Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema

Ting Du; Humberto Mestre; Benjamin T. Kress; Guojun Liu; Amanda M. Sweeney; Andrew J. Samson; Martin Kaag Rasmussen; Kristian Nygaard Mortensen; Peter A.R. Bork; Weiguo Peng; Genaro E. Olveda; Logan Bashford; Edna R. Toro; Jeffrey Tithof; Douglas H. Kelley; John H. Thomas; Poul G. Hjorth; Erik A. Martens; Rupal I. Mehta; Hajime Hirase; Yuki Mori; Maiken Nedergaard

doi:10.1093/brain/awab293

Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema

Ting Du, Humberto Mestre, Benjamin T. Kress, Guojun Liu, Amanda M. Sweeney, Andrew J. Samson, Martin Kaag Rasmussen, Kristian Nygaard Mortensen, Peter A.R. Bork, Weiguo Peng, Genaro E. Olveda, Logan Bashford, Edna R. Toro, Jeffrey Tithof, Douglas H. Kelley, John H. Thomas, Poul G. Hjorth, Erik A. Martens, Rupal I. Mehta, Hajime HiraseYuki Mori, Maiken Nedergaard

Matematikcentrum

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

Sammanfattning

Cerebral oedema develops after anoxic brain injury. In two models of asphyxial and asystolic cardiac arrest without resuscitation, we found that oedema develops shortly after anoxia secondary to terminal depolarizations and the abnormal entry of CSF. Oedema severity correlated with the availability of CSF with the age-dependent increase in CSF volume worsening the severity of oedema. Oedema was identified primarily in brain regions bordering CSF compartments in mice and humans. The degree of ex vivo tissue swelling was predicted by an osmotic model suggesting that anoxic brain tissue possesses a high intrinsic osmotic potential. This osmotic process was temperature-dependent, proposing an additional mechanism for the beneficial effect of therapeutic hypothermia. These observations show that CSF is a primary source of oedema fluid in anoxic brain. This novel insight offers a mechanistic basis for the future development of alternative strategies to prevent cerebral oedema formation after cardiac arrest.

Originalspråk	engelska
Artikelnummer	awab293
Sidor (från-till)	787-797
Antal sidor	11
Tidskrift	Brain : a journal of neurology
Volym	145
Nummer	2
DOI	https://doi.org/10.1093/brain/awab293
Status	Published - 2022 apr. 18

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10.1093/brain/awab293

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Du, T., Mestre, H., Kress, B. T., Liu, G., Sweeney, A. M., Samson, A. J., Rasmussen, M. K., Mortensen, K. N., Bork, P. A. R., Peng, W., Olveda, G. E., Bashford, L., Toro, E. R., Tithof, J., Kelley, D. H., Thomas, J. H., Hjorth, P. G., Martens, E. A., Mehta, R. I., ... Nedergaard, M. (2022). Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema. Brain : a journal of neurology, 145(2), 787-797. Artikel awab293. https://doi.org/10.1093/brain/awab293

@article{cb0d6b690cef4ad6902d205f8c23f547,

title = "Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema",

abstract = "Cerebral oedema develops after anoxic brain injury. In two models of asphyxial and asystolic cardiac arrest without resuscitation, we found that oedema develops shortly after anoxia secondary to terminal depolarizations and the abnormal entry of CSF. Oedema severity correlated with the availability of CSF with the age-dependent increase in CSF volume worsening the severity of oedema. Oedema was identified primarily in brain regions bordering CSF compartments in mice and humans. The degree of ex vivo tissue swelling was predicted by an osmotic model suggesting that anoxic brain tissue possesses a high intrinsic osmotic potential. This osmotic process was temperature-dependent, proposing an additional mechanism for the beneficial effect of therapeutic hypothermia. These observations show that CSF is a primary source of oedema fluid in anoxic brain. This novel insight offers a mechanistic basis for the future development of alternative strategies to prevent cerebral oedema formation after cardiac arrest.",

keywords = "anoxic cerebral oedema, cardiac arrest, cerebrospinal fluid, spreading depolarizations",

author = "Ting Du and Humberto Mestre and Kress, {Benjamin T.} and Guojun Liu and Sweeney, {Amanda M.} and Samson, {Andrew J.} and Rasmussen, {Martin Kaag} and Mortensen, {Kristian Nygaard} and Bork, {Peter A.R.} and Weiguo Peng and Olveda, {Genaro E.} and Logan Bashford and Toro, {Edna R.} and Jeffrey Tithof and Kelley, {Douglas H.} and Thomas, {John H.} and Hjorth, {Poul G.} and Martens, {Erik A.} and Mehta, {Rupal I.} and Hajime Hirase and Yuki Mori and Maiken Nedergaard",

year = "2022",

month = apr,

day = "18",

doi = "10.1093/brain/awab293",

language = "English",

volume = "145",

pages = "787--797",

journal = "Brain : a journal of neurology",

issn = "1460-2156",

publisher = "Oxford University Press",

number = "2",

}

Du, T, Mestre, H, Kress, BT, Liu, G, Sweeney, AM, Samson, AJ, Rasmussen, MK, Mortensen, KN, Bork, PAR, Peng, W, Olveda, GE, Bashford, L, Toro, ER, Tithof, J, Kelley, DH, Thomas, JH, Hjorth, PG, Martens, EA, Mehta, RI, Hirase, H, Mori, Y & Nedergaard, M 2022, 'Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema', Brain : a journal of neurology, vol. 145, nr. 2, awab293, s. 787-797. https://doi.org/10.1093/brain/awab293

TY - JOUR

T1 - Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema

AU - Du, Ting

AU - Mestre, Humberto

AU - Kress, Benjamin T.

AU - Liu, Guojun

AU - Sweeney, Amanda M.

AU - Samson, Andrew J.

AU - Rasmussen, Martin Kaag

AU - Mortensen, Kristian Nygaard

AU - Bork, Peter A.R.

AU - Peng, Weiguo

AU - Olveda, Genaro E.

AU - Bashford, Logan

AU - Toro, Edna R.

AU - Tithof, Jeffrey

AU - Kelley, Douglas H.

AU - Thomas, John H.

AU - Hjorth, Poul G.

AU - Martens, Erik A.

AU - Mehta, Rupal I.

AU - Hirase, Hajime

AU - Mori, Yuki

AU - Nedergaard, Maiken

PY - 2022/4/18

Y1 - 2022/4/18

N2 - Cerebral oedema develops after anoxic brain injury. In two models of asphyxial and asystolic cardiac arrest without resuscitation, we found that oedema develops shortly after anoxia secondary to terminal depolarizations and the abnormal entry of CSF. Oedema severity correlated with the availability of CSF with the age-dependent increase in CSF volume worsening the severity of oedema. Oedema was identified primarily in brain regions bordering CSF compartments in mice and humans. The degree of ex vivo tissue swelling was predicted by an osmotic model suggesting that anoxic brain tissue possesses a high intrinsic osmotic potential. This osmotic process was temperature-dependent, proposing an additional mechanism for the beneficial effect of therapeutic hypothermia. These observations show that CSF is a primary source of oedema fluid in anoxic brain. This novel insight offers a mechanistic basis for the future development of alternative strategies to prevent cerebral oedema formation after cardiac arrest.

AB - Cerebral oedema develops after anoxic brain injury. In two models of asphyxial and asystolic cardiac arrest without resuscitation, we found that oedema develops shortly after anoxia secondary to terminal depolarizations and the abnormal entry of CSF. Oedema severity correlated with the availability of CSF with the age-dependent increase in CSF volume worsening the severity of oedema. Oedema was identified primarily in brain regions bordering CSF compartments in mice and humans. The degree of ex vivo tissue swelling was predicted by an osmotic model suggesting that anoxic brain tissue possesses a high intrinsic osmotic potential. This osmotic process was temperature-dependent, proposing an additional mechanism for the beneficial effect of therapeutic hypothermia. These observations show that CSF is a primary source of oedema fluid in anoxic brain. This novel insight offers a mechanistic basis for the future development of alternative strategies to prevent cerebral oedema formation after cardiac arrest.

KW - anoxic cerebral oedema

KW - cardiac arrest

KW - cerebrospinal fluid

KW - spreading depolarizations

U2 - 10.1093/brain/awab293

DO - 10.1093/brain/awab293

M3 - Article

C2 - 34581781

AN - SCOPUS:85128493919

SN - 1460-2156

VL - 145

SP - 787

EP - 797

JO - Brain : a journal of neurology

JF - Brain : a journal of neurology

IS - 2

M1 - awab293

ER -

Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema

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