Examining the association between posttraumatic stress disorder and disruptions in cortical networks identified using data-driven methods

Jin Yang; Ashley A. Huggins; Delin Sun; C. Lexi Baird; Courtney C. Haswell; Jessie L. Frijling; Miranda Olff; Mirjam van Zuiden; Saskia B. J. Koch; Laura Nawijn; Dick J. Veltman; Benjamin Suarez-Jimenez; Xi Zhu; Yuval Neria; Anna R. Hudson; Sven C. Mueller; Justin T. Baker; Lauren A. M. Lebois; Milissa L. Kaufman; Rongfeng Qi; Guang Ming Lu; Pavel Říha; Ivan Rektor; Emily L. Dennis; Christopher R. K. Ching; Sophia I. Thomopoulos; Lauren E. Salminen; Neda Jahanshad; Paul M. Thompson; Dan J. Stein; Sheri M. Koopowitz; Jonathan C. Ipser; Soraya Seedat; Stefan du Plessis; Leigh L. van den Heuvel; Li Wang; Ye Zhu; Gen Li; Anika Sierk; Antje Manthey; Henrik Walter; Judith K. Daniels; Christian Schmahl; Julia I. Herzog; Israel Liberzon; Anthony King; Mike Angstadt; Nicholas D. Davenport; Scott R. Sponheim; Seth G. Disner; Thomas Straube; David Hofmann; Daniel W. Grupe; Jack B. Nitschke; Richard J. Davidson; Christine L. Larson; Terri A. deRoon-Cassini; Jennifer U. Blackford; Bunmi O. Olatunji; Evan M. Gordon; Geoffrey May; Steven M. Nelson; Chadi G. Abdallah; Ifat Levy; Ilan Harpaz-Rotem; John H. Krystal; Rajendra A. Morey; Aristeidis Sotiras

doi:https://doi.org/10.1038/s41386-023-01763-5

Examining the association between posttraumatic stress disorder and disruptions in cortical networks identified using data-driven methods

Jin Yang, Ashley A. Huggins, Delin Sun, C. Lexi Baird, Courtney C. Haswell, Jessie L. Frijling, Miranda Olff, Mirjam van Zuiden, Saskia B. J. Koch, Laura Nawijn, Dick J. Veltman, Benjamin Suarez-Jimenez, Xi Zhu, Yuval Neria, Anna R. Hudson, Sven C. Mueller, Justin T. Baker, Lauren A. M. Lebois, Milissa L. Kaufman, Rongfeng QiGuang Ming Lu, Pavel Říha, Ivan Rektor, Emily L. Dennis, Christopher R. K. Ching, Sophia I. Thomopoulos, Lauren E. Salminen, Neda Jahanshad, Paul M. Thompson, Dan J. Stein, Sheri M. Koopowitz, Jonathan C. Ipser, Soraya Seedat, Stefan du Plessis, Leigh L. van den Heuvel, Li Wang, Ye Zhu, Gen Li, Anika Sierk, Antje Manthey, Henrik Walter, Judith K. Daniels, Christian Schmahl, Julia I. Herzog, Israel Liberzon, Anthony King, Mike Angstadt, Nicholas D. Davenport, Scott R. Sponheim, Seth G. Disner, Thomas Straube, David Hofmann, Daniel W. Grupe, Jack B. Nitschke, Richard J. Davidson, Christine L. Larson, Terri A. deRoon-Cassini, Jennifer U. Blackford, Bunmi O. Olatunji, Evan M. Gordon, Geoffrey May, Steven M. Nelson, Chadi G. Abdallah, Ifat Levy, Ilan Harpaz-Rotem, John H. Krystal, Rajendra A. Morey, Aristeidis Sotiras

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

Abstract

Posttraumatic stress disorder (PTSD) is associated with lower cortical thickness (CT) in prefrontal, cingulate, and insular cortices in diverse trauma-affected samples. However, some studies have failed to detect differences between PTSD patients and healthy controls or reported that PTSD is associated with greater CT. Using data-driven dimensionality reduction, we sought to conduct a well-powered study to identify vulnerable networks without regard to neuroanatomic boundaries. Moreover, this approach enabled us to avoid the excessive burden of multiple comparison correction that plagues vertex-wise methods. We derived structural covariance networks (SCNs) by applying non-negative matrix factorization (NMF) to CT data from 961 PTSD patients and 1124 trauma-exposed controls without PTSD. We used regression analyses to investigate associations between CT within SCNs and PTSD diagnosis (with and without accounting for the potential confounding effect of trauma type) and symptom severity in the full sample. We performed additional regression analyses in subsets of the data to examine associations between SCNs and comorbid depression, childhood trauma severity, and alcohol abuse. NMF identified 20 unbiased SCNs, which aligned closely with functionally defined brain networks. PTSD diagnosis was most strongly associated with diminished CT in SCNs that encompassed the bilateral superior frontal cortex, motor cortex, insular cortex, orbitofrontal cortex, medial occipital cortex, anterior cingulate cortex, and posterior cingulate cortex. CT in these networks was significantly negatively correlated with PTSD symptom severity. Collectively, these findings suggest that PTSD diagnosis is associated with widespread reductions in CT, particularly within prefrontal regulatory regions and broader emotion and sensory processing cortical regions.

Original language	English
Pages (from-to)	609-619
Number of pages	11
Journal	Neuropsychopharmacology
Volume	49
Issue number	3
Early online date	2023
DOIs	https://doi.org/10.1038/s41386-023-01763-5
Publication status	Published - Feb 2024

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Yang, J., Huggins, A. A., Sun, D., Baird, C. L., Haswell, C. C., Frijling, J. L., Olff, M., van Zuiden, M., Koch, S. B. J., Nawijn, L., Veltman, D. J., Suarez-Jimenez, B., Zhu, X., Neria, Y., Hudson, A. R., Mueller, S. C., Baker, J. T., Lebois, L. A. M., Kaufman, M. L., ... Sotiras, A. (2024). Examining the association between posttraumatic stress disorder and disruptions in cortical networks identified using data-driven methods. Neuropsychopharmacology, 49(3), 609-619. https://doi.org/10.1038/s41386-023-01763-5

@article{54cc66eb12d04b02a47a5ba176cf5fd4,

title = "Examining the association between posttraumatic stress disorder and disruptions in cortical networks identified using data-driven methods",

abstract = "Posttraumatic stress disorder (PTSD) is associated with lower cortical thickness (CT) in prefrontal, cingulate, and insular cortices in diverse trauma-affected samples. However, some studies have failed to detect differences between PTSD patients and healthy controls or reported that PTSD is associated with greater CT. Using data-driven dimensionality reduction, we sought to conduct a well-powered study to identify vulnerable networks without regard to neuroanatomic boundaries. Moreover, this approach enabled us to avoid the excessive burden of multiple comparison correction that plagues vertex-wise methods. We derived structural covariance networks (SCNs) by applying non-negative matrix factorization (NMF) to CT data from 961 PTSD patients and 1124 trauma-exposed controls without PTSD. We used regression analyses to investigate associations between CT within SCNs and PTSD diagnosis (with and without accounting for the potential confounding effect of trauma type) and symptom severity in the full sample. We performed additional regression analyses in subsets of the data to examine associations between SCNs and comorbid depression, childhood trauma severity, and alcohol abuse. NMF identified 20 unbiased SCNs, which aligned closely with functionally defined brain networks. PTSD diagnosis was most strongly associated with diminished CT in SCNs that encompassed the bilateral superior frontal cortex, motor cortex, insular cortex, orbitofrontal cortex, medial occipital cortex, anterior cingulate cortex, and posterior cingulate cortex. CT in these networks was significantly negatively correlated with PTSD symptom severity. Collectively, these findings suggest that PTSD diagnosis is associated with widespread reductions in CT, particularly within prefrontal regulatory regions and broader emotion and sensory processing cortical regions.",

author = "Jin Yang and Huggins, {Ashley A.} and Delin Sun and Baird, {C. Lexi} and Haswell, {Courtney C.} and Frijling, {Jessie L.} and Miranda Olff and {van Zuiden}, Mirjam and Koch, {Saskia B. J.} and Laura Nawijn and Veltman, {Dick J.} and Benjamin Suarez-Jimenez and Xi Zhu and Yuval Neria and Hudson, {Anna R.} and Mueller, {Sven C.} and Baker, {Justin T.} and Lebois, {Lauren A. M.} and Kaufman, {Milissa L.} and Rongfeng Qi and Lu, {Guang Ming} and Pavel {\v R}{\'i}ha and Ivan Rektor and Dennis, {Emily L.} and Ching, {Christopher R. K.} and Thomopoulos, {Sophia I.} and Salminen, {Lauren E.} and Neda Jahanshad and Thompson, {Paul M.} and Stein, {Dan J.} and Koopowitz, {Sheri M.} and Ipser, {Jonathan C.} and Soraya Seedat and {du Plessis}, Stefan and {van den Heuvel}, {Leigh L.} and Li Wang and Ye Zhu and Gen Li and Anika Sierk and Antje Manthey and Henrik Walter and Daniels, {Judith K.} and Christian Schmahl and Herzog, {Julia I.} and Israel Liberzon and Anthony King and Mike Angstadt and Davenport, {Nicholas D.} and Sponheim, {Scott R.} and Disner, {Seth G.} and Thomas Straube and David Hofmann and Grupe, {Daniel W.} and Nitschke, {Jack B.} and Davidson, {Richard J.} and Larson, {Christine L.} and deRoon-Cassini, {Terri A.} and Blackford, {Jennifer U.} and Olatunji, {Bunmi O.} and Gordon, {Evan M.} and Geoffrey May and Nelson, {Steven M.} and Abdallah, {Chadi G.} and Ifat Levy and Ilan Harpaz-Rotem and Krystal, {John H.} and Morey, {Rajendra A.} and Aristeidis Sotiras",

note = "Funding Information: The study was supported by ZonMw, the Netherlands organization for Health Research and Development (40-00812-98-10041), and by a grant from the Academic Medical Center Research Council (110614) (Miranda Olff); NIMH K01 MH118428-01 (BS-J); NARSAD 27040 (XZ); R01 MH105355 (YN); RO1 MH111671 and VISN6 MIRECC (RAM); Grant 01J05415 from the Special Research Fund (BOF) at Ghent University (SCM); K01 MH118467, Julia Kasparian Fund for Neuroscience Research (LAML); R21 MH112956, R01 MH119227, McLean Hospital Trauma Scholars Fund, Barlow Family Fund, Julia Kasaparian Fund for Neuroscience Research (MLK); The Natural Science Foundation of Jiangsu Province (No. BK20221554), and the Foundation for the Social Development Project of Jiangsu (No. BE2022705) (RQ); grant no. AZV NV18-7 04-00559 from the Ministry of Health of the Czech Republic, (P{\v R}); NIH U54 EB020403, R01 MH116147, R01 MH129742 (CRKC); R01 MH111671, R01 MH117601, R01 AG059874, MJFF 14848 (NJ); Department of Defense award number W81XWH-12-2-0012; ENIGMA was also supported in part by NIH U54 EB020403 from the Big Data to Knowledge (BD2K) program, R56 AG058854, R01 MH116147, R01 MH111671, and P41 EB015922 (PMT); funding from the SAMRC Unit on Risk & Resilience in Mental Disorders (DJS); the South African Research Chairs Initiative in Posttraumatic Stress Disorder through the Department of Science and Technology and the National Research Foundation (SS); the South African Medical Research Council for the “Shared Roots” Flagship Project, Grant no. MRC-RFA-IFSP-01-2013/SHARED ROOTS” through funding received from the South African National Treasury under its Economic Competitiveness and Support Package (SdP); funding by the South African Medical Research Council through its Division of Research Capacity Development under the SAMRC CLINICIAN RESEARCHER (M.D PHD) SCHOLARSHIP PROGRAMME from funding received from the South African National Treasury (LLvdH); the National Natural Science Foundation of China (No. U21A20364 and No. 31971020), the Key Project of the National Social Science Foundation of China (No. 20ZDA079), the Key Project of Research Base of Humanities and Social Sciences of Ministry of Education (No.16JJD190006), and the Scientific Foundation of Institute of Psychology, Chinese Academy of Sciences (No. E2CX4115CX) (LW); German Research Foundation grant to JKD (numbers DA 1222/4-1 and WA 1539/8-2) (JKD, AS, AM, HW); R01 MH113574 (IL); VA RR&D 1IK2RX000709 (NDD); VA RR&D I01RX000622; CDMRP W81XWH-08–2–0038 (SRS); VA RR&D 1K1RX002325; 1K2RX002922 (SGD); German Research Society (Deutsche Forschungsgemeinschaft, DFG; SFB/TRR 58: C06, C07) (TS, DH); Dana Foundation (to JBN); the University of Wisconsin Institute for Clinical and Translational Research (to Dr. Emma Seppala); a National Science Foundation Graduate Research Fellowship (to DWG); the National Institute of Mental Health (NIMH) R01-MH043454 and T32-MH018931 (to RJD); and a core grant to the Waisman Center from the National Institute of Child Health and Human Development (P30-HD003352); R01 MH106574 (CL & TAdeR-C); VA CSR&D 1IK2CX001680; VISN17 Center of Excellence Pilot funding (EMG, GM, SMN); VA National Center for PTSD; The Beth K and Stuart Yudofsky Chair in the Neuropsychiatry of Military Post Traumatic Stress Syndrome (CGA); R21 MH102634 (IL); R01 MH105535 (IR);Department of Veterans Affairs via support for the National Center for PTSD, NIAAA via its support for (P50) Center for the Translational Neuroscience if Alcohol, and NCATS via its support of (CTSA) Yale Center for Clinical Investigation (JHK); and R01AG067103 (ASotiras). The content of this article is the sole responsibility of the authors and does not necessarily reflect the position, policy or official views of the Department of Veterans Affairs, the U.S. Government, the South African Medical Research Council, or any other funding sources listed here. Publisher Copyright: {\textcopyright} 2023, This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.",

year = "2024",

month = feb,

doi = "https://doi.org/10.1038/s41386-023-01763-5",

language = "English",

volume = "49",

pages = "609--619",

journal = "Neuropsychopharmacology",

issn = "0893-133X",

publisher = "Nature Publishing Group",

number = "3",

}

Yang, J, Huggins, AA, Sun, D, Baird, CL, Haswell, CC, Frijling, JL, Olff, M, van Zuiden, M, Koch, SBJ, Nawijn, L , Veltman, DJ, Suarez-Jimenez, B, Zhu, X, Neria, Y, Hudson, AR, Mueller, SC, Baker, JT, Lebois, LAM, Kaufman, ML, Qi, R, Lu, GM, Říha, P, Rektor, I, Dennis, EL, Ching, CRK, Thomopoulos, SI, Salminen, LE, Jahanshad, N, Thompson, PM, Stein, DJ, Koopowitz, SM, Ipser, JC, Seedat, S, du Plessis, S, van den Heuvel, LL, Wang, L, Zhu, Y, Li, G, Sierk, A, Manthey, A, Walter, H, Daniels, JK, Schmahl, C, Herzog, JI, Liberzon, I, King, A, Angstadt, M, Davenport, ND, Sponheim, SR, Disner, SG, Straube, T, Hofmann, D, Grupe, DW, Nitschke, JB, Davidson, RJ, Larson, CL, deRoon-Cassini, TA, Blackford, JU, Olatunji, BO, Gordon, EM, May, G, Nelson, SM, Abdallah, CG, Levy, I, Harpaz-Rotem, I, Krystal, JH, Morey, RA & Sotiras, A 2024, 'Examining the association between posttraumatic stress disorder and disruptions in cortical networks identified using data-driven methods', Neuropsychopharmacology, vol. 49, no. 3, pp. 609-619. https://doi.org/10.1038/s41386-023-01763-5

TY - JOUR

T1 - Examining the association between posttraumatic stress disorder and disruptions in cortical networks identified using data-driven methods

AU - Yang, Jin

AU - Huggins, Ashley A.

AU - Sun, Delin

AU - Baird, C. Lexi

AU - Haswell, Courtney C.

AU - Frijling, Jessie L.

AU - Olff, Miranda

AU - van Zuiden, Mirjam

AU - Koch, Saskia B. J.

AU - Nawijn, Laura

AU - Veltman, Dick J.

AU - Suarez-Jimenez, Benjamin

AU - Zhu, Xi

AU - Neria, Yuval

AU - Hudson, Anna R.

AU - Mueller, Sven C.

AU - Baker, Justin T.

AU - Lebois, Lauren A. M.

AU - Kaufman, Milissa L.

AU - Qi, Rongfeng

AU - Lu, Guang Ming

AU - Říha, Pavel

AU - Rektor, Ivan

AU - Dennis, Emily L.

AU - Ching, Christopher R. K.

AU - Thomopoulos, Sophia I.

AU - Salminen, Lauren E.

AU - Jahanshad, Neda

AU - Thompson, Paul M.

AU - Stein, Dan J.

AU - Koopowitz, Sheri M.

AU - Ipser, Jonathan C.

AU - Seedat, Soraya

AU - du Plessis, Stefan

AU - van den Heuvel, Leigh L.

AU - Wang, Li

AU - Zhu, Ye

AU - Li, Gen

AU - Sierk, Anika

AU - Manthey, Antje

AU - Walter, Henrik

AU - Daniels, Judith K.

AU - Schmahl, Christian

AU - Herzog, Julia I.

AU - Liberzon, Israel

AU - King, Anthony

AU - Angstadt, Mike

AU - Davenport, Nicholas D.

AU - Sponheim, Scott R.

AU - Disner, Seth G.

AU - Straube, Thomas

AU - Hofmann, David

AU - Grupe, Daniel W.

AU - Nitschke, Jack B.

AU - Davidson, Richard J.

AU - Larson, Christine L.

AU - deRoon-Cassini, Terri A.

AU - Blackford, Jennifer U.

AU - Olatunji, Bunmi O.

AU - Gordon, Evan M.

AU - May, Geoffrey

AU - Nelson, Steven M.

AU - Abdallah, Chadi G.

AU - Levy, Ifat

AU - Harpaz-Rotem, Ilan

AU - Krystal, John H.

AU - Morey, Rajendra A.

AU - Sotiras, Aristeidis

N1 - Funding Information: The study was supported by ZonMw, the Netherlands organization for Health Research and Development (40-00812-98-10041), and by a grant from the Academic Medical Center Research Council (110614) (Miranda Olff); NIMH K01 MH118428-01 (BS-J); NARSAD 27040 (XZ); R01 MH105355 (YN); RO1 MH111671 and VISN6 MIRECC (RAM); Grant 01J05415 from the Special Research Fund (BOF) at Ghent University (SCM); K01 MH118467, Julia Kasparian Fund for Neuroscience Research (LAML); R21 MH112956, R01 MH119227, McLean Hospital Trauma Scholars Fund, Barlow Family Fund, Julia Kasaparian Fund for Neuroscience Research (MLK); The Natural Science Foundation of Jiangsu Province (No. BK20221554), and the Foundation for the Social Development Project of Jiangsu (No. BE2022705) (RQ); grant no. AZV NV18-7 04-00559 from the Ministry of Health of the Czech Republic, (PŘ); NIH U54 EB020403, R01 MH116147, R01 MH129742 (CRKC); R01 MH111671, R01 MH117601, R01 AG059874, MJFF 14848 (NJ); Department of Defense award number W81XWH-12-2-0012; ENIGMA was also supported in part by NIH U54 EB020403 from the Big Data to Knowledge (BD2K) program, R56 AG058854, R01 MH116147, R01 MH111671, and P41 EB015922 (PMT); funding from the SAMRC Unit on Risk & Resilience in Mental Disorders (DJS); the South African Research Chairs Initiative in Posttraumatic Stress Disorder through the Department of Science and Technology and the National Research Foundation (SS); the South African Medical Research Council for the “Shared Roots” Flagship Project, Grant no. MRC-RFA-IFSP-01-2013/SHARED ROOTS” through funding received from the South African National Treasury under its Economic Competitiveness and Support Package (SdP); funding by the South African Medical Research Council through its Division of Research Capacity Development under the SAMRC CLINICIAN RESEARCHER (M.D PHD) SCHOLARSHIP PROGRAMME from funding received from the South African National Treasury (LLvdH); the National Natural Science Foundation of China (No. U21A20364 and No. 31971020), the Key Project of the National Social Science Foundation of China (No. 20ZDA079), the Key Project of Research Base of Humanities and Social Sciences of Ministry of Education (No.16JJD190006), and the Scientific Foundation of Institute of Psychology, Chinese Academy of Sciences (No. E2CX4115CX) (LW); German Research Foundation grant to JKD (numbers DA 1222/4-1 and WA 1539/8-2) (JKD, AS, AM, HW); R01 MH113574 (IL); VA RR&D 1IK2RX000709 (NDD); VA RR&D I01RX000622; CDMRP W81XWH-08–2–0038 (SRS); VA RR&D 1K1RX002325; 1K2RX002922 (SGD); German Research Society (Deutsche Forschungsgemeinschaft, DFG; SFB/TRR 58: C06, C07) (TS, DH); Dana Foundation (to JBN); the University of Wisconsin Institute for Clinical and Translational Research (to Dr. Emma Seppala); a National Science Foundation Graduate Research Fellowship (to DWG); the National Institute of Mental Health (NIMH) R01-MH043454 and T32-MH018931 (to RJD); and a core grant to the Waisman Center from the National Institute of Child Health and Human Development (P30-HD003352); R01 MH106574 (CL & TAdeR-C); VA CSR&D 1IK2CX001680; VISN17 Center of Excellence Pilot funding (EMG, GM, SMN); VA National Center for PTSD; The Beth K and Stuart Yudofsky Chair in the Neuropsychiatry of Military Post Traumatic Stress Syndrome (CGA); R21 MH102634 (IL); R01 MH105535 (IR);Department of Veterans Affairs via support for the National Center for PTSD, NIAAA via its support for (P50) Center for the Translational Neuroscience if Alcohol, and NCATS via its support of (CTSA) Yale Center for Clinical Investigation (JHK); and R01AG067103 (ASotiras). The content of this article is the sole responsibility of the authors and does not necessarily reflect the position, policy or official views of the Department of Veterans Affairs, the U.S. Government, the South African Medical Research Council, or any other funding sources listed here. Publisher Copyright: © 2023, This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.

PY - 2024/2

Y1 - 2024/2

N2 - Posttraumatic stress disorder (PTSD) is associated with lower cortical thickness (CT) in prefrontal, cingulate, and insular cortices in diverse trauma-affected samples. However, some studies have failed to detect differences between PTSD patients and healthy controls or reported that PTSD is associated with greater CT. Using data-driven dimensionality reduction, we sought to conduct a well-powered study to identify vulnerable networks without regard to neuroanatomic boundaries. Moreover, this approach enabled us to avoid the excessive burden of multiple comparison correction that plagues vertex-wise methods. We derived structural covariance networks (SCNs) by applying non-negative matrix factorization (NMF) to CT data from 961 PTSD patients and 1124 trauma-exposed controls without PTSD. We used regression analyses to investigate associations between CT within SCNs and PTSD diagnosis (with and without accounting for the potential confounding effect of trauma type) and symptom severity in the full sample. We performed additional regression analyses in subsets of the data to examine associations between SCNs and comorbid depression, childhood trauma severity, and alcohol abuse. NMF identified 20 unbiased SCNs, which aligned closely with functionally defined brain networks. PTSD diagnosis was most strongly associated with diminished CT in SCNs that encompassed the bilateral superior frontal cortex, motor cortex, insular cortex, orbitofrontal cortex, medial occipital cortex, anterior cingulate cortex, and posterior cingulate cortex. CT in these networks was significantly negatively correlated with PTSD symptom severity. Collectively, these findings suggest that PTSD diagnosis is associated with widespread reductions in CT, particularly within prefrontal regulatory regions and broader emotion and sensory processing cortical regions.

AB - Posttraumatic stress disorder (PTSD) is associated with lower cortical thickness (CT) in prefrontal, cingulate, and insular cortices in diverse trauma-affected samples. However, some studies have failed to detect differences between PTSD patients and healthy controls or reported that PTSD is associated with greater CT. Using data-driven dimensionality reduction, we sought to conduct a well-powered study to identify vulnerable networks without regard to neuroanatomic boundaries. Moreover, this approach enabled us to avoid the excessive burden of multiple comparison correction that plagues vertex-wise methods. We derived structural covariance networks (SCNs) by applying non-negative matrix factorization (NMF) to CT data from 961 PTSD patients and 1124 trauma-exposed controls without PTSD. We used regression analyses to investigate associations between CT within SCNs and PTSD diagnosis (with and without accounting for the potential confounding effect of trauma type) and symptom severity in the full sample. We performed additional regression analyses in subsets of the data to examine associations between SCNs and comorbid depression, childhood trauma severity, and alcohol abuse. NMF identified 20 unbiased SCNs, which aligned closely with functionally defined brain networks. PTSD diagnosis was most strongly associated with diminished CT in SCNs that encompassed the bilateral superior frontal cortex, motor cortex, insular cortex, orbitofrontal cortex, medial occipital cortex, anterior cingulate cortex, and posterior cingulate cortex. CT in these networks was significantly negatively correlated with PTSD symptom severity. Collectively, these findings suggest that PTSD diagnosis is associated with widespread reductions in CT, particularly within prefrontal regulatory regions and broader emotion and sensory processing cortical regions.

UR - http://www.scopus.com/inward/record.url?scp=85177736426&partnerID=8YFLogxK

U2 - https://doi.org/10.1038/s41386-023-01763-5

DO - https://doi.org/10.1038/s41386-023-01763-5

M3 - Article

C2 - 38017161

SN - 0893-133X

VL - 49

SP - 609

EP - 619

JO - Neuropsychopharmacology

JF - Neuropsychopharmacology

IS - 3

ER -

Examining the association between posttraumatic stress disorder and disruptions in cortical networks identified using data-driven methods

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