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neurovasculaire

Neurovasculaire (neurovascular) denotes the integrated system of blood vessels and neural elements that supply and regulate the nervous system. It comprises the cerebral and spinal vasculature, the meningeal vessels, and the peripheral neurovascular beds, all functioning with neural tissue through the neurovascular unit.

Anatomy and function: Arteries, arterioles, capillaries, venules and veins form the vascular tree; the brain and

Physiology and coupling: Neuronal activity triggers signaling cascades that dilate vessels, increasing local blood flow in

Development and pathology: The cerebrovascular system develops via angiogenesis and maturation that establish barrier integrity. Pathologies

Clinical relevance and imaging: Assessment uses MRI and CT angiography, perfusion imaging, and functional MRI, as

spinal
cord
are
protected
by
the
blood-brain
barrier
and
blood-spinal
cord
barrier,
formed
by
endothelial
cells,
tight
junctions,
astrocyte
endfeet,
and
pericytes.
The
neurovascular
unit
coordinates
cerebral
blood
flow
with
metabolic
demand,
maintains
ionic
homeostasis,
and
clears
metabolites.
a
process
called
neurovascular
coupling.
Glial
cells,
particularly
astrocytes,
mediate
signals
between
neurons
and
vessels;
endothelial
cells
regulate
barrier
properties
and
leukocyte
passage.
include
stroke
(ischemic
and
hemorrhagic),
aneurysms,
moyamoya
disease,
cerebral
small
vessel
disease,
vasculitis,
tumor
angiogenesis,
and
neurodegenerative
diseases
where
vascular
dysfunction
contributes
to
progression
and
cognitive
impairment.
Retinal
neurovascular
units
are
clinically
informative
in
diseases
such
as
diabetic
retinopathy.
well
as
transcranial
Doppler.
Understanding
the
neurovascular
unit
informs
treatment
strategies
aimed
at
protecting
neurons,
preserving
barrier
integrity,
and
modulating
blood
flow.