Publication: Rapid microglial activation induced by traumatic brain injury is independent of blood brain barrier disruption
Loading...
Date
2007
Authors
Koshinaga, M. ; Suma, T. ; Fukushima, M. ; Tsuboi, I. ; Aizawa, S. ; Katayama, Y.
item.page.secondaryauthor
item.page.director
Publisher
Murcia : F. Hernández
publication.page.editor
publication.page.department
DOI
item.page.type
info:eu-repo/semantics/article
Description
Abstract
Following CNS injury, microglia respond
and transform into reactive species exhibiting
characteristic morphological changes that have been
termed “activated” or “ameboid” microglia. In an
attempt to establish that microglial reactions induced
immediately after injury are caused by intrinsic
mechanisms rather than infiltration of blood and its
constituents, oxygenized Ringer’s solution was perfused
into the cerebral circulation of rats so that the circulating
blood could be eliminated prior to injury induction.
Under artificial respiration, a catheter was inserted from
the cardiac apex into the ascending aorta, and
oxygenized Ringer’s solution was immediately perfused
with a pulsatile blood pump, resulting in wash out of the
circulating blood from the brain within 1 min.
Subsequently, a cortical contusion was induced in the
unilateral parietal cortex using a controlled cortical
impact (CCI) device. At 5 min following the injury, the
brain was fixed by perfusion of fixative through the catheter and removed. Coronal vibratome sections were
then processed for CR3 immunohistochemistry to
examine the microglial activation. It appeared that
microglial activation with both morphological
transformation and an increase in CR3 immunoreactivity
was induced throughout the hemisphere ipsilateral to the
injury side exclusively, even in rats with elimination of
circulating blood. The microglial reactions did not differ
substantially from those observed in the control rats with
extensive BBB disruption. The present results thus
provide direct evidence that the microglial activation
induced immediately after injury is independent of
infiltration of circulating blood induced by concurrent
BBB disruption.
publication.page.subject
Citation
item.page.embargo
Ir a Estadísticas
Sin licencia Creative Commons.