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somatotopy

Somatotopy is the point-for-point organization by which the nervous system represents the body's surface. In the brain, this manifests as orderly maps in multiple regions that correspond to specific body parts, so that neighboring parts of the body are represented by neighboring neural tissue. The most well-known examples are in the primary somatosensory cortex (S1) and the primary motor cortex (M1).

S1, in the postcentral gyrus, contains a somatotopic map often referred to as the sensory homunculus. Areas

Beyond S1 and M1, somatotopy is organized in the thalamus (ventral posterior nucleus), the cerebellum, and other

Plasticity and clinical relevance: cortical maps can reorganize after injury, limb loss, or training, a process

Interpretation and limitations: somatotopic maps are approximations that vary among individuals and can be influenced by

with
high
receptor
density
and
fine
tactile
discrimination,
such
as
the
lips,
tongue,
and
hands,
occupy
disproportionately
large
cortical
territories.
M1,
in
the
precentral
gyrus,
contains
the
motor
homunculus,
with
representations
for
various
muscle
groups
arranged
to
support
contralateral
control
and
fine
movement.
somatosensory
areas,
though
the
maps
differ
in
detail.
The
organization
is
not
a
rigid
grid;
receptive
fields
can
overlap
and
may
change
with
learning
and
experience.
underlying
rehabilitation
and
phenomena
such
as
phantom
limb
sensation.
attention,
context,
and
disease.
In
the
peripheral
nervous
system,
a
similar
topographic
arrangement
begins
with
sensory
receptors
and
is
transmitted
through
the
spinal
cord
to
higher
brain
centers.