The continuum of spreading depolarizations in acute cortical lesion development: Examining Leão's legacy

Jed A Hartings; C William Shuttleworth; Sergei A Kirov; Cenk Ayata; Jason M Hinzman; Brandon Foreman; R David Andrew; Martyn G Boutelle; K C Brennan; Andrew P Carlson; Markus A Dahlem; Christoph Drenckhahn; Christian Dohmen; Martin Fabricius; Eszter Farkas; Delphine Feuerstein; Rudolf Graf; Raimund Helbok; Martin Lauritzen; Sebastian Major; Ana I Oliveira-Ferreira; Frank Richter; Eric S Rosenthal; Oliver W Sakowitz; Renán Sánchez-Porras; Edgar Santos; Michael Schöll; Anthony J Strong; Anja Urbach; M Brandon Westover; Maren Kl Winkler; Otto W Witte; Johannes Woitzik; Jens P Dreier

doi:10.1177/0271678X16654495

The continuum of spreading depolarizations in acute cortical lesion development: Examining Leão's legacy

Jed A Hartings, C William Shuttleworth, Sergei A Kirov, Cenk Ayata, Jason M Hinzman, Brandon Foreman, R David Andrew, Martyn G Boutelle, K C Brennan, Andrew P Carlson, Markus A Dahlem, Christoph Drenckhahn, Christian Dohmen, Martin Fabricius, Eszter Farkas, Delphine Feuerstein, Rudolf Graf, Raimund Helbok, Martin Lauritzen, Sebastian MajorAna I Oliveira-Ferreira, Frank Richter, Eric S Rosenthal, Oliver W Sakowitz, Renán Sánchez-Porras, Edgar Santos, Michael Schöll, Anthony J Strong, Anja Urbach, M Brandon Westover, Maren Kl Winkler, Otto W Witte, Johannes Woitzik, Jens P Dreier

Afdeling for Hjerne- og Nerveundersøgelser NEU

312 Citationer (Scopus)

Abstract

A modern understanding of how cerebral cortical lesions develop after acute brain injury is based on Aristides Leão's historic discoveries of spreading depression and asphyxial/anoxic depolarization. Treated as separate entities for decades, we now appreciate that these events define a continuum of spreading mass depolarizations, a concept that is central to understanding their pathologic effects. Within minutes of acute severe ischemia, the onset of persistent depolarization triggers the breakdown of ion homeostasis and development of cytotoxic edema. These persistent changes are diagnosed as diffusion restriction in magnetic resonance imaging and define the ischemic core. In delayed lesion growth, transient spreading depolarizations arise spontaneously in the ischemic penumbra and induce further persistent depolarization and excitotoxic damage, progressively expanding the ischemic core. The causal role of these waves in lesion development has been proven by real-time monitoring of electrophysiology, blood flow, and cytotoxic edema. The spreading depolarization continuum further applies to other models of acute cortical lesions, suggesting that it is a universal principle of cortical lesion development. These pathophysiologic concepts establish a working hypothesis for translation to human disease, where complex patterns of depolarizations are observed in acute brain injury and appear to mediate and signal ongoing secondary damage.

Originalsprog	Engelsk
Tidsskrift	Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism
Vol/bind	37
Udgave nummer	5
Sider (fra-til)	1571-1594
ISSN	0271-678X
DOI	https://doi.org/10.1177/0271678X16654495
Status	Udgivet - 2017

Adgang til dokumentet

10.1177/0271678X16654495

Citationsformater

Hartings, J. A., Shuttleworth, C. W., Kirov, S. A., Ayata, C., Hinzman, J. M., Foreman, B., Andrew, R. D., Boutelle, M. G., Brennan, K. C., Carlson, A. P., Dahlem, M. A., Drenckhahn, C., Dohmen, C., Fabricius, M., Farkas, E., Feuerstein, D., Graf, R., Helbok, R., Lauritzen, M., ... Dreier, J. P. (2017). The continuum of spreading depolarizations in acute cortical lesion development: Examining Leão's legacy. Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism, 37(5), 1571-1594. https://doi.org/10.1177/0271678X16654495

The continuum of spreading depolarizations in acute cortical lesion development: Examining Leão's legacy. / Hartings, Jed A; Shuttleworth, C William; Kirov, Sergei A et al.
I: Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism, Bind 37, Nr. 5, 2017, s. 1571-1594.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Hartings, JA, Shuttleworth, CW, Kirov, SA, Ayata, C, Hinzman, JM, Foreman, B, Andrew, RD, Boutelle, MG, Brennan, KC, Carlson, AP, Dahlem, MA, Drenckhahn, C, Dohmen, C, Fabricius, M, Farkas, E, Feuerstein, D, Graf, R, Helbok, R, Lauritzen, M, Major, S, Oliveira-Ferreira, AI, Richter, F, Rosenthal, ES, Sakowitz, OW, Sánchez-Porras, R, Santos, E, Schöll, M, Strong, AJ, Urbach, A, Westover, MB, Winkler, MK, Witte, OW, Woitzik, J & Dreier, JP 2017, 'The continuum of spreading depolarizations in acute cortical lesion development: Examining Leão's legacy', Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism, bind 37, nr. 5, s. 1571-1594. https://doi.org/10.1177/0271678X16654495

@article{b6b90a12441b4adaadb610b5993d8d23,

title = "The continuum of spreading depolarizations in acute cortical lesion development: Examining Le{\~a}o's legacy",

abstract = "A modern understanding of how cerebral cortical lesions develop after acute brain injury is based on Aristides Le{\~a}o's historic discoveries of spreading depression and asphyxial/anoxic depolarization. Treated as separate entities for decades, we now appreciate that these events define a continuum of spreading mass depolarizations, a concept that is central to understanding their pathologic effects. Within minutes of acute severe ischemia, the onset of persistent depolarization triggers the breakdown of ion homeostasis and development of cytotoxic edema. These persistent changes are diagnosed as diffusion restriction in magnetic resonance imaging and define the ischemic core. In delayed lesion growth, transient spreading depolarizations arise spontaneously in the ischemic penumbra and induce further persistent depolarization and excitotoxic damage, progressively expanding the ischemic core. The causal role of these waves in lesion development has been proven by real-time monitoring of electrophysiology, blood flow, and cytotoxic edema. The spreading depolarization continuum further applies to other models of acute cortical lesions, suggesting that it is a universal principle of cortical lesion development. These pathophysiologic concepts establish a working hypothesis for translation to human disease, where complex patterns of depolarizations are observed in acute brain injury and appear to mediate and signal ongoing secondary damage.",

author = "Hartings, {Jed A} and Shuttleworth, {C William} and Kirov, {Sergei A} and Cenk Ayata and Hinzman, {Jason M} and Brandon Foreman and Andrew, {R David} and Boutelle, {Martyn G} and Brennan, {K C} and Carlson, {Andrew P} and Dahlem, {Markus A} and Christoph Drenckhahn and Christian Dohmen and Martin Fabricius and Eszter Farkas and Delphine Feuerstein and Rudolf Graf and Raimund Helbok and Martin Lauritzen and Sebastian Major and Oliveira-Ferreira, {Ana I} and Frank Richter and Rosenthal, {Eric S} and Sakowitz, {Oliver W} and Ren{\'a}n S{\'a}nchez-Porras and Edgar Santos and Michael Sch{\"o}ll and Strong, {Anthony J} and Anja Urbach and Westover, {M Brandon} and Winkler, {Maren Kl} and Witte, {Otto W} and Johannes Woitzik and Dreier, {Jens P}",

note = "{\textcopyright} The Author(s) 2016.",

year = "2017",

doi = "10.1177/0271678X16654495",

language = "English",

volume = "37",

pages = "1571--1594",

journal = "Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism",

issn = "0271-678X",

publisher = "SAGE Publications Inc.",

number = "5",

}

TY - JOUR

T1 - The continuum of spreading depolarizations in acute cortical lesion development

T2 - Examining Leão's legacy

AU - Hartings, Jed A

AU - Shuttleworth, C William

AU - Kirov, Sergei A

AU - Ayata, Cenk

AU - Hinzman, Jason M

AU - Foreman, Brandon

AU - Andrew, R David

AU - Boutelle, Martyn G

AU - Brennan, K C

AU - Carlson, Andrew P

AU - Dahlem, Markus A

AU - Drenckhahn, Christoph

AU - Dohmen, Christian

AU - Fabricius, Martin

AU - Farkas, Eszter

AU - Feuerstein, Delphine

AU - Graf, Rudolf

AU - Helbok, Raimund

AU - Lauritzen, Martin

AU - Major, Sebastian

AU - Oliveira-Ferreira, Ana I

AU - Richter, Frank

AU - Rosenthal, Eric S

AU - Sakowitz, Oliver W

AU - Sánchez-Porras, Renán

AU - Santos, Edgar

AU - Schöll, Michael

AU - Strong, Anthony J

AU - Urbach, Anja

AU - Westover, M Brandon

AU - Winkler, Maren Kl

AU - Witte, Otto W

AU - Woitzik, Johannes

AU - Dreier, Jens P

PY - 2017

Y1 - 2017

N2 - A modern understanding of how cerebral cortical lesions develop after acute brain injury is based on Aristides Leão's historic discoveries of spreading depression and asphyxial/anoxic depolarization. Treated as separate entities for decades, we now appreciate that these events define a continuum of spreading mass depolarizations, a concept that is central to understanding their pathologic effects. Within minutes of acute severe ischemia, the onset of persistent depolarization triggers the breakdown of ion homeostasis and development of cytotoxic edema. These persistent changes are diagnosed as diffusion restriction in magnetic resonance imaging and define the ischemic core. In delayed lesion growth, transient spreading depolarizations arise spontaneously in the ischemic penumbra and induce further persistent depolarization and excitotoxic damage, progressively expanding the ischemic core. The causal role of these waves in lesion development has been proven by real-time monitoring of electrophysiology, blood flow, and cytotoxic edema. The spreading depolarization continuum further applies to other models of acute cortical lesions, suggesting that it is a universal principle of cortical lesion development. These pathophysiologic concepts establish a working hypothesis for translation to human disease, where complex patterns of depolarizations are observed in acute brain injury and appear to mediate and signal ongoing secondary damage.

AB - A modern understanding of how cerebral cortical lesions develop after acute brain injury is based on Aristides Leão's historic discoveries of spreading depression and asphyxial/anoxic depolarization. Treated as separate entities for decades, we now appreciate that these events define a continuum of spreading mass depolarizations, a concept that is central to understanding their pathologic effects. Within minutes of acute severe ischemia, the onset of persistent depolarization triggers the breakdown of ion homeostasis and development of cytotoxic edema. These persistent changes are diagnosed as diffusion restriction in magnetic resonance imaging and define the ischemic core. In delayed lesion growth, transient spreading depolarizations arise spontaneously in the ischemic penumbra and induce further persistent depolarization and excitotoxic damage, progressively expanding the ischemic core. The causal role of these waves in lesion development has been proven by real-time monitoring of electrophysiology, blood flow, and cytotoxic edema. The spreading depolarization continuum further applies to other models of acute cortical lesions, suggesting that it is a universal principle of cortical lesion development. These pathophysiologic concepts establish a working hypothesis for translation to human disease, where complex patterns of depolarizations are observed in acute brain injury and appear to mediate and signal ongoing secondary damage.

U2 - 10.1177/0271678X16654495

DO - 10.1177/0271678X16654495

M3 - Journal article

C2 - 27328690

SN - 0271-678X

VL - 37

SP - 1571

EP - 1594

JO - Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism

JF - Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism

IS - 5

ER -

The continuum of spreading depolarizations in acute cortical lesion development: Examining Leão's legacy

Abstract

Adgang til dokumentet

Fingeraftryk

Citationsformater