HUMAN BIOLOGY

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268 Chapter 14

somatic sensation
Sensory input from the vari-
ous types of receptors that
are scattered throughout
the body, such as free nerve
endings.


somatosensory cortex
The part of the cerebrum
that receives signals from
somatic receptors.


somatic sensations


n Somatic sensations start with receptors near the body
surface, in skeletal muscles, and in the walls of soft internal
organs.
n Links to Skin structure 4.9, Inflammation 9.4,
Somatosensory cortex 13.8

Receptors for somatic senses are
scattered in different parts of the
b o dy. Somatic sensations come
about when signals from receptors
reach the somatosensory cortex
in the cerebrum. There, interneurons
are organized like maps of indi-
vidual parts of the body surface, just
as they are for the motor cortex. The
largest areas of the map correspond
to body parts where sensory recep-
tors are the most dense. These body parts, including the
fingers, thumbs, and lips, have the sharpest sensory acuity
and require the most intricate control (Figure 14.3).

receptors near the body surface sense
touch, pressure, and more
There are thousands of sensory receptors in your skin,
providing information about touch, pressure, cold,
warmth, and pain (Figure 14.4). Places with the most sen-
sory receptors, such as the fingertips and the tip of the
tongue, are the most sensitive. Less sensitive areas, such as
the back of the hand, have many fewer receptors.

There are several types of free nerve endings in the epi-
dermis and many connective tissues. As noted in Section
14.1, this form of sensory receptor detects touch, pressure,
heat, cold, or pain. Free nerve endings are simple struc-
tures. Basically, they are thinly myelinated or unmyelin-
ated (“naked”) dendrites of sensory neurons. One type
coils around hair follicles and detects the movement of the
hair inside. That might be how, for instance, you become
aware that a spider is gingerly making its way across your
arm. Free nerve endings that are sensitive to chemicals
such as histamine may be responsible for the sensation of
itching.
The dermis of your skin contains four types of encap-
sulated receptors. Each bears the name of its discoverer.
One type, Merkel’s discs, adapt slowly and are the most
important receptors for steady touch. In the lips, fingertips,
eyelids, nipples, and genitals there are many Meissner’s
corpuscles, which are sensitive to light touching. Deep in
the dermis and in joint capsules are Ruffini endings, which
respond to steady pressure.
The Pacinian corpuscles widely scattered in the dermis
are sensitive to deep pressure and vibrations. They also are
located near freely movable joints (like shoulder and hip
joints) and in some soft internal organs.
Sensing limb motions and changes in body position
relies on mechanoreceptors in skin, skeletal muscles, joints,
tendons, and ligaments. Examples include the stretch
receptors of muscle spindles described in Section 14.1.

Free nerve endings detect stimuli that we
perceive as pain and itching
Pain is perceived injury to some body region. The term for
the body’s most important pain receptors, “nociceptor,”
comes from the Latin word nocere, meaning “to do harm.”
Nociceptors are free nerve endings. Several million of them
are distributed throughout the skin and in all internal tis-
sues except the brain.
Somatic pain starts with nociceptors in skin, skeletal
muscles, joints, and tendons. One group is the source of
prickling pain, like the jab of a pin when you stick your
finger. Another contributes to itching or the feeling of
warmth caused by chemicals such as histamine. Sensations
of visceral pain, which is associated with internal organs, are
related to muscle spasms, muscle fatigue, too little blood
flow to organs, and other abnormal conditions.
When cells are damaged, they release chemicals that
activate neighboring pain receptors. The most potent of
these substances are bradykinins. They trigger the release
of histamine, prostaglandins, and other substances associ-
ated with inflammation (Section 9.4).
When signals from pain receptors reach interneurons
in the spinal cord, the interneurons release a chemical
called substance P. One result is that the hypothalamus and

14.2


nose

eye
thumb
index
middle
genitalia

toes
foot

hipleg
ringlittle

handwrist

forearm
elbowarmshoulderheadnecktrunk

face
upper lip
lips
lower lip
teeth, gums, and jaw
tongue
pharynx
intra-abdominal

Figure 14.3 The somato sensory cortex “maps” body parts. This
strip of cerebral cortex is a little wider than an inch (2.5 centimeters),
from the top of the head to just above the ear.

Dr. Colin Chumbley/Science Source

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