of 1026 patients from a large pooling of patients with acute ischemic stroke. A reference standard for the infarct segmentation was generated by manual delineation. We introduce three CNN models for the segmentation of subtle, intermediate, and severe hypodense lesions. The fully automated infarct segmentation was defined as the combination of the results of these three CNNs. The results of the three-CNNs approach were compared with the results from a single CNN approach and with the reference standard segmentations. Results The median infarct volume was 48 mL (IQR 15-125 mL). Comparison between the volumes of the three-CNNs approach and manually delineated infarct volumes showed excellent agreement, with an intraclass correlation coefficient (ICC) of 0.88. Even better agreement was found for severe and intermediate hypodense infarcts, with ICCs of 0.98 and 0.93, respectively. Although the number of patients used for training in the single CNN approach was much larger, the accuracy of the three-CNNs approach strongly outperformed the single CNN approach, which had an ICC of 0.34. Conclusion Convolutional neural networks are valuable and accurate in the quantitative assessment of infarct volumes, for both subtle and severe hypodense infarcts in follow-up CT images. Our proposed three-CNNs approach strongly outperforms a more straightforward single CNN approach.

AB - Background and purpose Infarct volume is a valuable outcome measure in treatment trials of acute ischemic stroke and is strongly associated with functional outcome. Its manual volumetric assessment is, however, too demanding to be implemented in clinical practice. Objective To assess the value of convolutional neural networks (CNNs) in the automatic segmentation of infarct volume in follow-up CT images in a large population of patients with acute ischemic stroke. Materials and methods We included CT images of 1026 patients from a large pooling of patients with acute ischemic stroke. A reference standard for the infarct segmentation was generated by manual delineation. We introduce three CNN models for the segmentation of subtle, intermediate, and severe hypodense lesions. The fully automated infarct segmentation was defined as the combination of the results of these three CNNs. The results of the three-CNNs approach were compared with the results from a single CNN approach and with the reference standard segmentations. Results The median infarct volume was 48 mL (IQR 15-125 mL). Comparison between the volumes of the three-CNNs approach and manually delineated infarct volumes showed excellent agreement, with an intraclass correlation coefficient (ICC) of 0.88. Even better agreement was found for severe and intermediate hypodense infarcts, with ICCs of 0.98 and 0.93, respectively. Although the number of patients used for training in the single CNN approach was much larger, the accuracy of the three-CNNs approach strongly outperformed the single CNN approach, which had an ICC of 0.34. Conclusion Convolutional neural networks are valuable and accurate in the quantitative assessment of infarct volumes, for both subtle and severe hypodense infarcts in follow-up CT images. Our proposed three-CNNs approach strongly outperforms a more straightforward single CNN approach.

KW - CT

KW - stroke

KW - technique

KW - thrombectomy

UR - https://www.scopus.com/pages/publications/85077045654

U2 - 10.1136/neurintsurg-2019-015471

DO - 10.1136/neurintsurg-2019-015471

M3 - Artículo

C2 - 31871069

AN - SCOPUS:85077045654

SN - 1759-8478

VL - 12

SP - 848

EP - 852

JO - Journal of NeuroInterventional Surgery

JF - Journal of NeuroInterventional Surgery

IS - 9

ER -

Automatic segmentation of cerebral infarcts in follow-up computed tomography images with convolutional neural networks

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Keywords

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