E.L., a modern-day Phineas Gage: Revisiting frontal lobe injury

Pedro H.M. de Freitas; Ruy C. Monteiro; Raphael M. Bertani; Caio M. Perret; Pedro C. Rodrigues; Joana Vicentini; Tagore M.Gonzalez de Morais; Stefano F.A. Rozental; Gustavo F. Galvão; Fabricio de Mattos; Fernando A. Vasconcelos; Ivan S. Dorio; Cintya Y. Hayashi; Jorge R.L. dos Santos; Guilherme L. Werneck; Carla T.Ferreira Tocquer; Claudia Capitão; Luiz C.Hygino da Cruz; Jaan Tulviste; Mario Fiorani; Marcos M. da Silva; Wellingson S. Paiva; Kenneth Podell; Howard J. Federoff; Divyen H. Patel; Fred Lado; Elkhonon Goldberg; Rodolfo Llinás; Michael V.L. Bennett; Renato Rozental

doi:10.1016/j.lana.2022.100340

E.L., a modern-day Phineas Gage: Revisiting frontal lobe injury

Pedro H.M. de Freitas, Ruy C. Monteiro, Raphael M. Bertani, Caio M. Perret, Pedro C. Rodrigues, Joana Vicentini, Tagore M.Gonzalez de Morais, Stefano F.A. Rozental, Gustavo F. Galvão, Fabricio de Mattos, Fernando A. Vasconcelos, Ivan S. Dorio, Cintya Y. Hayashi, Jorge R.L. dos Santos, Guilherme L. Werneck, Carla T.Ferreira Tocquer, Claudia Capitão, Luiz C.Hygino da Cruz, Jaan Tulviste, Mario FioraniMarcos M. da Silva, Wellingson S. Paiva, Kenneth Podell, Howard J. Federoff, Divyen H. Patel, Fred Lado, Elkhonon Goldberg, Rodolfo Llinás, Michael V.L. Bennett, Renato Rozental

Neuroscience

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

Abstract

Background: How the prefrontal cortex (PFC) recovers its functionality following lesions remains a conundrum. Recent work has uncovered the importance of transient low-frequency oscillatory activity (LFO; < 4 Hz) for the recovery of an injured brain. We aimed to determine whether persistent cortical oscillatory dynamics contribute to brain capability to support ‘normal life’ following injury. Methods: In this 9-year prospective longitudinal study (08/2012-2021), we collected data from the patient E.L., a modern-day Phineas Gage, who suffered from lesions, impacting 11% of his total brain mass, to his right PFC and supplementary motor area after his skull was transfixed by an iron rod. A systematic evaluation of clinical, electrophysiologic, brain imaging, neuropsychological and behavioural testing were used to clarify the clinical significance of relationship between LFO discharge and executive dysfunctions and compare E.L.´s disorders to that attributed to Gage (1848), a landmark in the history of neurology and neuroscience. Findings: Selective recruitment of the non-injured left hemisphere during execution of unimanual right-hand movements resulted in the emergence of robust LFO, an EEG-detected marker for disconnection of brain areas, in the damaged right hemisphere. In contrast, recruitment of the damaged right hemisphere during contralateral hand movement, resulted in the co-activation of the left hemisphere and decreased right hemisphere LFO to levels of controls enabling performance, suggesting a target for neuromodulation. Similarly, transcranial magnetic stimulation (TMS), used to create a temporary virtual-lesion over E.L.’s healthy hemisphere, disrupted the modulation of contralateral LFO, disturbing behaviour and impairing executive function tasks. In contrast to Gage, reasoning, planning, working memory, social, sexual and family behaviours eluded clinical inspection by decreasing LFO in the delta frequency range during motor and executive functioning. Interpretation: Our study suggests that modulation of LFO dynamics is an important mechanism by which PFC accommodates neurological injuries, supporting the reports of Gage´s recovery, and represents an attractive target for therapeutic interventions. Funding: Fundação de Amparo Pesquisa Rio de Janeiro (FAPERJ), Universidade Federal do Rio de Janeiro (intramural), and Fiocruz/Ministery of Health (INOVA Fiocruz).

Original language	English (US)
Article number	100340
Journal	The Lancet Regional Health - Americas
Volume	14
DOIs	https://doi.org/10.1016/j.lana.2022.100340
State	Published - Oct 2022

Keywords

Corpus callosum (C.C.)
Low Frequency Oscillations
Magnetic Resonance Imaging (MRI)
Neuropsychological tests
Phineas Gage
Prefrontal cortex (PFC)
Transcranial Magnetic Stimulation
Traumatic brain injury (TBI)

ASJC Scopus subject areas

Public Health, Environmental and Occupational Health
Health Policy
Internal Medicine

UN SDGs

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

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10.1016/j.lana.2022.100340

Cite this

de Freitas, P. H. M., Monteiro, R. C., Bertani, R. M., Perret, C. M., Rodrigues, P. C., Vicentini, J., de Morais, T. M. G., Rozental, S. F. A., Galvão, G. F., de Mattos, F., Vasconcelos, F. A., Dorio, I. S., Hayashi, C. Y., dos Santos, J. R. L., Werneck, G. L., Tocquer, C. T. F., Capitão, C., da Cruz, L. C. H., Tulviste, J., ... Rozental, R. (2022). E.L., a modern-day Phineas Gage: Revisiting frontal lobe injury. The Lancet Regional Health - Americas, 14, Article 100340. https://doi.org/10.1016/j.lana.2022.100340

de Freitas, PHM, Monteiro, RC, Bertani, RM, Perret, CM, Rodrigues, PC, Vicentini, J, de Morais, TMG, Rozental, SFA, Galvão, GF, de Mattos, F, Vasconcelos, FA, Dorio, IS, Hayashi, CY, dos Santos, JRL, Werneck, GL, Tocquer, CTF, Capitão, C, da Cruz, LCH, Tulviste, J, Fiorani, M, da Silva, MM, Paiva, WS, Podell, K, Federoff, HJ, Patel, DH, Lado, F, Goldberg, E, Llinás, R, Bennett, MVL & Rozental, R 2022, 'E.L., a modern-day Phineas Gage: Revisiting frontal lobe injury', The Lancet Regional Health - Americas, vol. 14, 100340. https://doi.org/10.1016/j.lana.2022.100340

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title = "E.L., a modern-day Phineas Gage: Revisiting frontal lobe injury",

abstract = "Background: How the prefrontal cortex (PFC) recovers its functionality following lesions remains a conundrum. Recent work has uncovered the importance of transient low-frequency oscillatory activity (LFO; < 4 Hz) for the recovery of an injured brain. We aimed to determine whether persistent cortical oscillatory dynamics contribute to brain capability to support {\textquoteleft}normal life{\textquoteright} following injury. Methods: In this 9-year prospective longitudinal study (08/2012-2021), we collected data from the patient E.L., a modern-day Phineas Gage, who suffered from lesions, impacting 11% of his total brain mass, to his right PFC and supplementary motor area after his skull was transfixed by an iron rod. A systematic evaluation of clinical, electrophysiologic, brain imaging, neuropsychological and behavioural testing were used to clarify the clinical significance of relationship between LFO discharge and executive dysfunctions and compare E.L.´s disorders to that attributed to Gage (1848), a landmark in the history of neurology and neuroscience. Findings: Selective recruitment of the non-injured left hemisphere during execution of unimanual right-hand movements resulted in the emergence of robust LFO, an EEG-detected marker for disconnection of brain areas, in the damaged right hemisphere. In contrast, recruitment of the damaged right hemisphere during contralateral hand movement, resulted in the co-activation of the left hemisphere and decreased right hemisphere LFO to levels of controls enabling performance, suggesting a target for neuromodulation. Similarly, transcranial magnetic stimulation (TMS), used to create a temporary virtual-lesion over E.L.{\textquoteright}s healthy hemisphere, disrupted the modulation of contralateral LFO, disturbing behaviour and impairing executive function tasks. In contrast to Gage, reasoning, planning, working memory, social, sexual and family behaviours eluded clinical inspection by decreasing LFO in the delta frequency range during motor and executive functioning. Interpretation: Our study suggests that modulation of LFO dynamics is an important mechanism by which PFC accommodates neurological injuries, supporting the reports of Gage´s recovery, and represents an attractive target for therapeutic interventions. Funding: Funda{\c c}{\~a}o de Amparo Pesquisa Rio de Janeiro (FAPERJ), Universidade Federal do Rio de Janeiro (intramural), and Fiocruz/Ministery of Health (INOVA Fiocruz).",

keywords = "Corpus callosum (C.C.), Low Frequency Oscillations, Magnetic Resonance Imaging (MRI), Neuropsychological tests, Phineas Gage, Prefrontal cortex (PFC), Transcranial Magnetic Stimulation, Traumatic brain injury (TBI)",

author = "{de Freitas}, {Pedro H.M.} and Monteiro, {Ruy C.} and Bertani, {Raphael M.} and Perret, {Caio M.} and Rodrigues, {Pedro C.} and Joana Vicentini and {de Morais}, {Tagore M.Gonzalez} and Rozental, {Stefano F.A.} and Galv{\~a}o, {Gustavo F.} and {de Mattos}, Fabricio and Vasconcelos, {Fernando A.} and Dorio, {Ivan S.} and Hayashi, {Cintya Y.} and {dos Santos}, {Jorge R.L.} and Werneck, {Guilherme L.} and Tocquer, {Carla T.Ferreira} and Claudia Capit{\~a}o and {da Cruz}, {Luiz C.Hygino} and Jaan Tulviste and Mario Fiorani and {da Silva}, {Marcos M.} and Paiva, {Wellingson S.} and Kenneth Podell and Federoff, {Howard J.} and Patel, {Divyen H.} and Fred Lado and Elkhonon Goldberg and Rodolfo Llin{\'a}s and Bennett, {Michael V.L.} and Renato Rozental",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors",

year = "2022",

month = oct,

doi = "10.1016/j.lana.2022.100340",

language = "English (US)",

volume = "14",

journal = "The Lancet Regional Health - Americas",

issn = "2667-193X",

publisher = "Elsevier Ltd",

}

TY - JOUR

T1 - E.L., a modern-day Phineas Gage

T2 - Revisiting frontal lobe injury

AU - de Freitas, Pedro H.M.

AU - Monteiro, Ruy C.

AU - Bertani, Raphael M.

AU - Perret, Caio M.

AU - Rodrigues, Pedro C.

AU - Vicentini, Joana

AU - de Morais, Tagore M.Gonzalez

AU - Rozental, Stefano F.A.

AU - Galvão, Gustavo F.

AU - de Mattos, Fabricio

AU - Vasconcelos, Fernando A.

AU - Dorio, Ivan S.

AU - Hayashi, Cintya Y.

AU - dos Santos, Jorge R.L.

AU - Werneck, Guilherme L.

AU - Tocquer, Carla T.Ferreira

AU - Capitão, Claudia

AU - da Cruz, Luiz C.Hygino

AU - Tulviste, Jaan

AU - Fiorani, Mario

AU - da Silva, Marcos M.

AU - Paiva, Wellingson S.

AU - Podell, Kenneth

AU - Federoff, Howard J.

AU - Patel, Divyen H.

AU - Lado, Fred

AU - Goldberg, Elkhonon

AU - Llinás, Rodolfo

AU - Bennett, Michael V.L.

AU - Rozental, Renato

PY - 2022/10

Y1 - 2022/10

N2 - Background: How the prefrontal cortex (PFC) recovers its functionality following lesions remains a conundrum. Recent work has uncovered the importance of transient low-frequency oscillatory activity (LFO; < 4 Hz) for the recovery of an injured brain. We aimed to determine whether persistent cortical oscillatory dynamics contribute to brain capability to support ‘normal life’ following injury. Methods: In this 9-year prospective longitudinal study (08/2012-2021), we collected data from the patient E.L., a modern-day Phineas Gage, who suffered from lesions, impacting 11% of his total brain mass, to his right PFC and supplementary motor area after his skull was transfixed by an iron rod. A systematic evaluation of clinical, electrophysiologic, brain imaging, neuropsychological and behavioural testing were used to clarify the clinical significance of relationship between LFO discharge and executive dysfunctions and compare E.L.´s disorders to that attributed to Gage (1848), a landmark in the history of neurology and neuroscience. Findings: Selective recruitment of the non-injured left hemisphere during execution of unimanual right-hand movements resulted in the emergence of robust LFO, an EEG-detected marker for disconnection of brain areas, in the damaged right hemisphere. In contrast, recruitment of the damaged right hemisphere during contralateral hand movement, resulted in the co-activation of the left hemisphere and decreased right hemisphere LFO to levels of controls enabling performance, suggesting a target for neuromodulation. Similarly, transcranial magnetic stimulation (TMS), used to create a temporary virtual-lesion over E.L.’s healthy hemisphere, disrupted the modulation of contralateral LFO, disturbing behaviour and impairing executive function tasks. In contrast to Gage, reasoning, planning, working memory, social, sexual and family behaviours eluded clinical inspection by decreasing LFO in the delta frequency range during motor and executive functioning. Interpretation: Our study suggests that modulation of LFO dynamics is an important mechanism by which PFC accommodates neurological injuries, supporting the reports of Gage´s recovery, and represents an attractive target for therapeutic interventions. Funding: Fundação de Amparo Pesquisa Rio de Janeiro (FAPERJ), Universidade Federal do Rio de Janeiro (intramural), and Fiocruz/Ministery of Health (INOVA Fiocruz).

AB - Background: How the prefrontal cortex (PFC) recovers its functionality following lesions remains a conundrum. Recent work has uncovered the importance of transient low-frequency oscillatory activity (LFO; < 4 Hz) for the recovery of an injured brain. We aimed to determine whether persistent cortical oscillatory dynamics contribute to brain capability to support ‘normal life’ following injury. Methods: In this 9-year prospective longitudinal study (08/2012-2021), we collected data from the patient E.L., a modern-day Phineas Gage, who suffered from lesions, impacting 11% of his total brain mass, to his right PFC and supplementary motor area after his skull was transfixed by an iron rod. A systematic evaluation of clinical, electrophysiologic, brain imaging, neuropsychological and behavioural testing were used to clarify the clinical significance of relationship between LFO discharge and executive dysfunctions and compare E.L.´s disorders to that attributed to Gage (1848), a landmark in the history of neurology and neuroscience. Findings: Selective recruitment of the non-injured left hemisphere during execution of unimanual right-hand movements resulted in the emergence of robust LFO, an EEG-detected marker for disconnection of brain areas, in the damaged right hemisphere. In contrast, recruitment of the damaged right hemisphere during contralateral hand movement, resulted in the co-activation of the left hemisphere and decreased right hemisphere LFO to levels of controls enabling performance, suggesting a target for neuromodulation. Similarly, transcranial magnetic stimulation (TMS), used to create a temporary virtual-lesion over E.L.’s healthy hemisphere, disrupted the modulation of contralateral LFO, disturbing behaviour and impairing executive function tasks. In contrast to Gage, reasoning, planning, working memory, social, sexual and family behaviours eluded clinical inspection by decreasing LFO in the delta frequency range during motor and executive functioning. Interpretation: Our study suggests that modulation of LFO dynamics is an important mechanism by which PFC accommodates neurological injuries, supporting the reports of Gage´s recovery, and represents an attractive target for therapeutic interventions. Funding: Fundação de Amparo Pesquisa Rio de Janeiro (FAPERJ), Universidade Federal do Rio de Janeiro (intramural), and Fiocruz/Ministery of Health (INOVA Fiocruz).

KW - Corpus callosum (C.C.)

KW - Low Frequency Oscillations

KW - Magnetic Resonance Imaging (MRI)

KW - Neuropsychological tests

KW - Phineas Gage

KW - Prefrontal cortex (PFC)

KW - Transcranial Magnetic Stimulation

KW - Traumatic brain injury (TBI)

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UR - http://www.scopus.com/inward/citedby.url?scp=85135954130&partnerID=8YFLogxK

U2 - 10.1016/j.lana.2022.100340

DO - 10.1016/j.lana.2022.100340

M3 - Article

AN - SCOPUS:85135954130

SN - 2667-193X

VL - 14

JO - The Lancet Regional Health - Americas

JF - The Lancet Regional Health - Americas

M1 - 100340

ER -

E.L., a modern-day Phineas Gage: Revisiting frontal lobe injury

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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