Evolution of white matter hyperintensity segmentation methods and implementation over the past two decades; an incomplete shift towards deep learning

Maryam Rahmani; Donna Dierker; Lauren Yaeger; Andrew Saykin; Patrick H. Luckett; Andrei G. Vlassenko; Christopher Owens; Hussain Jafri; Kyle Womack; Jurgen Fripp; Ying Xia; Duygu Tosun; Tammie L.S. Benzinger; Colin L. Masters; Jin Moo Lee; John C. Morris; Manu S. Goyal; Jeremy F. Strain; Walter Kukull; Michael Weiner; Samantha Burnham; Timothy Cox; James Doecke; Victor Fedyashov; Rosita Shishegar; Chengjie Xiong; Daniel Marcus; Parnesh Raniga; Shenpeng Li; Andrew Aschenbrenner; Jason Hassenstab; Yen Ying Lim; Paul Maruff; Hamid Sohrabi; Jo Robertson; Shaun Markovic; Pierrick Bourgeat; Vincent Doré; Clifford Jack Mayo; Parinaz Mussoumzadeh; Chris Rowe; Victor Villemagne; Randy Bateman; Chris Fowler; Qiao Xin Li; Ralph Martins; Suzanne Schindler; Les Shaw; Carlos Cruchaga; Oscar Harari; Simon Laws; Tenielle Porter; Eleanor O’Brien; Richard Perrin; Eric McDade; Clifford Jack; Nawaf Yassi; Blaine Roberts; Benjamin Goudey; for the ADOPIC, ADNI Investigators

doi:10.1007/s11682-024-00902-w

Evolution of white matter hyperintensity segmentation methods and implementation over the past two decades; an incomplete shift towards deep learning

Maryam Rahmani, Donna Dierker, Lauren Yaeger, Andrew Saykin, Patrick H. Luckett, Andrei G. Vlassenko, Christopher Owens, Hussain Jafri, Kyle Womack, Jurgen Fripp, Ying Xia, Duygu Tosun, Tammie L.S. Benzinger, Colin L. Masters, Jin Moo Lee, John C. Morris, Manu S. Goyal, Jeremy F. Strain, Walter Kukull, Michael WeinerSamantha Burnham, Timothy Cox, James Doecke, Victor Fedyashov, Rosita Shishegar, Chengjie Xiong, Daniel Marcus, Parnesh Raniga, Shenpeng Li, Andrew Aschenbrenner, Jason Hassenstab, Yen Ying Lim, Paul Maruff, Hamid Sohrabi, Jo Robertson, Shaun Markovic, Pierrick Bourgeat, Vincent Doré, Clifford Jack Mayo, Parinaz Mussoumzadeh, Chris Rowe, Victor Villemagne, Randy Bateman, Chris Fowler, Qiao Xin Li, Ralph Martins, Suzanne Schindler, Les Shaw, Carlos Cruchaga, Oscar Harari, Simon Laws, Tenielle Porter, Eleanor O’Brien, Richard Perrin, Eric McDade, Clifford Jack, Nawaf Yassi, Blaine Roberts, Benjamin Goudey, for the ADOPIC, ADNI Investigators

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

1 Citation (Scopus)

Abstract

This systematic review examines the prevalence, underlying mechanisms, cohort characteristics, evaluation criteria, and cohort types in white matter hyperintensity (WMH) pipeline and implementation literature spanning the last two decades. Following Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines, we categorized WMH segmentation tools based on their methodologies from January 1, 2000, to November 18, 2022. Inclusion criteria involved articles using openly available techniques with detailed descriptions, focusing on WMH as a primary outcome. Our analysis identified 1007 visual rating scales, 118 pipeline development articles, and 509 implementation articles. These studies predominantly explored aging, dementia, psychiatric disorders, and small vessel disease, with aging and dementia being the most prevalent cohorts. Deep learning emerged as the most frequently developed segmentation technique, indicative of a heightened scrutiny in new technique development over the past two decades. We illustrate observed patterns and discrepancies between published and implemented WMH techniques. Despite increasingly sophisticated quantitative segmentation options, visual rating scales persist, with the SPM technique being the most utilized among quantitative methods and potentially serving as a reference standard for newer techniques. Our findings highlight the need for future standards in WMH segmentation, and we provide recommendations based on these observations.

Original language	English
Pages (from-to)	1310–1322
Number of pages	13
Journal	Brain Imaging and Behavior
Volume	18
Issue number	5
DOIs	https://doi.org/10.1007/s11682-024-00902-w
Publication status	Published - Oct 2024

Keywords

Deep Learning
Pipelines
Segmentation
Systematic Review
White matter hyperintensity

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Rahmani, M., Dierker, D., Yaeger, L., Saykin, A., Luckett, P. H., Vlassenko, A. G., Owens, C., Jafri, H., Womack, K., Fripp, J., Xia, Y., Tosun, D., Benzinger, T. L. S., Masters, C. L., Lee, J. M., Morris, J. C., Goyal, M. S., Strain, J. F., Kukull, W., ... for the ADOPIC, ADNI Investigators (2024). Evolution of white matter hyperintensity segmentation methods and implementation over the past two decades; an incomplete shift towards deep learning. Brain Imaging and Behavior, 18(5), 1310–1322. https://doi.org/10.1007/s11682-024-00902-w

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title = "Evolution of white matter hyperintensity segmentation methods and implementation over the past two decades; an incomplete shift towards deep learning",

abstract = "This systematic review examines the prevalence, underlying mechanisms, cohort characteristics, evaluation criteria, and cohort types in white matter hyperintensity (WMH) pipeline and implementation literature spanning the last two decades. Following Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines, we categorized WMH segmentation tools based on their methodologies from January 1, 2000, to November 18, 2022. Inclusion criteria involved articles using openly available techniques with detailed descriptions, focusing on WMH as a primary outcome. Our analysis identified 1007 visual rating scales, 118 pipeline development articles, and 509 implementation articles. These studies predominantly explored aging, dementia, psychiatric disorders, and small vessel disease, with aging and dementia being the most prevalent cohorts. Deep learning emerged as the most frequently developed segmentation technique, indicative of a heightened scrutiny in new technique development over the past two decades. We illustrate observed patterns and discrepancies between published and implemented WMH techniques. Despite increasingly sophisticated quantitative segmentation options, visual rating scales persist, with the SPM technique being the most utilized among quantitative methods and potentially serving as a reference standard for newer techniques. Our findings highlight the need for future standards in WMH segmentation, and we provide recommendations based on these observations.",

keywords = "Deep Learning, Pipelines, Segmentation, Systematic Review, White matter hyperintensity",

author = "Maryam Rahmani and Donna Dierker and Lauren Yaeger and Andrew Saykin and Luckett, {Patrick H.} and Vlassenko, {Andrei G.} and Christopher Owens and Hussain Jafri and Kyle Womack and Jurgen Fripp and Ying Xia and Duygu Tosun and Benzinger, {Tammie L.S.} and Masters, {Colin L.} and Lee, {Jin Moo} and Morris, {John C.} and Goyal, {Manu S.} and Strain, {Jeremy F.} and Walter Kukull and Michael Weiner and Samantha Burnham and Timothy Cox and James Doecke and Victor Fedyashov and Rosita Shishegar and Chengjie Xiong and Daniel Marcus and Parnesh Raniga and Shenpeng Li and Andrew Aschenbrenner and Jason Hassenstab and Lim, {Yen Ying} and Paul Maruff and Hamid Sohrabi and Jo Robertson and Shaun Markovic and Pierrick Bourgeat and Vincent Dor{\'e} and Mayo, {Clifford Jack} and Parinaz Mussoumzadeh and Chris Rowe and Victor Villemagne and Randy Bateman and Chris Fowler and Li, {Qiao Xin} and Ralph Martins and Suzanne Schindler and Les Shaw and Carlos Cruchaga and Oscar Harari and Simon Laws and Tenielle Porter and Eleanor O{\textquoteright}Brien and Richard Perrin and Eric McDade and Clifford Jack and Nawaf Yassi and Blaine Roberts and Benjamin Goudey and {for the ADOPIC, ADNI Investigators}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = oct,

doi = "10.1007/s11682-024-00902-w",

language = "English",

volume = "18",

pages = "1310–1322",

journal = "Brain Imaging and Behavior",

issn = "1931-7557",

publisher = "Springer",

number = "5",

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Rahmani, M, Dierker, D, Yaeger, L, Saykin, A, Luckett, PH, Vlassenko, AG, Owens, C, Jafri, H, Womack, K, Fripp, J, Xia, Y, Tosun, D, Benzinger, TLS, Masters, CL, Lee, JM, Morris, JC, Goyal, MS, Strain, JF, Kukull, W, Weiner, M, Burnham, S, Cox, T, Doecke, J, Fedyashov, V, Shishegar, R, Xiong, C, Marcus, D, Raniga, P, Li, S, Aschenbrenner, A, Hassenstab, J, Lim, YY, Maruff, P, Sohrabi, H, Robertson, J, Markovic, S, Bourgeat, P, Doré, V, Mayo, CJ, Mussoumzadeh, P, Rowe, C, Villemagne, V, Bateman, R, Fowler, C, Li, QX, Martins, R, Schindler, S, Shaw, L, Cruchaga, C, Harari, O, Laws, S, Porter, T, O’Brien, E, Perrin, R, McDade, E, Jack, C, Yassi, N, Roberts, B, Goudey, B & for the ADOPIC, ADNI Investigators 2024, 'Evolution of white matter hyperintensity segmentation methods and implementation over the past two decades; an incomplete shift towards deep learning', Brain Imaging and Behavior, vol. 18, no. 5, pp. 1310–1322. https://doi.org/10.1007/s11682-024-00902-w

TY - JOUR

T1 - Evolution of white matter hyperintensity segmentation methods and implementation over the past two decades; an incomplete shift towards deep learning

AU - Rahmani, Maryam

AU - Dierker, Donna

AU - Yaeger, Lauren

AU - Saykin, Andrew

AU - Luckett, Patrick H.

AU - Vlassenko, Andrei G.

AU - Owens, Christopher

AU - Jafri, Hussain

AU - Womack, Kyle

AU - Fripp, Jurgen

AU - Xia, Ying

AU - Tosun, Duygu

AU - Benzinger, Tammie L.S.

AU - Masters, Colin L.

AU - Lee, Jin Moo

AU - Morris, John C.

AU - Goyal, Manu S.

AU - Strain, Jeremy F.

AU - Kukull, Walter

AU - Weiner, Michael

AU - Burnham, Samantha

AU - Cox, Timothy

AU - Doecke, James

AU - Fedyashov, Victor

AU - Shishegar, Rosita

AU - Xiong, Chengjie

AU - Marcus, Daniel

AU - Raniga, Parnesh

AU - Li, Shenpeng

AU - Aschenbrenner, Andrew

AU - Hassenstab, Jason

AU - Lim, Yen Ying

AU - Maruff, Paul

AU - Sohrabi, Hamid

AU - Robertson, Jo

AU - Markovic, Shaun

AU - Bourgeat, Pierrick

AU - Doré, Vincent

AU - Mayo, Clifford Jack

AU - Mussoumzadeh, Parinaz

AU - Rowe, Chris

AU - Villemagne, Victor

AU - Bateman, Randy

AU - Fowler, Chris

AU - Li, Qiao Xin

AU - Martins, Ralph

AU - Schindler, Suzanne

AU - Shaw, Les

AU - Cruchaga, Carlos

AU - Harari, Oscar

AU - Laws, Simon

AU - Porter, Tenielle

AU - O’Brien, Eleanor

AU - Perrin, Richard

AU - McDade, Eric

AU - Jack, Clifford

AU - Yassi, Nawaf

AU - Roberts, Blaine

AU - Goudey, Benjamin

AU - for the ADOPIC, ADNI Investigators

PY - 2024/10

Y1 - 2024/10

N2 - This systematic review examines the prevalence, underlying mechanisms, cohort characteristics, evaluation criteria, and cohort types in white matter hyperintensity (WMH) pipeline and implementation literature spanning the last two decades. Following Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines, we categorized WMH segmentation tools based on their methodologies from January 1, 2000, to November 18, 2022. Inclusion criteria involved articles using openly available techniques with detailed descriptions, focusing on WMH as a primary outcome. Our analysis identified 1007 visual rating scales, 118 pipeline development articles, and 509 implementation articles. These studies predominantly explored aging, dementia, psychiatric disorders, and small vessel disease, with aging and dementia being the most prevalent cohorts. Deep learning emerged as the most frequently developed segmentation technique, indicative of a heightened scrutiny in new technique development over the past two decades. We illustrate observed patterns and discrepancies between published and implemented WMH techniques. Despite increasingly sophisticated quantitative segmentation options, visual rating scales persist, with the SPM technique being the most utilized among quantitative methods and potentially serving as a reference standard for newer techniques. Our findings highlight the need for future standards in WMH segmentation, and we provide recommendations based on these observations.

AB - This systematic review examines the prevalence, underlying mechanisms, cohort characteristics, evaluation criteria, and cohort types in white matter hyperintensity (WMH) pipeline and implementation literature spanning the last two decades. Following Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines, we categorized WMH segmentation tools based on their methodologies from January 1, 2000, to November 18, 2022. Inclusion criteria involved articles using openly available techniques with detailed descriptions, focusing on WMH as a primary outcome. Our analysis identified 1007 visual rating scales, 118 pipeline development articles, and 509 implementation articles. These studies predominantly explored aging, dementia, psychiatric disorders, and small vessel disease, with aging and dementia being the most prevalent cohorts. Deep learning emerged as the most frequently developed segmentation technique, indicative of a heightened scrutiny in new technique development over the past two decades. We illustrate observed patterns and discrepancies between published and implemented WMH techniques. Despite increasingly sophisticated quantitative segmentation options, visual rating scales persist, with the SPM technique being the most utilized among quantitative methods and potentially serving as a reference standard for newer techniques. Our findings highlight the need for future standards in WMH segmentation, and we provide recommendations based on these observations.

KW - Deep Learning

KW - Pipelines

KW - Segmentation

KW - Systematic Review

KW - White matter hyperintensity

UR - http://www.scopus.com/inward/record.url?scp=85204204426&partnerID=8YFLogxK

U2 - 10.1007/s11682-024-00902-w

DO - 10.1007/s11682-024-00902-w

M3 - Review Article

C2 - 39083144

AN - SCOPUS:85204204426

SN - 1931-7557

VL - 18

SP - 1310

EP - 1322

JO - Brain Imaging and Behavior

JF - Brain Imaging and Behavior

IS - 5

ER -

Evolution of white matter hyperintensity segmentation methods and implementation over the past two decades; an incomplete shift towards deep learning

Abstract

Keywords

UN SDGs

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