Identification of psychiatric disorder subtypes from functional connectivity patterns in resting-state electroencephalography

Yu Zhang; Wei Wu; Russell T Toll; Sharon Naparstek; Adi Maron-Katz; Mallissa Watts; Joseph Gordon; Jisoo Jeong; Laura Astolfi; Emmanuel Shpigel; Parker Longwell; Kamron Sarhadi; Dawlat El-Said; Yuanqing Li; Crystal Cooper; Cherise Chin-Fatt; Martijn Arns; Madeleine S Goodkind; Madhukar H Trivedi; Charles R Marmar; Amit Etkin

doi:10.1038/s41551-020-00614-8

Identification of psychiatric disorder subtypes from functional connectivity patterns in resting-state electroencephalography

Yu Zhang, Wei Wu, Russell T Toll, Sharon Naparstek, Adi Maron-Katz, Mallissa Watts, Joseph Gordon, Jisoo Jeong, Laura Astolfi, Emmanuel Shpigel, Parker Longwell, Kamron Sarhadi, Dawlat El-Said, Yuanqing Li, Crystal Cooper, Cherise Chin-Fatt, Martijn Arns, Madeleine S Goodkind, Madhukar H Trivedi, Charles R MarmarAmit Etkin^*

^*Corresponding author for this work

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

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Abstract

The understanding and treatment of psychiatric disorders, which are known to be neurobiologically and clinically heterogeneous, could benefit from the data-driven identification of disease subtypes. Here, we report the identification of two clinically relevant subtypes of post-traumatic stress disorder (PTSD) and major depressive disorder (MDD) on the basis of robust and distinct functional connectivity patterns, prominently within the frontoparietal control network and the default mode network. We identified the disease subtypes by analysing, via unsupervised and supervised machine learning, the power-envelope-based connectivity of signals reconstructed from high-density resting-state electroencephalography in four datasets of patients with PTSD and MDD, and show that the subtypes are transferable across independent datasets recorded under different conditions. The subtype whose functional connectivity differed most from those of healthy controls was less responsive to psychotherapy treatment for PTSD and failed to respond to an antidepressant medication for MDD. By contrast, both subtypes responded equally well to two different forms of repetitive transcranial magnetic stimulation therapy for MDD. Our data-driven approach may constitute a generalizable solution for connectome-based diagnosis.

Original language	English
Pages (from-to)	309-323
Journal	Nature Biomedical Engineering
Volume	5
Issue number	4
Early online date	19 Oct 2020
DOIs	https://doi.org/10.1038/s41551-020-00614-8
Publication status	Published - Apr 2021

Keywords

TRANSCRANIAL MAGNETIC STIMULATION
MAJOR DEPRESSIVE DISORDER
CORTICAL CORRELATION STRUCTURE
PHASE-SYNCHRONIZATION
TREATMENT RESPONSE
VOLUME-CONDUCTION
MEG
THERAPY
EEG
NETWORKS

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Zhang, Y., Wu, W., Toll, R. T., Naparstek, S., Maron-Katz, A., Watts, M., Gordon, J., Jeong, J., Astolfi, L., Shpigel, E., Longwell, P., Sarhadi, K., El-Said, D., Li, Y., Cooper, C., Chin-Fatt, C., Arns, M., Goodkind, M. S., Trivedi, M. H., ... Etkin, A. (2021). Identification of psychiatric disorder subtypes from functional connectivity patterns in resting-state electroencephalography. Nature Biomedical Engineering, 5(4), 309-323. https://doi.org/10.1038/s41551-020-00614-8

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title = "Identification of psychiatric disorder subtypes from functional connectivity patterns in resting-state electroencephalography",

abstract = "The understanding and treatment of psychiatric disorders, which are known to be neurobiologically and clinically heterogeneous, could benefit from the data-driven identification of disease subtypes. Here, we report the identification of two clinically relevant subtypes of post-traumatic stress disorder (PTSD) and major depressive disorder (MDD) on the basis of robust and distinct functional connectivity patterns, prominently within the frontoparietal control network and the default mode network. We identified the disease subtypes by analysing, via unsupervised and supervised machine learning, the power-envelope-based connectivity of signals reconstructed from high-density resting-state electroencephalography in four datasets of patients with PTSD and MDD, and show that the subtypes are transferable across independent datasets recorded under different conditions. The subtype whose functional connectivity differed most from those of healthy controls was less responsive to psychotherapy treatment for PTSD and failed to respond to an antidepressant medication for MDD. By contrast, both subtypes responded equally well to two different forms of repetitive transcranial magnetic stimulation therapy for MDD. Our data-driven approach may constitute a generalizable solution for connectome-based diagnosis.",

keywords = "TRANSCRANIAL MAGNETIC STIMULATION, MAJOR DEPRESSIVE DISORDER, CORTICAL CORRELATION STRUCTURE, PHASE-SYNCHRONIZATION, TREATMENT RESPONSE, VOLUME-CONDUCTION, MEG, THERAPY, EEG, NETWORKS",

author = "Yu Zhang and Wei Wu and Toll, {Russell T} and Sharon Naparstek and Adi Maron-Katz and Mallissa Watts and Joseph Gordon and Jisoo Jeong and Laura Astolfi and Emmanuel Shpigel and Parker Longwell and Kamron Sarhadi and Dawlat El-Said and Yuanqing Li and Crystal Cooper and Cherise Chin-Fatt and Martijn Arns and Goodkind, {Madeleine S} and Trivedi, {Madhukar H} and Marmar, {Charles R} and Amit Etkin",

note = "Funding Information: This study was supported by grants from the Steven and Alexandra Cohen Foundation, Cohen Veterans Bioscience grant no. CVB034 and NIH grant nos. U01MH092221 and U01MH092250. A.E. was additionally funded by NIH grant no. DP1MH116506, and was previously supported by the Sierra-Pacific Mental Illness Research, Education and Clinical Center at the Veterans Affairs Palo Alto Healthcare System. Y.L. was supported by the Key R&D Program of Guangdong Province, China under grant no. 2018B030339001, National Key Research and Development Plan of China (no. 2017YFB1002505), and National Natural Science Foundation of China (no. 61633010). The support from N. Krepel in coordinating the TMS is acknowledged. Publisher Copyright: {\textcopyright} 2020, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2021",

month = apr,

doi = "10.1038/s41551-020-00614-8",

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Zhang, Y, Wu, W, Toll, RT, Naparstek, S, Maron-Katz, A, Watts, M, Gordon, J, Jeong, J, Astolfi, L, Shpigel, E, Longwell, P, Sarhadi, K, El-Said, D, Li, Y, Cooper, C, Chin-Fatt, C, Arns, M, Goodkind, MS, Trivedi, MH, Marmar, CR & Etkin, A 2021, 'Identification of psychiatric disorder subtypes from functional connectivity patterns in resting-state electroencephalography', Nature Biomedical Engineering, vol. 5, no. 4, pp. 309-323. https://doi.org/10.1038/s41551-020-00614-8

TY - JOUR

T1 - Identification of psychiatric disorder subtypes from functional connectivity patterns in resting-state electroencephalography

AU - Zhang, Yu

AU - Wu, Wei

AU - Toll, Russell T

AU - Naparstek, Sharon

AU - Maron-Katz, Adi

AU - Watts, Mallissa

AU - Gordon, Joseph

AU - Jeong, Jisoo

AU - Astolfi, Laura

AU - Shpigel, Emmanuel

AU - Longwell, Parker

AU - Sarhadi, Kamron

AU - El-Said, Dawlat

AU - Li, Yuanqing

AU - Cooper, Crystal

AU - Chin-Fatt, Cherise

AU - Arns, Martijn

AU - Goodkind, Madeleine S

AU - Trivedi, Madhukar H

AU - Marmar, Charles R

AU - Etkin, Amit

N1 - Funding Information: This study was supported by grants from the Steven and Alexandra Cohen Foundation, Cohen Veterans Bioscience grant no. CVB034 and NIH grant nos. U01MH092221 and U01MH092250. A.E. was additionally funded by NIH grant no. DP1MH116506, and was previously supported by the Sierra-Pacific Mental Illness Research, Education and Clinical Center at the Veterans Affairs Palo Alto Healthcare System. Y.L. was supported by the Key R&D Program of Guangdong Province, China under grant no. 2018B030339001, National Key Research and Development Plan of China (no. 2017YFB1002505), and National Natural Science Foundation of China (no. 61633010). The support from N. Krepel in coordinating the TMS is acknowledged. Publisher Copyright: © 2020, The Author(s), under exclusive licence to Springer Nature Limited.

PY - 2021/4

Y1 - 2021/4

N2 - The understanding and treatment of psychiatric disorders, which are known to be neurobiologically and clinically heterogeneous, could benefit from the data-driven identification of disease subtypes. Here, we report the identification of two clinically relevant subtypes of post-traumatic stress disorder (PTSD) and major depressive disorder (MDD) on the basis of robust and distinct functional connectivity patterns, prominently within the frontoparietal control network and the default mode network. We identified the disease subtypes by analysing, via unsupervised and supervised machine learning, the power-envelope-based connectivity of signals reconstructed from high-density resting-state electroencephalography in four datasets of patients with PTSD and MDD, and show that the subtypes are transferable across independent datasets recorded under different conditions. The subtype whose functional connectivity differed most from those of healthy controls was less responsive to psychotherapy treatment for PTSD and failed to respond to an antidepressant medication for MDD. By contrast, both subtypes responded equally well to two different forms of repetitive transcranial magnetic stimulation therapy for MDD. Our data-driven approach may constitute a generalizable solution for connectome-based diagnosis.

AB - The understanding and treatment of psychiatric disorders, which are known to be neurobiologically and clinically heterogeneous, could benefit from the data-driven identification of disease subtypes. Here, we report the identification of two clinically relevant subtypes of post-traumatic stress disorder (PTSD) and major depressive disorder (MDD) on the basis of robust and distinct functional connectivity patterns, prominently within the frontoparietal control network and the default mode network. We identified the disease subtypes by analysing, via unsupervised and supervised machine learning, the power-envelope-based connectivity of signals reconstructed from high-density resting-state electroencephalography in four datasets of patients with PTSD and MDD, and show that the subtypes are transferable across independent datasets recorded under different conditions. The subtype whose functional connectivity differed most from those of healthy controls was less responsive to psychotherapy treatment for PTSD and failed to respond to an antidepressant medication for MDD. By contrast, both subtypes responded equally well to two different forms of repetitive transcranial magnetic stimulation therapy for MDD. Our data-driven approach may constitute a generalizable solution for connectome-based diagnosis.

KW - TRANSCRANIAL MAGNETIC STIMULATION

KW - MAJOR DEPRESSIVE DISORDER

KW - CORTICAL CORRELATION STRUCTURE

KW - PHASE-SYNCHRONIZATION

KW - TREATMENT RESPONSE

KW - VOLUME-CONDUCTION

KW - MEG

KW - THERAPY

KW - EEG

KW - NETWORKS

U2 - 10.1038/s41551-020-00614-8

DO - 10.1038/s41551-020-00614-8

M3 - Article

C2 - 33077939

SN - 2157-846X

VL - 5

SP - 309

EP - 323

JO - Nature Biomedical Engineering

JF - Nature Biomedical Engineering

IS - 4

ER -