A large, curated, open-source stroke neuroimaging dataset to improve lesion segmentation algorithms

Sook Lei Liew; Bethany P. Lo; Miranda R. Donnelly; Artemis Zavaliangos-Petropulu; Jessica N. Jeong; Giuseppe Barisano; Alexandre Hutton; Julia P. Simon; Julia M. Juliano; Anisha Suri; Zhizhuo Wang; Aisha Abdullah; Jun Kim; Tyler Ard; Nerisa Banaj; Michael R. Borich; Lara A. Boyd; Amy Brodtmann; Cathrin M. Buetefisch; Lei Cao; Jessica M. Cassidy; Valentina Ciullo; Adriana B. Conforto; Steven C. Cramer; Rosalia Dacosta-Aguayo; Ezequiel de la Rosa; Martin Domin; Adrienne N. Dula; Wuwei Feng; Alexandre R. Franco; Fatemeh Geranmayeh; Alexandre Gramfort; Chris M. Gregory; Colleen A. Hanlon; Brenton G. Hordacre; Steven A. Kautz; Mohamed Salah Khlif; Hosung Kim; Jan S. Kirschke; Jingchun Liu; Martin Lotze; Bradley J. MacIntosh; Maria Mataró; Feroze B. Mohamed; Jan E. Nordvik; Gilsoon Park; Amy Pienta; Fabrizio Piras; Shane M. Redman; Kate P. Revill; Mauricio Reyes; Andrew D. Robertson; Na Jin Seo; Surjo R. Soekadar; Gianfranco Spalletta; Alison Sweet; Maria Telenczuk; Gregory Thielman; Lars T. Westlye; Carolee J. Winstein; George F. Wittenberg; Kristin A. Wong; Chunshui Yu

doi:10.1038/s41597-022-01401-7

A large, curated, open-source stroke neuroimaging dataset to improve lesion segmentation algorithms

Sook Lei Liew
, Bethany P. Lo
, Miranda R. Donnelly
, Artemis Zavaliangos-Petropulu
, Jessica N. Jeong
, Giuseppe Barisano
, Alexandre Hutton
, Julia P. Simon
, Julia M. Juliano
, Anisha Suri
, Zhizhuo Wang
, Aisha Abdullah
, Jun Kim
, Tyler Ard
, Nerisa Banaj
, Michael R. Borich
, Lara A. Boyd
, Amy Brodtmann
, Cathrin M. Buetefisch
, Lei Cao

Jessica M. Cassidy, Valentina Ciullo, Adriana B. Conforto, Steven C. Cramer, Rosalia Dacosta-Aguayo, Ezequiel de la Rosa, Martin Domin, Adrienne N. Dula, Wuwei Feng, Alexandre R. Franco, Fatemeh Geranmayeh, Alexandre Gramfort, Chris M. Gregory, Colleen A. Hanlon, Brenton G. Hordacre, Steven A. Kautz, Mohamed Salah Khlif, Hosung Kim, Jan S. Kirschke, Jingchun Liu, Martin Lotze, Bradley J. MacIntosh, Maria Mataró, Feroze B. Mohamed, Jan E. Nordvik, Gilsoon Park, Amy Pienta, Fabrizio Piras, Shane M. Redman, Kate P. Revill, Mauricio Reyes, Andrew D. Robertson, Na Jin Seo, Surjo R. Soekadar, Gianfranco Spalletta, Alison Sweet, Maria Telenczuk, Gregory Thielman, Lars T. Westlye, Carolee J. Winstein, George F. Wittenberg, Kristin A. Wong, Chunshui Yu

Professur für Neuroradiologie

University of Southern California
Keck School of Medicine of USC
University of Pittsburgh
Santa Lucia Foundation
Emory University School of Medicine
University of British Columbia
University of Melbourne
Child Mind Institute, Inc.
University of North Carolina
University of São Paulo
Hospital Israelita Albert-Einstein
David Geffen School of Medicine at UCLA
Universitat de Barcelona
Icometrix NV
Technische Universität München
University Medicine Greifswald
The University of Texas at Austin Dell Medical School
Duke University School of Medicine
Nathan S. Kline Institute for Psychiatric Research
New York University (NYU)
Imperial College London
University Paris-Sud
Medical University of South Carolina
Wake Forest School of Medicine
University of South Australia
Ralph H. Johnson VA Medical Center
The Florey Institute of Neuroscience and Mental Health
Tianjin Medical University
University of Toronto Faculty of Medicine
Hurvitz Brain Sciences Program
Institut de Recerca Sant Joan de Déu
Jefferson Magnetic Resonance Imaging Center
CatoSenteret Rehabilitation Center
Oslo Metropolitan University
University of Michigan, Ann Arbor
Emory University
University of Bern, Faculty of Medicine
Schlegel-University of Waterloo Research Institute for Aging
Sunnybrook Research Institute
Charité – Universitätsmedizin Berlin
Baylor College of Medicine
Saint Joseph's University, United States
University of Oslo
Oslo University Hospital
University of Southern California
Department of Veterans Affairs
University of Pittsburgh School of Medicine

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

142 Zitate (Scopus)

Abstract

Accurate lesion segmentation is critical in stroke rehabilitation research for the quantification of lesion burden and accurate image processing. Current automated lesion segmentation methods for T1-weighted (T1w) MRIs, commonly used in stroke research, lack accuracy and reliability. Manual segmentation remains the gold standard, but it is time-consuming, subjective, and requires neuroanatomical expertise. We previously released an open-source dataset of stroke T1w MRIs and manually-segmented lesion masks (ATLAS v1.2, N = 304) to encourage the development of better algorithms. However, many methods developed with ATLAS v1.2 report low accuracy, are not publicly accessible or are improperly validated, limiting their utility to the field. Here we present ATLAS v2.0 (N = 1271), a larger dataset of T1w MRIs and manually segmented lesion masks that includes training (n = 655), test (hidden masks, n = 300), and generalizability (hidden MRIs and masks, n = 316) datasets. Algorithm development using this larger sample should lead to more robust solutions; the hidden datasets allow for unbiased performance evaluation via segmentation challenges. We anticipate that ATLAS v2.0 will lead to improved algorithms, facilitating large-scale stroke research.

Originalsprache	Englisch
Aufsatznummer	320
Fachzeitschrift	Scientific Data
Jahrgang	9
Ausgabenummer	1
DOIs	https://doi.org/10.1038/s41597-022-01401-7
Publikationsstatus	Veröffentlicht - Dez. 2022

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10.1038/s41597-022-01401-7

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Liew, S. L., Lo, B. P., Donnelly, M. R., Zavaliangos-Petropulu, A., Jeong, J. N., Barisano, G., Hutton, A., Simon, J. P., Juliano, J. M., Suri, A., Wang, Z., Abdullah, A., Kim, J., Ard, T., Banaj, N., Borich, M. R., Boyd, L. A., Brodtmann, A., Buetefisch, C. M., ... Yu, C. (2022). A large, curated, open-source stroke neuroimaging dataset to improve lesion segmentation algorithms. Scientific Data, 9(1), Artikel 320. https://doi.org/10.1038/s41597-022-01401-7

@article{f2a6a7b093e54647a7c7968ee241e16f,

title = "A large, curated, open-source stroke neuroimaging dataset to improve lesion segmentation algorithms",

abstract = "Accurate lesion segmentation is critical in stroke rehabilitation research for the quantification of lesion burden and accurate image processing. Current automated lesion segmentation methods for T1-weighted (T1w) MRIs, commonly used in stroke research, lack accuracy and reliability. Manual segmentation remains the gold standard, but it is time-consuming, subjective, and requires neuroanatomical expertise. We previously released an open-source dataset of stroke T1w MRIs and manually-segmented lesion masks (ATLAS v1.2, N = 304) to encourage the development of better algorithms. However, many methods developed with ATLAS v1.2 report low accuracy, are not publicly accessible or are improperly validated, limiting their utility to the field. Here we present ATLAS v2.0 (N = 1271), a larger dataset of T1w MRIs and manually segmented lesion masks that includes training (n = 655), test (hidden masks, n = 300), and generalizability (hidden MRIs and masks, n = 316) datasets. Algorithm development using this larger sample should lead to more robust solutions; the hidden datasets allow for unbiased performance evaluation via segmentation challenges. We anticipate that ATLAS v2.0 will lead to improved algorithms, facilitating large-scale stroke research.",

author = "Liew, \{Sook Lei\} and Lo, \{Bethany P.\} and Donnelly, \{Miranda R.\} and Artemis Zavaliangos-Petropulu and Jeong, \{Jessica N.\} and Giuseppe Barisano and Alexandre Hutton and Simon, \{Julia P.\} and Juliano, \{Julia M.\} and Anisha Suri and Zhizhuo Wang and Aisha Abdullah and Jun Kim and Tyler Ard and Nerisa Banaj and Borich, \{Michael R.\} and Boyd, \{Lara A.\} and Amy Brodtmann and Buetefisch, \{Cathrin M.\} and Lei Cao and Cassidy, \{Jessica M.\} and Valentina Ciullo and Conforto, \{Adriana B.\} and Cramer, \{Steven C.\} and Rosalia Dacosta-Aguayo and \{de la Rosa\}, Ezequiel and Martin Domin and Dula, \{Adrienne N.\} and Wuwei Feng and Franco, \{Alexandre R.\} and Fatemeh Geranmayeh and Alexandre Gramfort and Gregory, \{Chris M.\} and Hanlon, \{Colleen A.\} and Hordacre, \{Brenton G.\} and Kautz, \{Steven A.\} and Khlif, \{Mohamed Salah\} and Hosung Kim and Kirschke, \{Jan S.\} and Jingchun Liu and Martin Lotze and MacIntosh, \{Bradley J.\} and Maria Matar{\'o} and Mohamed, \{Feroze B.\} and Nordvik, \{Jan E.\} and Gilsoon Park and Amy Pienta and Fabrizio Piras and Redman, \{Shane M.\} and Revill, \{Kate P.\} and Mauricio Reyes and Robertson, \{Andrew D.\} and Seo, \{Na Jin\} and Soekadar, \{Surjo R.\} and Gianfranco Spalletta and Alison Sweet and Maria Telenczuk and Gregory Thielman and Westlye, \{Lars T.\} and Winstein, \{Carolee J.\} and Wittenberg, \{George F.\} and Wong, \{Kristin A.\} and Chunshui Yu",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41597-022-01401-7",

language = "English",

volume = "9",

journal = "Scientific Data",

issn = "2052-4463",

publisher = "Nature Research",

number = "1",

}

Liew, SL, Lo, BP, Donnelly, MR, Zavaliangos-Petropulu, A, Jeong, JN, Barisano, G, Hutton, A, Simon, JP, Juliano, JM, Suri, A, Wang, Z, Abdullah, A, Kim, J, Ard, T, Banaj, N, Borich, MR, Boyd, LA, Brodtmann, A, Buetefisch, CM, Cao, L, Cassidy, JM, Ciullo, V, Conforto, AB, Cramer, SC, Dacosta-Aguayo, R, de la Rosa, E, Domin, M, Dula, AN, Feng, W, Franco, AR, Geranmayeh, F, Gramfort, A, Gregory, CM, Hanlon, CA, Hordacre, BG, Kautz, SA, Khlif, MS, Kim, H, Kirschke, JS, Liu, J, Lotze, M, MacIntosh, BJ, Mataró, M, Mohamed, FB, Nordvik, JE, Park, G, Pienta, A, Piras, F, Redman, SM, Revill, KP, Reyes, M, Robertson, AD, Seo, NJ, Soekadar, SR, Spalletta, G, Sweet, A, Telenczuk, M, Thielman, G, Westlye, LT, Winstein, CJ, Wittenberg, GF, Wong, KA & Yu, C 2022, 'A large, curated, open-source stroke neuroimaging dataset to improve lesion segmentation algorithms', Scientific Data, Jg. 9, Nr. 1, 320. https://doi.org/10.1038/s41597-022-01401-7

TY - JOUR

T1 - A large, curated, open-source stroke neuroimaging dataset to improve lesion segmentation algorithms

AU - Liew, Sook Lei

AU - Lo, Bethany P.

AU - Donnelly, Miranda R.

AU - Zavaliangos-Petropulu, Artemis

AU - Jeong, Jessica N.

AU - Barisano, Giuseppe

AU - Hutton, Alexandre

AU - Simon, Julia P.

AU - Juliano, Julia M.

AU - Suri, Anisha

AU - Wang, Zhizhuo

AU - Abdullah, Aisha

AU - Kim, Jun

AU - Ard, Tyler

AU - Banaj, Nerisa

AU - Borich, Michael R.

AU - Boyd, Lara A.

AU - Brodtmann, Amy

AU - Buetefisch, Cathrin M.

AU - Cao, Lei

AU - Cassidy, Jessica M.

AU - Ciullo, Valentina

AU - Conforto, Adriana B.

AU - Cramer, Steven C.

AU - Dacosta-Aguayo, Rosalia

AU - de la Rosa, Ezequiel

AU - Domin, Martin

AU - Dula, Adrienne N.

AU - Feng, Wuwei

AU - Franco, Alexandre R.

AU - Geranmayeh, Fatemeh

AU - Gramfort, Alexandre

AU - Gregory, Chris M.

AU - Hanlon, Colleen A.

AU - Hordacre, Brenton G.

AU - Kautz, Steven A.

AU - Khlif, Mohamed Salah

AU - Kim, Hosung

AU - Kirschke, Jan S.

AU - Liu, Jingchun

AU - Lotze, Martin

AU - MacIntosh, Bradley J.

AU - Mataró, Maria

AU - Mohamed, Feroze B.

AU - Nordvik, Jan E.

AU - Park, Gilsoon

AU - Pienta, Amy

AU - Piras, Fabrizio

AU - Redman, Shane M.

AU - Revill, Kate P.

AU - Reyes, Mauricio

AU - Robertson, Andrew D.

AU - Seo, Na Jin

AU - Soekadar, Surjo R.

AU - Spalletta, Gianfranco

AU - Sweet, Alison

AU - Telenczuk, Maria

AU - Thielman, Gregory

AU - Westlye, Lars T.

AU - Winstein, Carolee J.

AU - Wittenberg, George F.

AU - Wong, Kristin A.

AU - Yu, Chunshui

PY - 2022/12

Y1 - 2022/12

N2 - Accurate lesion segmentation is critical in stroke rehabilitation research for the quantification of lesion burden and accurate image processing. Current automated lesion segmentation methods for T1-weighted (T1w) MRIs, commonly used in stroke research, lack accuracy and reliability. Manual segmentation remains the gold standard, but it is time-consuming, subjective, and requires neuroanatomical expertise. We previously released an open-source dataset of stroke T1w MRIs and manually-segmented lesion masks (ATLAS v1.2, N = 304) to encourage the development of better algorithms. However, many methods developed with ATLAS v1.2 report low accuracy, are not publicly accessible or are improperly validated, limiting their utility to the field. Here we present ATLAS v2.0 (N = 1271), a larger dataset of T1w MRIs and manually segmented lesion masks that includes training (n = 655), test (hidden masks, n = 300), and generalizability (hidden MRIs and masks, n = 316) datasets. Algorithm development using this larger sample should lead to more robust solutions; the hidden datasets allow for unbiased performance evaluation via segmentation challenges. We anticipate that ATLAS v2.0 will lead to improved algorithms, facilitating large-scale stroke research.

AB - Accurate lesion segmentation is critical in stroke rehabilitation research for the quantification of lesion burden and accurate image processing. Current automated lesion segmentation methods for T1-weighted (T1w) MRIs, commonly used in stroke research, lack accuracy and reliability. Manual segmentation remains the gold standard, but it is time-consuming, subjective, and requires neuroanatomical expertise. We previously released an open-source dataset of stroke T1w MRIs and manually-segmented lesion masks (ATLAS v1.2, N = 304) to encourage the development of better algorithms. However, many methods developed with ATLAS v1.2 report low accuracy, are not publicly accessible or are improperly validated, limiting their utility to the field. Here we present ATLAS v2.0 (N = 1271), a larger dataset of T1w MRIs and manually segmented lesion masks that includes training (n = 655), test (hidden masks, n = 300), and generalizability (hidden MRIs and masks, n = 316) datasets. Algorithm development using this larger sample should lead to more robust solutions; the hidden datasets allow for unbiased performance evaluation via segmentation challenges. We anticipate that ATLAS v2.0 will lead to improved algorithms, facilitating large-scale stroke research.

UR - https://www.scopus.com/pages/publications/85132119390

U2 - 10.1038/s41597-022-01401-7

DO - 10.1038/s41597-022-01401-7

M3 - Article

C2 - 35710678

AN - SCOPUS:85132119390

SN - 2052-4463

VL - 9

JO - Scientific Data

JF - Scientific Data

IS - 1

M1 - 320

ER -

A large, curated, open-source stroke neuroimaging dataset to improve lesion segmentation algorithms

Abstract

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