Two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia

Machine learning can be used to define subtypes of psychiatric conditions based on shared clinical and biological foundations, presenting a crucial step toward establishing biologically based subtypes of mental disorders. With the goal of identifying subtypes of disease progression in schizophrenia,...

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Autores principales: Jiang, Yuchao, Luo, Cheng, Wang, Jijun, Palaniyappan, Lena, Chang, Xiao, Xiang, Shitong, Zhang, Jie, Duan, Mingjun, Huang, Huan, Gaser, Christian, Nemoto, Kiyotaka, Miura, Kenichiro, Hashimoto, Ryota, Westlye, Lars T., Richard, Genevieve, Fernandez-Cabello, Sara, Parker, Nadine, Andreassen, Ole A., Kircher, Tilo, Nenadić, Igor, Stein, Frederike, Thomas-Odenthal, Florian, Teutenberg, Lea, Usemann, Paula, Dannlowski, Udo, Hahn, Tim, Grotegerd, Dominik, Meinert, Susanne, Lencer, Rebekka, Tang, Yingying, Zhang, Tianhong, Li, Chunbo, Yue, Weihua, Zhang, Yuyanan, Yu, Xin, Zhou, Enpeng, Lin, Ching-Po, Tsai, Shih-Jen, Rodrigue, Amanda L., Glahn, David, Pearlson, Godfrey, Blangero, John, Karuk, Andriana, Pomarol-Clotet, Edith, Salvador, Raymond, Fuentes-Claramonte, Paola, Garcia-León, María Ángeles, Spalletta, Gianfranco, Piras, Fabrizio, Vecchio, Daniela, Banaj, Nerisa, Cheng, Jingliang, Liu, Zhening, Yang, Jie, Gonul, Ali Saffet, Uslu, Ozgul, Burhanoglu, Birce Begum, Demir, Aslihan Uyar, Rootes-Murdy, Kelly, Calhoun, Vince D., Sim, Kang, Green, Melissa, Quidé, Yann, Chung, Young Chul, Kim, Woo-Sung, Sponheim, Scott R., Demro, Caroline, Ramsay, Ian S., Iasevoli, Felice, de Bartolomeis, Andrea, Barone, Annarita, Ciccarelli, Mariateresa, Brunetti, Arturo, Cocozza, Sirio, Pontillo, Giuseppe, Tranfa, Mario, Park, Min Tae M., Kirschner, Matthias, Georgiadis, Foivos, Kaiser, Stefan, Rheenen, Tamsyn E Van, Rossell, Susan L, Hughes, Matthew, Woods, William, Carruthers, Sean P, Sumner, Philip, Ringin, Elysha, Spaniel, Filip, Skoch, Antonin, Tomecek, David, Homan, Philipp, Homan, Stephanie, Omlor, Wolfgang, Cecere, Giacomo, Nguyen, Dana D, Preda, Adrian, Thomopoulos, Sophia, Jahanshad, Neda, Cui, Long-Biao, Yao, Dezhong, Thompson, Paul M., Turner, Jessica A., van Erp, Theo G.M., Cheng, Wei, Feng, Jianfeng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10593004/
https://www.ncbi.nlm.nih.gov/pubmed/37873296
http://dx.doi.org/10.1101/2023.10.11.23296862
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author Jiang, Yuchao
Luo, Cheng
Wang, Jijun
Palaniyappan, Lena
Chang, Xiao
Xiang, Shitong
Zhang, Jie
Duan, Mingjun
Huang, Huan
Gaser, Christian
Nemoto, Kiyotaka
Miura, Kenichiro
Hashimoto, Ryota
Westlye, Lars T.
Richard, Genevieve
Fernandez-Cabello, Sara
Parker, Nadine
Andreassen, Ole A.
Kircher, Tilo
Nenadić, Igor
Stein, Frederike
Thomas-Odenthal, Florian
Teutenberg, Lea
Usemann, Paula
Dannlowski, Udo
Hahn, Tim
Grotegerd, Dominik
Meinert, Susanne
Lencer, Rebekka
Tang, Yingying
Zhang, Tianhong
Li, Chunbo
Yue, Weihua
Zhang, Yuyanan
Yu, Xin
Zhou, Enpeng
Lin, Ching-Po
Tsai, Shih-Jen
Rodrigue, Amanda L.
Glahn, David
Pearlson, Godfrey
Blangero, John
Karuk, Andriana
Pomarol-Clotet, Edith
Salvador, Raymond
Fuentes-Claramonte, Paola
Garcia-León, María Ángeles
Spalletta, Gianfranco
Piras, Fabrizio
Vecchio, Daniela
Banaj, Nerisa
Cheng, Jingliang
Liu, Zhening
Yang, Jie
Gonul, Ali Saffet
Uslu, Ozgul
Burhanoglu, Birce Begum
Demir, Aslihan Uyar
Rootes-Murdy, Kelly
Calhoun, Vince D.
Sim, Kang
Green, Melissa
Quidé, Yann
Chung, Young Chul
Kim, Woo-Sung
Sponheim, Scott R.
Demro, Caroline
Ramsay, Ian S.
Iasevoli, Felice
de Bartolomeis, Andrea
Barone, Annarita
Ciccarelli, Mariateresa
Brunetti, Arturo
Cocozza, Sirio
Pontillo, Giuseppe
Tranfa, Mario
Park, Min Tae M.
Kirschner, Matthias
Georgiadis, Foivos
Kaiser, Stefan
Rheenen, Tamsyn E Van
Rossell, Susan L
Hughes, Matthew
Woods, William
Carruthers, Sean P
Sumner, Philip
Ringin, Elysha
Spaniel, Filip
Skoch, Antonin
Tomecek, David
Homan, Philipp
Homan, Stephanie
Omlor, Wolfgang
Cecere, Giacomo
Nguyen, Dana D
Preda, Adrian
Thomopoulos, Sophia
Jahanshad, Neda
Cui, Long-Biao
Yao, Dezhong
Thompson, Paul M.
Turner, Jessica A.
van Erp, Theo G.M.
Cheng, Wei
Feng, Jianfeng
author_facet Jiang, Yuchao
Luo, Cheng
Wang, Jijun
Palaniyappan, Lena
Chang, Xiao
Xiang, Shitong
Zhang, Jie
Duan, Mingjun
Huang, Huan
Gaser, Christian
Nemoto, Kiyotaka
Miura, Kenichiro
Hashimoto, Ryota
Westlye, Lars T.
Richard, Genevieve
Fernandez-Cabello, Sara
Parker, Nadine
Andreassen, Ole A.
Kircher, Tilo
Nenadić, Igor
Stein, Frederike
Thomas-Odenthal, Florian
Teutenberg, Lea
Usemann, Paula
Dannlowski, Udo
Hahn, Tim
Grotegerd, Dominik
Meinert, Susanne
Lencer, Rebekka
Tang, Yingying
Zhang, Tianhong
Li, Chunbo
Yue, Weihua
Zhang, Yuyanan
Yu, Xin
Zhou, Enpeng
Lin, Ching-Po
Tsai, Shih-Jen
Rodrigue, Amanda L.
Glahn, David
Pearlson, Godfrey
Blangero, John
Karuk, Andriana
Pomarol-Clotet, Edith
Salvador, Raymond
Fuentes-Claramonte, Paola
Garcia-León, María Ángeles
Spalletta, Gianfranco
Piras, Fabrizio
Vecchio, Daniela
Banaj, Nerisa
Cheng, Jingliang
Liu, Zhening
Yang, Jie
Gonul, Ali Saffet
Uslu, Ozgul
Burhanoglu, Birce Begum
Demir, Aslihan Uyar
Rootes-Murdy, Kelly
Calhoun, Vince D.
Sim, Kang
Green, Melissa
Quidé, Yann
Chung, Young Chul
Kim, Woo-Sung
Sponheim, Scott R.
Demro, Caroline
Ramsay, Ian S.
Iasevoli, Felice
de Bartolomeis, Andrea
Barone, Annarita
Ciccarelli, Mariateresa
Brunetti, Arturo
Cocozza, Sirio
Pontillo, Giuseppe
Tranfa, Mario
Park, Min Tae M.
Kirschner, Matthias
Georgiadis, Foivos
Kaiser, Stefan
Rheenen, Tamsyn E Van
Rossell, Susan L
Hughes, Matthew
Woods, William
Carruthers, Sean P
Sumner, Philip
Ringin, Elysha
Spaniel, Filip
Skoch, Antonin
Tomecek, David
Homan, Philipp
Homan, Stephanie
Omlor, Wolfgang
Cecere, Giacomo
Nguyen, Dana D
Preda, Adrian
Thomopoulos, Sophia
Jahanshad, Neda
Cui, Long-Biao
Yao, Dezhong
Thompson, Paul M.
Turner, Jessica A.
van Erp, Theo G.M.
Cheng, Wei
Feng, Jianfeng
author_sort Jiang, Yuchao
collection PubMed
description Machine learning can be used to define subtypes of psychiatric conditions based on shared clinical and biological foundations, presenting a crucial step toward establishing biologically based subtypes of mental disorders. With the goal of identifying subtypes of disease progression in schizophrenia, here we analyzed cross-sectional brain structural magnetic resonance imaging (MRI) data from 4,291 individuals with schizophrenia (1,709 females, age=32.5 years±11.9) and 7,078 healthy controls (3,461 females, age=33.0 years±12.7) pooled across 41 international cohorts from the ENIGMA Schizophrenia Working Group, non-ENIGMA cohorts and public datasets. Using a machine learning approach known as Subtype and Stage Inference (SuStaIn), we implemented a brain imaging-driven classification that identifies two distinct neurostructural subgroups by mapping the spatial and temporal trajectory of gray matter (GM) loss in schizophrenia. Subgroup 1 (n=2,622) was characterized by an early cortical-predominant loss (ECL) with enlarged striatum, whereas subgroup 2 (n=1,600) displayed an early subcortical-predominant loss (ESL) in the hippocampus, amygdala, thalamus, brain stem and striatum. These reconstructed trajectories suggest that the GM volume reduction originates in the Broca’s area/adjacent fronto-insular cortex for ECL and in the hippocampus/adjacent medial temporal structures for ESL. With longer disease duration, the ECL subtype exhibited a gradual worsening of negative symptoms and depression/anxiety, and less of a decline in positive symptoms. We confirmed the reproducibility of these imaging-based subtypes across various sample sites, independent of macroeconomic and ethnic factors that differed across these geographic locations, which include Europe, North America and East Asia. These findings underscore the presence of distinct pathobiological foundations underlying schizophrenia. This new imaging-based taxonomy holds the potential to identify a more homogeneous sub-population of individuals with shared neurobiological attributes, thereby suggesting the viability of redefining existing disorder constructs based on biological factors.
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spelling pubmed-105930042023-10-24 Two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia Jiang, Yuchao Luo, Cheng Wang, Jijun Palaniyappan, Lena Chang, Xiao Xiang, Shitong Zhang, Jie Duan, Mingjun Huang, Huan Gaser, Christian Nemoto, Kiyotaka Miura, Kenichiro Hashimoto, Ryota Westlye, Lars T. Richard, Genevieve Fernandez-Cabello, Sara Parker, Nadine Andreassen, Ole A. Kircher, Tilo Nenadić, Igor Stein, Frederike Thomas-Odenthal, Florian Teutenberg, Lea Usemann, Paula Dannlowski, Udo Hahn, Tim Grotegerd, Dominik Meinert, Susanne Lencer, Rebekka Tang, Yingying Zhang, Tianhong Li, Chunbo Yue, Weihua Zhang, Yuyanan Yu, Xin Zhou, Enpeng Lin, Ching-Po Tsai, Shih-Jen Rodrigue, Amanda L. Glahn, David Pearlson, Godfrey Blangero, John Karuk, Andriana Pomarol-Clotet, Edith Salvador, Raymond Fuentes-Claramonte, Paola Garcia-León, María Ángeles Spalletta, Gianfranco Piras, Fabrizio Vecchio, Daniela Banaj, Nerisa Cheng, Jingliang Liu, Zhening Yang, Jie Gonul, Ali Saffet Uslu, Ozgul Burhanoglu, Birce Begum Demir, Aslihan Uyar Rootes-Murdy, Kelly Calhoun, Vince D. Sim, Kang Green, Melissa Quidé, Yann Chung, Young Chul Kim, Woo-Sung Sponheim, Scott R. Demro, Caroline Ramsay, Ian S. Iasevoli, Felice de Bartolomeis, Andrea Barone, Annarita Ciccarelli, Mariateresa Brunetti, Arturo Cocozza, Sirio Pontillo, Giuseppe Tranfa, Mario Park, Min Tae M. Kirschner, Matthias Georgiadis, Foivos Kaiser, Stefan Rheenen, Tamsyn E Van Rossell, Susan L Hughes, Matthew Woods, William Carruthers, Sean P Sumner, Philip Ringin, Elysha Spaniel, Filip Skoch, Antonin Tomecek, David Homan, Philipp Homan, Stephanie Omlor, Wolfgang Cecere, Giacomo Nguyen, Dana D Preda, Adrian Thomopoulos, Sophia Jahanshad, Neda Cui, Long-Biao Yao, Dezhong Thompson, Paul M. Turner, Jessica A. van Erp, Theo G.M. Cheng, Wei Feng, Jianfeng medRxiv Article Machine learning can be used to define subtypes of psychiatric conditions based on shared clinical and biological foundations, presenting a crucial step toward establishing biologically based subtypes of mental disorders. With the goal of identifying subtypes of disease progression in schizophrenia, here we analyzed cross-sectional brain structural magnetic resonance imaging (MRI) data from 4,291 individuals with schizophrenia (1,709 females, age=32.5 years±11.9) and 7,078 healthy controls (3,461 females, age=33.0 years±12.7) pooled across 41 international cohorts from the ENIGMA Schizophrenia Working Group, non-ENIGMA cohorts and public datasets. Using a machine learning approach known as Subtype and Stage Inference (SuStaIn), we implemented a brain imaging-driven classification that identifies two distinct neurostructural subgroups by mapping the spatial and temporal trajectory of gray matter (GM) loss in schizophrenia. Subgroup 1 (n=2,622) was characterized by an early cortical-predominant loss (ECL) with enlarged striatum, whereas subgroup 2 (n=1,600) displayed an early subcortical-predominant loss (ESL) in the hippocampus, amygdala, thalamus, brain stem and striatum. These reconstructed trajectories suggest that the GM volume reduction originates in the Broca’s area/adjacent fronto-insular cortex for ECL and in the hippocampus/adjacent medial temporal structures for ESL. With longer disease duration, the ECL subtype exhibited a gradual worsening of negative symptoms and depression/anxiety, and less of a decline in positive symptoms. We confirmed the reproducibility of these imaging-based subtypes across various sample sites, independent of macroeconomic and ethnic factors that differed across these geographic locations, which include Europe, North America and East Asia. These findings underscore the presence of distinct pathobiological foundations underlying schizophrenia. This new imaging-based taxonomy holds the potential to identify a more homogeneous sub-population of individuals with shared neurobiological attributes, thereby suggesting the viability of redefining existing disorder constructs based on biological factors. Cold Spring Harbor Laboratory 2023-10-12 /pmc/articles/PMC10593004/ /pubmed/37873296 http://dx.doi.org/10.1101/2023.10.11.23296862 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (https://creativecommons.org/licenses/by-nc-nd/4.0/) , which allows reusers to copy and distribute the material in any medium or format in unadapted form only, for noncommercial purposes only, and only so long as attribution is given to the creator.
spellingShingle Article
Jiang, Yuchao
Luo, Cheng
Wang, Jijun
Palaniyappan, Lena
Chang, Xiao
Xiang, Shitong
Zhang, Jie
Duan, Mingjun
Huang, Huan
Gaser, Christian
Nemoto, Kiyotaka
Miura, Kenichiro
Hashimoto, Ryota
Westlye, Lars T.
Richard, Genevieve
Fernandez-Cabello, Sara
Parker, Nadine
Andreassen, Ole A.
Kircher, Tilo
Nenadić, Igor
Stein, Frederike
Thomas-Odenthal, Florian
Teutenberg, Lea
Usemann, Paula
Dannlowski, Udo
Hahn, Tim
Grotegerd, Dominik
Meinert, Susanne
Lencer, Rebekka
Tang, Yingying
Zhang, Tianhong
Li, Chunbo
Yue, Weihua
Zhang, Yuyanan
Yu, Xin
Zhou, Enpeng
Lin, Ching-Po
Tsai, Shih-Jen
Rodrigue, Amanda L.
Glahn, David
Pearlson, Godfrey
Blangero, John
Karuk, Andriana
Pomarol-Clotet, Edith
Salvador, Raymond
Fuentes-Claramonte, Paola
Garcia-León, María Ángeles
Spalletta, Gianfranco
Piras, Fabrizio
Vecchio, Daniela
Banaj, Nerisa
Cheng, Jingliang
Liu, Zhening
Yang, Jie
Gonul, Ali Saffet
Uslu, Ozgul
Burhanoglu, Birce Begum
Demir, Aslihan Uyar
Rootes-Murdy, Kelly
Calhoun, Vince D.
Sim, Kang
Green, Melissa
Quidé, Yann
Chung, Young Chul
Kim, Woo-Sung
Sponheim, Scott R.
Demro, Caroline
Ramsay, Ian S.
Iasevoli, Felice
de Bartolomeis, Andrea
Barone, Annarita
Ciccarelli, Mariateresa
Brunetti, Arturo
Cocozza, Sirio
Pontillo, Giuseppe
Tranfa, Mario
Park, Min Tae M.
Kirschner, Matthias
Georgiadis, Foivos
Kaiser, Stefan
Rheenen, Tamsyn E Van
Rossell, Susan L
Hughes, Matthew
Woods, William
Carruthers, Sean P
Sumner, Philip
Ringin, Elysha
Spaniel, Filip
Skoch, Antonin
Tomecek, David
Homan, Philipp
Homan, Stephanie
Omlor, Wolfgang
Cecere, Giacomo
Nguyen, Dana D
Preda, Adrian
Thomopoulos, Sophia
Jahanshad, Neda
Cui, Long-Biao
Yao, Dezhong
Thompson, Paul M.
Turner, Jessica A.
van Erp, Theo G.M.
Cheng, Wei
Feng, Jianfeng
Two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia
title Two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia
title_full Two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia
title_fullStr Two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia
title_full_unstemmed Two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia
title_short Two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia
title_sort two neurostructural subtypes: results of machine learning on brain images from 4,291 individuals with schizophrenia
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10593004/
https://www.ncbi.nlm.nih.gov/pubmed/37873296
http://dx.doi.org/10.1101/2023.10.11.23296862
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AT woodswilliam twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT carruthersseanp twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT sumnerphilip twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT ringinelysha twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT spanielfilip twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT skochantonin twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT tomecekdavid twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT homanphilipp twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT homanstephanie twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT omlorwolfgang twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT ceceregiacomo twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT nguyendanad twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT predaadrian twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT thomopoulossophia twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT jahanshadneda twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT cuilongbiao twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT yaodezhong twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT thompsonpaulm twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT turnerjessicaa twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT vanerptheogm twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT chengwei twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia
AT fengjianfeng twoneurostructuralsubtypesresultsofmachinelearningonbrainimagesfrom4291individualswithschizophrenia

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