Repeat traumatic brain injury exacerbates acute thalamic hyperconnectivity in humans

Rebecca E. Woodrow; David K. Menon; Emmanuel A. Stamatakis; Krisztina Amrein; Nada Andelic; Lasse Andreassen; Audny Anke; Philippe Azouvi; Bomichael Bellander; Habib Benali; Andras Buki; Alessio Caccioppola; Emiliana Calappi; Marco Carbonara; Giuseppe Citerio; Hans Clusmann; Mark Coburn; Jonathan Coles; Marta Correia; Endre Czeiter; Véronique De Keyser; Vincent Degos; Bart Depreitere; Live Eikenes; Erzsébet Ezer; Kelly Foks; Shirin Frisvold; Damien Galanaud; Alexandre Ghuysen; Ben Glocker; Asta Haberg; Iain Haitsma; Eirik Helseth; Peter J. Hutchinson; Evgenios Kornaropoulos; Noémi Kovács; Ana Kowark; Steven Laureys; Didier Ledoux; Hester Lingsma; Andrew I.R. Maas; Geoffrey Manley; Tomas Menovsky; Benoit Misset; Visakh Muraleedharan; Ingeborg Nakken; Virginia Newcombe; Wibeke Nordhøy; József Nyirádi; Fabrizio Ortolano; Paul M. Parizel; Vincent Perlbarg; Paolo Persona; Wilco Peul; Jussi P. Posti; Louis Puybasset; Sophie Richter; Cecilie Roe; Olav Roise; Rolf Rossaint; Sandra Ross; Daniel Rueckert; Ranjit D. Singh; Toril Skandsen; Abayomi Sorinola; Ewout W. Steyerberg; Nino Stocchetti; Riikka Takala; Viktória Tamás; Olli Tenovuo; Aurore Thibaut; Zoltán Vámos; Gregory Van Der Steen; Inge A. Van Erp; Wim Van Hecke; Thijs Vande Vyvere; Jan Verheyden; Anne Vik; Victor Volovici; Lars T. Westlye; Daniel Whitehouse; Guy Williams; Stefan Winzeck; Peter Ylén; Tommaso Zoerle

doi:10.1093/braincomms/fcae223

Repeat traumatic brain injury exacerbates acute thalamic hyperconnectivity in humans

Rebecca E. Woodrow, David K. Menon, Emmanuel A. Stamatakis, Krisztina Amrein, Nada Andelic, Lasse Andreassen, Audny Anke, Philippe Azouvi, Bomichael Bellander, Habib Benali, Andras Buki, Alessio Caccioppola, Emiliana Calappi, Marco Carbonara, Giuseppe Citerio, Hans Clusmann, Mark Coburn, Jonathan Coles, Marta Correia, Endre CzeiterVéronique De Keyser, Vincent Degos, Bart Depreitere, Live Eikenes, Erzsébet Ezer, Kelly Foks, Shirin Frisvold, Damien Galanaud, Alexandre Ghuysen, Ben Glocker, Asta Haberg, Iain Haitsma, Eirik Helseth, Peter J. Hutchinson, Evgenios Kornaropoulos, Noémi Kovács, Ana Kowark, Steven Laureys, Didier Ledoux, Hester Lingsma, Andrew I.R. Maas, Geoffrey Manley, Tomas Menovsky, Benoit Misset, Visakh Muraleedharan, Ingeborg Nakken, Virginia Newcombe, Wibeke Nordhøy, József Nyirádi, Fabrizio Ortolano, Paul M. Parizel, Vincent Perlbarg, Paolo Persona, Wilco Peul, Jussi P. Posti, Louis Puybasset, Sophie Richter, Cecilie Roe, Olav Roise, Rolf Rossaint, Sandra Ross, Daniel Rueckert, Ranjit D. Singh, Toril Skandsen, Abayomi Sorinola, Ewout W. Steyerberg, Nino Stocchetti, Riikka Takala, Viktória Tamás, Olli Tenovuo, Aurore Thibaut, Zoltán Vámos, Gregory Van Der Steen, Inge A. Van Erp, Wim Van Hecke, Thijs Vande Vyvere, Jan Verheyden, Anne Vik, Victor Volovici, Lars T. Westlye, Daniel Whitehouse, Guy Williams, Stefan Winzeck, Peter Ylén, Tommaso Zoerle

Informatics 31 - Chair of Artificial Intelligence in Healthcare and Medicine

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

1 Scopus citations

Abstract

Repeated mild traumatic brain injury is of growing interest regarding public and sporting safety and is thought to have greater adverse or cumulative neurological effects when compared with single injury. While epidemiological links between repeated traumatic brain injury and outcome have been investigated in humans, exploration of its mechanistic substrates has been largely undertaken in animal models. We compared acute neurological effects of repeat mild traumatic brain injury (n = 21) to that of single injury (n = 21) and healthy controls (n = 76) using resting-state functional MRI and quantified thalamic functional connectivity, given previous identification of its prognostic potential in human mild traumatic brain injury and rodent repeat mild traumatic brain injury. Acute thalamocortical functional connectivity showed a rank-based trend of increasing connectivity with number of injuries, at local and global scales of investigation. Thus, history of as few as two previous injuries can induce a vulnerable neural environment of exacerbated hyperconnectivity, in otherwise healthy individuals from non-specialist populations. These results further establish thalamocortical functional connectivity as a scalable marker of acute injury and long-Term neural dysfunction following mild traumatic brain injury.

Original language	English
Article number	fcae223
Journal	Brain Communications
Volume	6
Issue number	4
DOIs	https://doi.org/10.1093/braincomms/fcae223
State	Published - 2024

Keywords

concussion
fMRI
mild traumatic brain injury
neuroimaging
thalamus

UN SDGs

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

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10.1093/braincomms/fcae223

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Woodrow, R. E., Menon, D. K., Stamatakis, E. A., Amrein, K., Andelic, N., Andreassen, L., Anke, A., Azouvi, P., Bellander, B., Benali, H., Buki, A., Caccioppola, A., Calappi, E., Carbonara, M., Citerio, G., Clusmann, H., Coburn, M., Coles, J., Correia, M., ... Zoerle, T. (2024). Repeat traumatic brain injury exacerbates acute thalamic hyperconnectivity in humans. Brain Communications, 6(4), Article fcae223. https://doi.org/10.1093/braincomms/fcae223

@article{71d3de1d212148abbda7b45d6cc00a77,

title = "Repeat traumatic brain injury exacerbates acute thalamic hyperconnectivity in humans",

abstract = "Repeated mild traumatic brain injury is of growing interest regarding public and sporting safety and is thought to have greater adverse or cumulative neurological effects when compared with single injury. While epidemiological links between repeated traumatic brain injury and outcome have been investigated in humans, exploration of its mechanistic substrates has been largely undertaken in animal models. We compared acute neurological effects of repeat mild traumatic brain injury (n = 21) to that of single injury (n = 21) and healthy controls (n = 76) using resting-state functional MRI and quantified thalamic functional connectivity, given previous identification of its prognostic potential in human mild traumatic brain injury and rodent repeat mild traumatic brain injury. Acute thalamocortical functional connectivity showed a rank-based trend of increasing connectivity with number of injuries, at local and global scales of investigation. Thus, history of as few as two previous injuries can induce a vulnerable neural environment of exacerbated hyperconnectivity, in otherwise healthy individuals from non-specialist populations. These results further establish thalamocortical functional connectivity as a scalable marker of acute injury and long-Term neural dysfunction following mild traumatic brain injury.",

keywords = "concussion, fMRI, mild traumatic brain injury, neuroimaging, thalamus",

author = "Woodrow, {Rebecca E.} and Menon, {David K.} and Stamatakis, {Emmanuel A.} and Krisztina Amrein and Nada Andelic and Lasse Andreassen and Audny Anke and Philippe Azouvi and Bomichael Bellander and Habib Benali and Andras Buki and Alessio Caccioppola and Emiliana Calappi and Marco Carbonara and Giuseppe Citerio and Hans Clusmann and Mark Coburn and Jonathan Coles and Marta Correia and Endre Czeiter and {De Keyser}, V{\'e}ronique and Vincent Degos and Bart Depreitere and Live Eikenes and Erzs{\'e}bet Ezer and Kelly Foks and Shirin Frisvold and Damien Galanaud and Alexandre Ghuysen and Ben Glocker and Asta Haberg and Iain Haitsma and Eirik Helseth and Hutchinson, {Peter J.} and Evgenios Kornaropoulos and No{\'e}mi Kov{\'a}cs and Ana Kowark and Steven Laureys and Didier Ledoux and Hester Lingsma and Maas, {Andrew I.R.} and Geoffrey Manley and Tomas Menovsky and Benoit Misset and Visakh Muraleedharan and Ingeborg Nakken and Virginia Newcombe and Wibeke Nordh{\o}y and J{\'o}zsef Nyir{\'a}di and Fabrizio Ortolano and Parizel, {Paul M.} and Vincent Perlbarg and Paolo Persona and Wilco Peul and Posti, {Jussi P.} and Louis Puybasset and Sophie Richter and Cecilie Roe and Olav Roise and Rolf Rossaint and Sandra Ross and Daniel Rueckert and Singh, {Ranjit D.} and Toril Skandsen and Abayomi Sorinola and Steyerberg, {Ewout W.} and Nino Stocchetti and Riikka Takala and Vikt{\'o}ria Tam{\'a}s and Olli Tenovuo and Aurore Thibaut and Zolt{\'a}n V{\'a}mos and {Van Der Steen}, Gregory and {Van Erp}, {Inge A.} and {Van Hecke}, Wim and Vyvere, {Thijs Vande} and Jan Verheyden and Anne Vik and Victor Volovici and Westlye, {Lars T.} and Daniel Whitehouse and Guy Williams and Stefan Winzeck and Peter Yl{\'e}n and Tommaso Zoerle",

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

year = "2024",

doi = "10.1093/braincomms/fcae223",

language = "English",

volume = "6",

journal = "Brain Communications",

issn = "2632-1297",

publisher = "Oxford University Press",

number = "4",

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Woodrow, RE, Menon, DK, Stamatakis, EA, Amrein, K, Andelic, N, Andreassen, L, Anke, A, Azouvi, P, Bellander, B, Benali, H, Buki, A, Caccioppola, A, Calappi, E, Carbonara, M, Citerio, G, Clusmann, H, Coburn, M, Coles, J, Correia, M, Czeiter, E, De Keyser, V, Degos, V, Depreitere, B, Eikenes, L, Ezer, E, Foks, K, Frisvold, S, Galanaud, D, Ghuysen, A, Glocker, B, Haberg, A, Haitsma, I, Helseth, E, Hutchinson, PJ, Kornaropoulos, E, Kovács, N, Kowark, A, Laureys, S, Ledoux, D, Lingsma, H, Maas, AIR, Manley, G, Menovsky, T, Misset, B, Muraleedharan, V, Nakken, I, Newcombe, V, Nordhøy, W, Nyirádi, J, Ortolano, F, Parizel, PM, Perlbarg, V, Persona, P, Peul, W, Posti, JP, Puybasset, L, Richter, S, Roe, C, Roise, O, Rossaint, R, Ross, S, Rueckert, D, Singh, RD, Skandsen, T, Sorinola, A, Steyerberg, EW, Stocchetti, N, Takala, R, Tamás, V, Tenovuo, O, Thibaut, A, Vámos, Z, Van Der Steen, G, Van Erp, IA, Van Hecke, W, Vyvere, TV, Verheyden, J, Vik, A, Volovici, V, Westlye, LT, Whitehouse, D, Williams, G, Winzeck, S, Ylén, P & Zoerle, T 2024, 'Repeat traumatic brain injury exacerbates acute thalamic hyperconnectivity in humans', Brain Communications, vol. 6, no. 4, fcae223. https://doi.org/10.1093/braincomms/fcae223

TY - JOUR

T1 - Repeat traumatic brain injury exacerbates acute thalamic hyperconnectivity in humans

AU - Woodrow, Rebecca E.

AU - Menon, David K.

AU - Stamatakis, Emmanuel A.

AU - Amrein, Krisztina

AU - Andelic, Nada

AU - Andreassen, Lasse

AU - Anke, Audny

AU - Azouvi, Philippe

AU - Bellander, Bomichael

AU - Benali, Habib

AU - Buki, Andras

AU - Caccioppola, Alessio

AU - Calappi, Emiliana

AU - Carbonara, Marco

AU - Citerio, Giuseppe

AU - Clusmann, Hans

AU - Coburn, Mark

AU - Coles, Jonathan

AU - Correia, Marta

AU - Czeiter, Endre

AU - De Keyser, Véronique

AU - Degos, Vincent

AU - Depreitere, Bart

AU - Eikenes, Live

AU - Ezer, Erzsébet

AU - Foks, Kelly

AU - Frisvold, Shirin

AU - Galanaud, Damien

AU - Ghuysen, Alexandre

AU - Glocker, Ben

AU - Haberg, Asta

AU - Haitsma, Iain

AU - Helseth, Eirik

AU - Hutchinson, Peter J.

AU - Kornaropoulos, Evgenios

AU - Kovács, Noémi

AU - Kowark, Ana

AU - Laureys, Steven

AU - Ledoux, Didier

AU - Lingsma, Hester

AU - Maas, Andrew I.R.

AU - Manley, Geoffrey

AU - Menovsky, Tomas

AU - Misset, Benoit

AU - Muraleedharan, Visakh

AU - Nakken, Ingeborg

AU - Newcombe, Virginia

AU - Nordhøy, Wibeke

AU - Nyirádi, József

AU - Ortolano, Fabrizio

AU - Parizel, Paul M.

AU - Perlbarg, Vincent

AU - Persona, Paolo

AU - Peul, Wilco

AU - Posti, Jussi P.

AU - Puybasset, Louis

AU - Richter, Sophie

AU - Roe, Cecilie

AU - Roise, Olav

AU - Rossaint, Rolf

AU - Ross, Sandra

AU - Rueckert, Daniel

AU - Singh, Ranjit D.

AU - Skandsen, Toril

AU - Sorinola, Abayomi

AU - Steyerberg, Ewout W.

AU - Stocchetti, Nino

AU - Takala, Riikka

AU - Tamás, Viktória

AU - Tenovuo, Olli

AU - Thibaut, Aurore

AU - Vámos, Zoltán

AU - Van Der Steen, Gregory

AU - Van Erp, Inge A.

AU - Van Hecke, Wim

AU - Vyvere, Thijs Vande

AU - Verheyden, Jan

AU - Vik, Anne

AU - Volovici, Victor

AU - Westlye, Lars T.

AU - Whitehouse, Daniel

AU - Williams, Guy

AU - Winzeck, Stefan

AU - Ylén, Peter

AU - Zoerle, Tommaso

PY - 2024

Y1 - 2024

N2 - Repeated mild traumatic brain injury is of growing interest regarding public and sporting safety and is thought to have greater adverse or cumulative neurological effects when compared with single injury. While epidemiological links between repeated traumatic brain injury and outcome have been investigated in humans, exploration of its mechanistic substrates has been largely undertaken in animal models. We compared acute neurological effects of repeat mild traumatic brain injury (n = 21) to that of single injury (n = 21) and healthy controls (n = 76) using resting-state functional MRI and quantified thalamic functional connectivity, given previous identification of its prognostic potential in human mild traumatic brain injury and rodent repeat mild traumatic brain injury. Acute thalamocortical functional connectivity showed a rank-based trend of increasing connectivity with number of injuries, at local and global scales of investigation. Thus, history of as few as two previous injuries can induce a vulnerable neural environment of exacerbated hyperconnectivity, in otherwise healthy individuals from non-specialist populations. These results further establish thalamocortical functional connectivity as a scalable marker of acute injury and long-Term neural dysfunction following mild traumatic brain injury.

AB - Repeated mild traumatic brain injury is of growing interest regarding public and sporting safety and is thought to have greater adverse or cumulative neurological effects when compared with single injury. While epidemiological links between repeated traumatic brain injury and outcome have been investigated in humans, exploration of its mechanistic substrates has been largely undertaken in animal models. We compared acute neurological effects of repeat mild traumatic brain injury (n = 21) to that of single injury (n = 21) and healthy controls (n = 76) using resting-state functional MRI and quantified thalamic functional connectivity, given previous identification of its prognostic potential in human mild traumatic brain injury and rodent repeat mild traumatic brain injury. Acute thalamocortical functional connectivity showed a rank-based trend of increasing connectivity with number of injuries, at local and global scales of investigation. Thus, history of as few as two previous injuries can induce a vulnerable neural environment of exacerbated hyperconnectivity, in otherwise healthy individuals from non-specialist populations. These results further establish thalamocortical functional connectivity as a scalable marker of acute injury and long-Term neural dysfunction following mild traumatic brain injury.

KW - concussion

KW - fMRI

KW - mild traumatic brain injury

KW - neuroimaging

KW - thalamus

UR - http://www.scopus.com/inward/record.url?scp=85199422520&partnerID=8YFLogxK

U2 - 10.1093/braincomms/fcae223

DO - 10.1093/braincomms/fcae223

M3 - Article

AN - SCOPUS:85199422520

SN - 2632-1297

VL - 6

JO - Brain Communications

JF - Brain Communications

IS - 4

M1 - fcae223

ER -

Repeat traumatic brain injury exacerbates acute thalamic hyperconnectivity in humans

Abstract

Keywords

UN SDGs

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