Intramural hematomas and astrocytic infiltration precede perivascular inflammation in a rat model of repetitive low-level blast injury

Miguel A. Gama Sosa; Rita De Gasperi; Rachel H. Lind; Dylan Pryor; Danielle C. Vargas; Georgina S. Perez Garcia; Gissel M. Perez; Rania Abutarboush; Usmah Kawoos; Allison Sowa; Carolyn W. Zhu; William G.M. Janssen; Patrick R. Hof; Stephen T. Ahlers; Gregory A. Elder

doi:10.1093/jnen/nlaf003

Intramural hematomas and astrocytic infiltration precede perivascular inflammation in a rat model of repetitive low-level blast injury

Miguel A. Gama Sosa^*, Rita De Gasperi, Rachel H. Lind, Dylan Pryor, Danielle C. Vargas, Georgina S. Perez Garcia, Gissel M. Perez, Rania Abutarboush, Usmah Kawoos, Allison Sowa, Carolyn W. Zhu, William G.M. Janssen, Patrick R. Hof, Stephen T. Ahlers, Gregory A. Elder

^*Corresponding author for this work

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

1 Scopus citations

Abstract

In modern war theaters, exposures to blast overpressures are one of the most common causes of brain injury. These pervasive events result in acute and chronic cerebrovascular degenerative processes. Using a rat model of blast-induced mild traumatic brain injury, we identified intramural periarterial hematomas as early primary acute lesions induced by blast exposures. These lesions resulted in intravascular cell death, cell layer reorganization, and plasma leakage into the intraperiarterial basal membranes that constitute the intraperiarterial drainage system (IPAD). Plasma metalloproteases, including MMP-9, in the IPAD basal membranes may degrade extracellular matrix components compromising normal cerebral interstitial fluid drainage, arterial structure and function leading to chronic vascular degenerative processes. Related subacute effects of blast exposure included increased MMP-9 expression in perivascular reactive astrocytes and the extension of astrocytic processes through the layers of affected vessels. These results, in combination with normal levels of proinflammatory cytokines and the absence of proinflammatory MHC II-expressing microglia, suggest an astrocytic role in the clearing of intravascular hematomas and provide further mechanistic evidence that blast-induced vascular degenerative processes may precede the onset of neurovascular inflammation.

Original language	English
Pages (from-to)	337-352
Number of pages	16
Journal	Journal of Neuropathology and Experimental Neurology
Volume	84
Issue number	4
DOIs	https://doi.org/10.1093/jnen/nlaf003
State	Published - 1 Apr 2025
Externally published	Yes

Keywords

blast injury
extracellular matrix
glymphatic system
intramural periarterial drainage system
neurovascular unit
traumatic brain injury
vascular pathology

Access to Document

10.1093/jnen/nlaf003

Cite this

Gama Sosa, M. A., De Gasperi, R., Lind, R. H., Pryor, D., Vargas, D. C., Perez Garcia, G. S., Perez, G. M., Abutarboush, R., Kawoos, U., Sowa, A., Zhu, C. W., Janssen, W. G. M., Hof, P. R., Ahlers, S. T., & Elder, G. A. (2025). Intramural hematomas and astrocytic infiltration precede perivascular inflammation in a rat model of repetitive low-level blast injury. Journal of Neuropathology and Experimental Neurology, 84(4), 337-352. https://doi.org/10.1093/jnen/nlaf003

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title = "Intramural hematomas and astrocytic infiltration precede perivascular inflammation in a rat model of repetitive low-level blast injury",

abstract = "In modern war theaters, exposures to blast overpressures are one of the most common causes of brain injury. These pervasive events result in acute and chronic cerebrovascular degenerative processes. Using a rat model of blast-induced mild traumatic brain injury, we identified intramural periarterial hematomas as early primary acute lesions induced by blast exposures. These lesions resulted in intravascular cell death, cell layer reorganization, and plasma leakage into the intraperiarterial basal membranes that constitute the intraperiarterial drainage system (IPAD). Plasma metalloproteases, including MMP-9, in the IPAD basal membranes may degrade extracellular matrix components compromising normal cerebral interstitial fluid drainage, arterial structure and function leading to chronic vascular degenerative processes. Related subacute effects of blast exposure included increased MMP-9 expression in perivascular reactive astrocytes and the extension of astrocytic processes through the layers of affected vessels. These results, in combination with normal levels of proinflammatory cytokines and the absence of proinflammatory MHC II-expressing microglia, suggest an astrocytic role in the clearing of intravascular hematomas and provide further mechanistic evidence that blast-induced vascular degenerative processes may precede the onset of neurovascular inflammation.",

keywords = "blast injury, extracellular matrix, glymphatic system, intramural periarterial drainage system, neurovascular unit, traumatic brain injury, vascular pathology",

author = "{Gama Sosa}, {Miguel A.} and {De Gasperi}, Rita and Lind, {Rachel H.} and Dylan Pryor and Vargas, {Danielle C.} and {Perez Garcia}, {Georgina S.} and Perez, {Gissel M.} and Rania Abutarboush and Usmah Kawoos and Allison Sowa and Zhu, {Carolyn W.} and Janssen, {William G.M.} and Hof, {Patrick R.} and Ahlers, {Stephen T.} and Elder, {Gregory A.}",

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Gama Sosa, MA, De Gasperi, R, Lind, RH, Pryor, D, Vargas, DC, Perez Garcia, GS, Perez, GM, Abutarboush, R, Kawoos, U, Sowa, A, Zhu, CW, Janssen, WGM, Hof, PR, Ahlers, ST & Elder, GA 2025, 'Intramural hematomas and astrocytic infiltration precede perivascular inflammation in a rat model of repetitive low-level blast injury', Journal of Neuropathology and Experimental Neurology, vol. 84, no. 4, pp. 337-352. https://doi.org/10.1093/jnen/nlaf003

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T1 - Intramural hematomas and astrocytic infiltration precede perivascular inflammation in a rat model of repetitive low-level blast injury

AU - Gama Sosa, Miguel A.

AU - De Gasperi, Rita

AU - Lind, Rachel H.

AU - Pryor, Dylan

AU - Vargas, Danielle C.

AU - Perez Garcia, Georgina S.

AU - Perez, Gissel M.

AU - Abutarboush, Rania

AU - Kawoos, Usmah

AU - Sowa, Allison

AU - Zhu, Carolyn W.

AU - Janssen, William G.M.

AU - Hof, Patrick R.

AU - Ahlers, Stephen T.

AU - Elder, Gregory A.

PY - 2025/4/1

Y1 - 2025/4/1

N2 - In modern war theaters, exposures to blast overpressures are one of the most common causes of brain injury. These pervasive events result in acute and chronic cerebrovascular degenerative processes. Using a rat model of blast-induced mild traumatic brain injury, we identified intramural periarterial hematomas as early primary acute lesions induced by blast exposures. These lesions resulted in intravascular cell death, cell layer reorganization, and plasma leakage into the intraperiarterial basal membranes that constitute the intraperiarterial drainage system (IPAD). Plasma metalloproteases, including MMP-9, in the IPAD basal membranes may degrade extracellular matrix components compromising normal cerebral interstitial fluid drainage, arterial structure and function leading to chronic vascular degenerative processes. Related subacute effects of blast exposure included increased MMP-9 expression in perivascular reactive astrocytes and the extension of astrocytic processes through the layers of affected vessels. These results, in combination with normal levels of proinflammatory cytokines and the absence of proinflammatory MHC II-expressing microglia, suggest an astrocytic role in the clearing of intravascular hematomas and provide further mechanistic evidence that blast-induced vascular degenerative processes may precede the onset of neurovascular inflammation.

AB - In modern war theaters, exposures to blast overpressures are one of the most common causes of brain injury. These pervasive events result in acute and chronic cerebrovascular degenerative processes. Using a rat model of blast-induced mild traumatic brain injury, we identified intramural periarterial hematomas as early primary acute lesions induced by blast exposures. These lesions resulted in intravascular cell death, cell layer reorganization, and plasma leakage into the intraperiarterial basal membranes that constitute the intraperiarterial drainage system (IPAD). Plasma metalloproteases, including MMP-9, in the IPAD basal membranes may degrade extracellular matrix components compromising normal cerebral interstitial fluid drainage, arterial structure and function leading to chronic vascular degenerative processes. Related subacute effects of blast exposure included increased MMP-9 expression in perivascular reactive astrocytes and the extension of astrocytic processes through the layers of affected vessels. These results, in combination with normal levels of proinflammatory cytokines and the absence of proinflammatory MHC II-expressing microglia, suggest an astrocytic role in the clearing of intravascular hematomas and provide further mechanistic evidence that blast-induced vascular degenerative processes may precede the onset of neurovascular inflammation.

KW - blast injury

KW - extracellular matrix

KW - glymphatic system

KW - intramural periarterial drainage system

KW - neurovascular unit

KW - traumatic brain injury

KW - vascular pathology

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U2 - 10.1093/jnen/nlaf003

DO - 10.1093/jnen/nlaf003

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AN - SCOPUS:105000835168

SN - 0022-3069

VL - 84

SP - 337

EP - 352

JO - Journal of Neuropathology and Experimental Neurology

JF - Journal of Neuropathology and Experimental Neurology

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