Purpose of Sensations—to detect changes in
the external or internal environment to
enable the body to respond appropriately
to maintain homeostasis
Sensory Pathway—pathway of impulses for a
sensation
- Receptors—detect a change (usually very specific)
and generate impulses. - Sensory neurons—transmit impulses from recep-
tors to the CNS. - Sensory tracts—white matter in the CNS.
- Sensory area—most are in the cerebral cortex; feels
and interprets the sensation.
Characteristics of Sensations
- Projection—the sensation seems to come from the
area where the receptors were stimulated, even
though it is the brain that truly feels the sensation. - Intensity—the degree to which a sensation is felt; a
strong stimulus affects more receptors, more
impulses are sent to the brain and are interpreted as
a more intense sensation. - Contrast—the effect of a previous or simultaneous
sensation on a current sensation as the brain com-
pares them. - Adaptation—becoming unaware of a continuing
stimulus; if the stimulus remains constant, there is
no change for receptors to detect. - After-image—the sensation remains in the con-
sciousness after the stimulus has stopped.
Cutaneous Senses—provide information
about the external environment and the
skin itself
- The dermis has free nerve endings that are recep-
tors for pain, heat, and cold, and encapsulated nerve
endings that are receptors for touch and pressure
(see Fig. 9–1). - Sensory areas are in parietal lobes.
- Referred pain is visceral pain that is felt as cuta-
neous pain. Common pathways in the CNS carry
both cutaneous and visceral impulses; the brain
usually projects sensation to the cutaneous area.
Muscle Sense—knowing where our muscles
are without looking at them
- Stretch receptors in muscles detect stretching.
- Sensory areas for conscious muscle sense are in
parietal lobes.
3. Cerebellum uses unconscious muscle sense to
coordinate voluntary movement.
Sense of Taste (see Fig. 9–2)- Chemoreceptors are in taste buds on the tongue;
detect chemicals (foods) in solution (saliva) in the
mouth. - Five basic tastes: sweet, sour, salty, bitter, and
savory; foods stimulate combinations of receptors. - Pathway: facial and glossopharyngeal nerves to
taste areas in parietal-temporal lobes.
Sense of Smell (see Fig. 9–2)- Chemoreceptors are in upper nasal cavities; several
hundred different ones; detect vaporized chemicals
(many combinations possible). - Pathway: olfactory nerves to olfactory bulbs to
olfactory areas in the temporal lobes. - Smell contributes greatly to what we call taste.
Hunger and Thirst—visceral (internal)
sensations- Receptors for hunger: in hypothalamus, detect
changes in GI hormones and nutrient levels in the
blood; hunger is projected to the stomach; adapta-
tion does occur. - Receptors for thirst: in hypothalamus, osmorecep-
tors detect changes in body water (water–salt pro-
portions); thirst is projected to the mouth and
pharynx; adaptation does not occur.
The Eye (see Figs. 9–3 through 9–6)- Eyelids and eyelashes keep dust out of eyes; con-
junctivae line the eyelids and cover white of eye. - Lacrimal glands produce tears, which flow across
the eyeball to two lacrimal ducts, to lacrimal sac to
nasolacrimal duct to nasal cavity. Tears wash the
anterior eyeball and contain lysozyme to inhibit
bacterial growth. - The eyeball is protected by the bony orbit (socket).
- The six extrinsic muscles move the eyeball; inner-
vated by the 3rd, 4th, and 6th cranial nerves. - Sclera—outermost layer of the eyeball, made of
fibrous connective tissue; anterior portion is the
transparent cornea, the first light-refracting struc-
ture. - Choroid layer—middle layer of eyeball; dark blue
pigment absorbs light to prevent glare within the
eyeball.
The Senses 217STUDY OUTLINE