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stereociliary

Stereociliary refers to stereocilia, the actin-rich, hair-like projections on the apical surface of sensory hair cells in the inner ear and vestibular epithelia. These structures are essential for mechanosensation, mediating both hearing and balance.

Stereocilia are arranged in bundles that form a staircase pattern, with the tallest taller than the shorter

Functionally, deflection of the stereociliary bundle toward the tallest row increases tension in the tip links,

Stereociliary structure and function are critical for normal audition and balance. Damage or genetic mutations affecting

ones.
Each
stereocilium
contains
a
core
bundle
of
parallel
actin
filaments
crosslinked
by
actin-associated
proteins,
giving
rigidity
and
length.
They
are
anchored
to
the
apical
cuticular
plate
and
connected
by
extracellular
links,
including
tip
links
that
connect
the
tip
of
one
stereocilium
to
the
side
of
its
taller
neighbor.
The
tip
links
are
composed
of
cadherin
family
proteins,
notably
protocadherin-15
and
cadherin-23,
and
they
cooperate
with
other
lateral
links
to
maintain
bundle
integrity.
which
opens
mechanosensitive
ion
channels
and
allows
cations,
primarily
potassium
and
calcium,
to
enter
the
hair
cell.
This
generates
a
receptor
potential
and
triggers
neurotransmitter
release
to
afferent
neurons.
Adaptation
mechanisms,
including
motor
activity
of
myosin
proteins,
modulate
tension
to
adjust
sensitivity
to
ongoing
stimulation.
Outer
hair
cells
can
also
undergo
electromotility
via
prestin,
amplifying
basilar-membrane
movement,
while
inner
hair
cells
serve
as
the
primary
sensory
transducers.
stereocilia
or
their
links
can
lead
to
sensorineural
hearing
loss
and
vestibular
dysfunction.
Factors
such
as
excessive
noise
exposure,
ototoxic
drugs,
aging,
and
certain
hereditary
conditions
can
disrupt
stereociliary
integrity.