Glial cell-mediated deterioration and repair of the nervous system after traumatic brain injury in a rat model as assessed by positron emission tomography

Glial cell-mediated deterioration and repair of the nervous system after traumatic brain injury in a rat model as assessed by positron emission tomography

Traumatic brain injury (TBI) is one of the most acute degenerative pathologies in the central nervous system, and in vivo indices enabling an assessment of TBI on a mechanistic basis have yet to be established. The aim of this work was to pursue neuroinflammatory changes and their link to functional...

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Veröffentlicht in:Journal of neurotrauma 2010-08, Vol.27 (8), p.1463-1475
Hauptverfasser: Yu, Iwae, Inaji, Motoki, Maeda, Jun, Okauchi, Takashi, Nariai, Tadashi, Ohno, Kikuo, Higuchi, Makoto, Suhara, Tetsuya
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Animals
Autoradiography
Brain
Brain damage
Brain Hemorrhage, Traumatic - diagnostic imaging
Brain Hemorrhage, Traumatic - pathology
Fluorodeoxyglucose F18
Gliosis - pathology
Immunohistochemistry
Injuries
Male
Mitochondrial ADP, ATP Translocases - metabolism
Nerve Regeneration - physiology
Nervous system
Neuroglia
Neuroglia - physiology
Neurons
PET imaging
Physiological aspects
Positron-Emission Tomography
Radiopharmaceuticals
Rats
Rats, Wistar
Rodents
Tomography
Trauma
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container_end_page 1475
container_issue 8
container_start_page 1463
container_title Journal of neurotrauma
container_volume 27
creator Yu, Iwae
Inaji, Motoki
Maeda, Jun
Okauchi, Takashi
Nariai, Tadashi
Ohno, Kikuo
Higuchi, Makoto
Suhara, Tetsuya
description Traumatic brain injury (TBI) is one of the most acute degenerative pathologies in the central nervous system, and in vivo indices enabling an assessment of TBI on a mechanistic basis have yet to be established. The aim of this work was to pursue neuroinflammatory changes and their link to functional disruptions of traumatically-damaged neurons in a rat model of TBI by longitudinal positron emission tomographic (PET) assays. TBI was induced in the unilateral frontal cortex of craniotomied rats according to a lateral fluid percussion brain injury protocol. The use of [(18)F]fluoroethyl-DAA1106 as a PET tracer for translocator protein (TSPO) permitted demonstration of the inflammatory response to the injury, peaking at 1 week after impact. This alteration was parallel to metabolic deficits assessed by PET with [(18)F]fluorodeoxyglucose, but the difference in TSPO levels between impacted and non-impacted frontal cortices was more than threefold of the interlateral metabolic difference, indicating superiority of TSPO imaging for sensitive detection of post-traumatic pathologies. Comparative PET, autoradiographic. and immunohistochemical investigations illustrated the primary contribution of hypertrophic microglia and macrophages to acute TSPO signals in the vicinity of the impact. Astrocytes also formed a TSPO-positive glial scar encompassing necrotic inflammation, and were clustered with PET-detectable TSPO signals in the bilateral external and internal capsules at late stages, putatively reacting with diffuse axonal injury. These observations support the applicability of TSPO-PET as an imaging-based preclinical and clinical biomarker assay in TBI, and indicate its potential capability to clarify aggressive and protective roles of glial responses to injury when combined with emerging anti-inflammatory and immunomodulatory treatments.
doi_str_mv 10.1089/neu.2009.1196
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subjects Animals
Autoradiography
Brain
Brain damage
Brain Hemorrhage, Traumatic - diagnostic imaging
Brain Hemorrhage, Traumatic - pathology
Fluorodeoxyglucose F18
Gliosis - pathology
Immunohistochemistry
Injuries
Male
Mitochondrial ADP, ATP Translocases - metabolism
Nerve Regeneration - physiology
Nervous system
Neuroglia
Neuroglia - physiology
Neurons
PET imaging
Physiological aspects
Positron-Emission Tomography
Radiopharmaceuticals
Rats
Rats, Wistar
Rodents
Tomography
Trauma
title Glial cell-mediated deterioration and repair of the nervous system after traumatic brain injury in a rat model as assessed by positron emission tomography
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