Difference between revisions of "Publications/wang.19.tmi"
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| journal = IEEE Transactions on Medical Imaging |
| journal = IEEE Transactions on Medical Imaging |
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| title = Benchmark on Automatic 6-month-old Infant Brain Segmentation Algorithms: The iSeg-2017 Challenge |
| title = Benchmark on Automatic 6-month-old Infant Brain Segmentation Algorithms: The iSeg-2017 Challenge |
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| − | | pages = |
+ | | pages = 2219 to 2230 |
| + | | volume = 38 |
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| + | | number = 9 |
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| abstract = Accurate segmentation of infant brain magnetic resonance (MR) images into white matter (WM), gray matter (GM), and cerebrospinal fluid (CSF) is an indispensable foundation for early studying of brain growth patterns and morphological changes in neurodevelopmental disorders. Nevertheless, in the isointense phase (approximately 6-9 months of age), due to inherent myelination and maturation process, WM and GM exhibit similar levels of intensity in both T1-weighted (T1w) and T2-weighted (T2w) MR imagesmaking tissue segmentation very challenging. Despite many efforts were devoted to brain segmentation, only few studies have focused on the segmentation of 6-month infant brain images. With the idea of boosting methodological development in the community, iSeg-2017 challenge (http://iseg2017.web.unc.edu) provides a set of 6-month infant subjects with manual labels for training and testing the participating methods. Among the 21 automatic segmentation methods participating in iSeg-2017, we review the 8 top-ranked teams, in terms of Dice ratio, modified Hausdorff distance and average surface distance, and introduce their pipelines, implementations, as well as source codes. We further discuss limitations and possible future directions. We hope the dataset in iSeg-2017 and this review article could provide insights into methodological development for the community. |
| abstract = Accurate segmentation of infant brain magnetic resonance (MR) images into white matter (WM), gray matter (GM), and cerebrospinal fluid (CSF) is an indispensable foundation for early studying of brain growth patterns and morphological changes in neurodevelopmental disorders. Nevertheless, in the isointense phase (approximately 6-9 months of age), due to inherent myelination and maturation process, WM and GM exhibit similar levels of intensity in both T1-weighted (T1w) and T2-weighted (T2w) MR imagesmaking tissue segmentation very challenging. Despite many efforts were devoted to brain segmentation, only few studies have focused on the segmentation of 6-month infant brain images. With the idea of boosting methodological development in the community, iSeg-2017 challenge (http://iseg2017.web.unc.edu) provides a set of 6-month infant subjects with manual labels for training and testing the participating methods. Among the 21 automatic segmentation methods participating in iSeg-2017, we review the 8 top-ranked teams, in terms of Dice ratio, modified Hausdorff distance and average surface distance, and introduce their pipelines, implementations, as well as source codes. We further discuss limitations and possible future directions. We hope the dataset in iSeg-2017 and this review article could provide insights into methodological development for the community. |
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| None = Image segmentation; Magnetic resonance imaging; Manuals; Pediatrics; Biomedical imaging; Testing; White matter |
| None = Image segmentation; Magnetic resonance imaging; Manuals; Pediatrics; Biomedical imaging; Testing; White matter |
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| − | | note = Early access |
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| lrdeprojects = Olena |
| lrdeprojects = Olena |
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| lrdenewsdate = 2019-04-11 |
| lrdenewsdate = 2019-04-11 |
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| type = article |
| type = article |
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| id = wang.19.tmi |
| id = wang.19.tmi |
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| + | | identifier = doi:10.1109/TMI.2019.2901712 |
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| bibtex = |
| bibtex = |
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@Article<nowiki>{</nowiki> wang.19.tmi, |
@Article<nowiki>{</nowiki> wang.19.tmi, |
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Segmentation Algorithms: <nowiki>{</nowiki>T<nowiki>}</nowiki>he <nowiki>{</nowiki>iSeg<nowiki>}</nowiki>-2017 Challenge<nowiki>}</nowiki>, |
Segmentation Algorithms: <nowiki>{</nowiki>T<nowiki>}</nowiki>he <nowiki>{</nowiki>iSeg<nowiki>}</nowiki>-2017 Challenge<nowiki>}</nowiki>, |
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year = <nowiki>{</nowiki>2019<nowiki>}</nowiki>, |
year = <nowiki>{</nowiki>2019<nowiki>}</nowiki>, |
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| + | month = sep, |
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| − | pages = <nowiki>{</nowiki> |
+ | pages = <nowiki>{</nowiki>2219--2230<nowiki>}</nowiki>, |
| + | volume = <nowiki>{</nowiki>38<nowiki>}</nowiki>, |
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| + | number = <nowiki>{</nowiki>9<nowiki>}</nowiki>, |
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abstract = <nowiki>{</nowiki>Accurate segmentation of infant brain magnetic resonance |
abstract = <nowiki>{</nowiki>Accurate segmentation of infant brain magnetic resonance |
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(MR) images into white matter (WM), gray matter (GM), and |
(MR) images into white matter (WM), gray matter (GM), and |
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keywords = <nowiki>{</nowiki>Image segmentation; Magnetic resonance imaging; Manuals; |
keywords = <nowiki>{</nowiki>Image segmentation; Magnetic resonance imaging; Manuals; |
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Pediatrics; Biomedical imaging; Testing; White matter<nowiki>}</nowiki>, |
Pediatrics; Biomedical imaging; Testing; White matter<nowiki>}</nowiki>, |
||
| − | + | doi = <nowiki>{</nowiki>10.1109/TMI.2019.2901712<nowiki>}</nowiki> |
|
<nowiki>}</nowiki> |
<nowiki>}</nowiki> |
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Latest revision as of 17:01, 27 May 2021
- Authors
- Li Wang, Dong Nie, Guannan Li, Élodie Puybareau, Jose Dolz, Qian Zhang, Fan Wang, Jing Xia, Zhengwang Wu, Jiawei Chen, Kim-Han Thung, Toan Duc Bui, Jitae Shin, Guodong Zeng, Guoyan Zheng, Vladimir S Fonov, Andrew Doyle, Yongchao Xu, Pim Moeskops, Josien P W Pluim, Christian Desrosiers, Ismail Ben Ayed, Gerard Sanroma, Oualid M Benkarim, Adrià Casamitjana, Verónica Vilaplana, Weili Lin, Gang Li, Dinggang Shen
- Journal
- IEEE Transactions on Medical Imaging
- Type
- article
- Projects
- Olena
- Date
- 2019-04-11
Abstract
Accurate segmentation of infant brain magnetic resonance (MR) images into white matter (WM), gray matter (GM), and cerebrospinal fluid (CSF) is an indispensable foundation for early studying of brain growth patterns and morphological changes in neurodevelopmental disorders. Nevertheless, in the isointense phase (approximately 6-9 months of age), due to inherent myelination and maturation process, WM and GM exhibit similar levels of intensity in both T1-weighted (T1w) and T2-weighted (T2w) MR imagesmaking tissue segmentation very challenging. Despite many efforts were devoted to brain segmentation, only few studies have focused on the segmentation of 6-month infant brain images. With the idea of boosting methodological development in the community, iSeg-2017 challenge (http://iseg2017.web.unc.edu) provides a set of 6-month infant subjects with manual labels for training and testing the participating methods. Among the 21 automatic segmentation methods participating in iSeg-2017, we review the 8 top-ranked teams, in terms of Dice ratio, modified Hausdorff distance and average surface distance, and introduce their pipelines, implementations, as well as source codes. We further discuss limitations and possible future directions. We hope the dataset in iSeg-2017 and this review article could provide insights into methodological development for the community.
Bibtex (lrde.bib)
@Article{ wang.19.tmi,
author = {Li Wang and Dong Nie and Guannan Li and \'{E}lodie
Puybareau and Jose Dolz and Qian Zhang and Fan Wang and
Jing Xia and Zhengwang Wu and Jiawei Chen and Kim-Han Thung
and Toan Duc Bui and Jitae Shin and Guodong Zeng and Guoyan
Zheng and Vladimir S. Fonov and Andrew Doyle and Yongchao
Xu and Pim Moeskops and Josien P.W. Pluim and Christian
Desrosiers and Ismail Ben Ayed and Gerard Sanroma and
Oualid M. Benkarim and Adri\`{a} Casamitjana and
Ver\'{o}nica Vilaplana and Weili Lin and Gang Li and
Dinggang Shen},
journal = {IEEE Transactions on Medical Imaging},
title = {Benchmark on Automatic 6-month-old Infant Brain
Segmentation Algorithms: {T}he {iSeg}-2017 Challenge},
year = {2019},
month = sep,
pages = {2219--2230},
volume = {38},
number = {9},
abstract = {Accurate segmentation of infant brain magnetic resonance
(MR) images into white matter (WM), gray matter (GM), and
cerebrospinal fluid (CSF) is an indispensable foundation
for early studying of brain growth patterns and
morphological changes in neurodevelopmental disorders.
Nevertheless, in the isointense phase (approximately 6-9
months of age), due to inherent myelination and maturation
process, WM and GM exhibit similar levels of intensity in
both T1-weighted (T1w) and T2-weighted (T2w) MR images,
making tissue segmentation very challenging. Despite many
efforts were devoted to brain segmentation, only few
studies have focused on the segmentation of 6-month infant
brain images. With the idea of boosting methodological
development in the community, iSeg-2017 challenge
(http://iseg2017.web.unc.edu) provides a set of 6-month
infant subjects with manual labels for training and testing
the participating methods. Among the 21 automatic
segmentation methods participating in iSeg-2017, we review
the 8 top-ranked teams, in terms of Dice ratio, modified
Hausdorff distance and average surface distance, and
introduce their pipelines, implementations, as well as
source codes. We further discuss limitations and possible
future directions. We hope the dataset in iSeg-2017 and
this review article could provide insights into
methodological development for the community.},
keywords = {Image segmentation; Magnetic resonance imaging; Manuals;
Pediatrics; Biomedical imaging; Testing; White matter},
doi = {10.1109/TMI.2019.2901712}
}