1. Chapter 19 Special Senses

2. Olfaction Olfactory bulb Olfactory Olfactory nerves tract
Fig. 19.8
Olfaction
Olfactory
bulb
Volatile molecules are odorants must be dissolved in mucus of nasal cavity to be detected
Olfactory epithelium lines superior nasal cavity, including superior nasal conchae and inferior surface of cribriform plate of ethmoid bone
Olfactory
tract
Olfactory nerves
(receptor cells)
Nasal conchae
Cribriform plate
of ethmoid bone
Olfactory
epithelium

3. Olfaction Olfactory epithelium contains Olfactory glomerulus
Fig. 19.8
Olfactory glomerulus
Olfaction
Olfactory nerves in
cribriform foramen
Olfactory bulb
Olfactory epithelium contains
olfactory receptor cells (AKA olfactory neurons) that detect odors
supporting cells that sustain receptors
basal cells: neural stem cells that replace neurons
Cribriform plate
Olfactory gland
Basal cell
Lamina propria
Supporting cell
Olfactory epithelium
in nasal cavity
Axon
Cell body
Olfactory
receptor cell
Dendrite
Mucus layer
Olfactory hairs
Odor molecules

4. Olfaction Olfactory receptor cells have olfactory hairs Lamina propria
Fig. 19.8
Olfaction
Olfactory receptor cells have olfactory hairs
cilia-like extensions that house protein receptors for specific molecules
Lamina propria
Basal cell nuclei
Olfactory receptor
cell nuclei
Supporting cell nuclei
Olfactory hairs
Mucus
LM 200x
(b) Olfactory epithelium

5. Olfaction Lamina propria is areolar connective tissue
Fig. 19.8
Olfaction
Olfactory glomerulus
Olfactory nerves in
cribriform foramen
Lamina propria is areolar connective tissue
contains olfactory gland cells that secrete mucus
contains blood vessels and nerves
Olfactory bulb
Cribriform plate
Olfactory gland
Basal cell
Lamina propria
Supporting cell
Olfactory epithelium
in nasal cavity
Axon
Cell body
Olfactory
receptor cell
Dendrite
Mucus layer
Olfactory hairs
Odor molecules

6. Fig. 19.19 Anatomic Regions of the Ear
External ear
External Ear Anatomy
Fleshy ear is auricle or pinna
Funnel shape protects ear and directs sound waves
external acoustic meatus is bony tube
hairs at entrance help guard opening
ceruminous glands produce wax
tympanic membrane is eardrum
vibrates when hit by sound waves
Auricle
External acoustic meatus
Tympanic
membrane
Elastic cartilage

7. Normal tympanic membrane Bleeding Bulging membrane
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Malleus
Normal tympanic membrane
Bleeding
Bulging
membrane
Otitis media present, bulging red tympanic membrane
Malleus
Ventilation
tube
Myringotomy

8. Fig
External ear
Middle ear
External acoustic meatus
Auditory ossicles
Malleus
Incus
Stapes
Tympanic
membrane
cavity
Oval
window
Round
Middle Ear Anatomy
Air-filled tympanic cavity sits behind tympanic membrane
Three bones, auditory ossicles, transfer vibrations from eardrum:
malleus (hammer)
incus (anvil)
stapes (stirrup)
Stapes sits against oval window, opening to inner ear
Ossicles amplify sound waves

9. Fig
External ear
Middle ear
Middle Ear Anatomy
Auditory ossicles
Stapes
Tympanic cavity opens to auditory tube (AKA Eustachian tube)
opens into nasopharynx (upper throat)
Incus
Malleus
Auditory tube
External acoustic meatus
Tympanic
cavity
Tympanic
membrane
Oval
window
Round
window

10. Pressure waves move through fluid called perilymph in scala vestibuli
Fig
Movement of stapes in and out of oval window causes pressure waves inside inner ear
Pressure waves move through fluid called perilymph in scala vestibuli
Scala vestibuli runs through cochlea, spiral-shaped structure of inner ear
Auditory ossicles
Malleus
Incus
Stapes
Oval window
Scala vestibuli
Helicotrema 2 3
Cochlear duct
External
acoustic meatus 5 1
Vestibular membrane 4
Spiral organ
Basilar membrane
Tympanic membrane
Scala tympani
Round window
Auditory tube

11. Center of cochlea is the cochlear duct
Fig
Center of cochlea is the cochlear duct
Vestibular membrane is roof of cochlear duct; basilar membrane is floor
Pressure waves in scala vestibuli cause ripples in cochlear duct
Movement of cochlear duct causes ripples (pressure waves) in scala tympani, fluid-filled area below cochlear duct
Auditory ossicles
Malleus
Incus
Stapes
Oval window
Scala vestibuli
Helicotrema 2 3
Cochlear duct
External
acoustic meatus 5 1
Vestibular membrane 4
Spiral organ
Basilar membrane
Tympanic membrane
Scala tympani
Round window
Auditory tube

12. Hair cells send signals to cochlear branch of vestibulocochlear nerve
Fig
Movement of basilar membrane cause movement of hair cells in spiral organ portion of basilar membrane
Hair cells send signals to cochlear branch of vestibulocochlear nerve
Excess sound waves absorbed by round window
Auditory ossicles
Malleus
Incus
Stapes
Oval window
Scala vestibuli
Helicotrema 2 3
Cochlear duct
External
acoustic meatus 5 1
Vestibular membrane 4
Spiral organ
Basilar membrane
Tympanic membrane
Scala tympani
Round window
Auditory tube

13. Cochlear branch of CN VIII Scala tympani Modiolus
Fig
(a) Sectioned cochlea
Bony cochlear wall
Cochlear duct
Vestibular membrane
Basilar membrane
Scala
vestibuli
Scala vestibuli
Vestibular
membrane
Vestibular
membrane
Cochlear duct
Tectorial membrane
Tectorial membrane
Scala tympani
Spiral ganglion
Basilar membrane
Basilar membrane
Cochlear branch of CN VIII
Scala
tympani
Modiolus
Cochlear
branch of
CN VIII
Supporting
cells
Tectorial
membrane
Stereocilia
Spiral ganglion
Spiral organ
(b) Close-up of cochlea
Outer hair cell
Basilar
membrane
Inner hair cell
Cochlear branch of CN VIII
Scala tympani
(c) Spiral organ

14. d: © Science VU/Visuals Unlimited
Fig
Cochlear duct
Tectorial membrane
Outer hair cell
Inner hair cell
Supporting cells
Cochlear branch
of CN VIII
Basilar membrane
Scala tympani
LM 75x
(d) Spiral organ
d: © Science VU/Visuals Unlimited

15. 3. Signals travel through the thalamus
Fig
4. Signals are perceived as sounds in the primary auditory cortex of the temporal lobe
3. Signals travel through the thalamus
Thalamus
1 & 2. Nerve impulses travel from cochlea to cochlear nucleus of medulla oblongata or inferior colliculus
Primary
auditory cortex 4 3
Inferior colliculus
Cochlear branch
of CN VIII
Superior olivary nucleus 2b 2a 1
Cochlear
nucleus

16. The components of a cochlear implant.
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The components of a cochlear implant.
Transmitter
1. Antenna, transmitter, and
receiver are inserted in skin
posterior and superior to the
auricle. The transmitter lead is
inserted into the inner ear.
Receiver
Antenna
2. Sound waves are detected by the receiver and turned into electrical impulses, which travel through the transmitter.
Transmitter lead

17. The components of a cochlear implant.
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The components of a cochlear implant.
3. Electrical impulses from the transmitter stimulate the cochlear nerve, which then transmits nerve impulses to the brain.
Transmitter lead
Spiral organ
Cochlea cutaway

18. External acoustic meatus Auditory ossicles
Fig
External ear
Middle ear
Inner ear
Auricle
External acoustic meatus
Auditory ossicles
Malleus
Incus
Stapes
Petrous part of temporal bone
Vestibular branch of CN VIII
Cochlear branch of CN VIII
Facial nerve
(CN VII)
Vestibulocochlear
nerve (CN VIII)
Internal
acoustic meatus
Bony labyrinth
of inner ear
Cochlea
Vestibule
To nasopharynx
Elastic cartilage
Tympanic
membrane
cavity
Oval
window
Round
Auditory tube

19. (semicircular canals)
Fig
Equilibrium
Bony labyrinth
(semicircular canals)
Vestibular complex made up of 2 parts
vestibule is area closest to oval window
contains utricle and saccule, saclike areas, connected by narrow passageway
semicircular canals extend above vestibule
Bony labyrinth is channels within temporal bone
Membranous labyrinth is channels within bony labyrinth
Utricle
Vestibule
Saccule
Vestibule
Membranous labyrinth
Bony labyrinth
Ampullae
Connection to
cochlear duct

20. Movement of otoliths in gelatin layer within utricle and saccule moves stereocilia on hair cells
Otolithic
membrane
Gelatin
layer
Kinocilium
Stereocilia
Hair cell
Macula
Supporting
cells
Vestibular
nerve
branches
Vestibular branch of CN VIII
(c) Hair cell

21. 3 semicircular canals – anterior, posterior, horizontal
Fig
3 semicircular canals – anterior, posterior, horizontal
Each canal has semicircular duct inside
Ducts contain hair cells
Semicircular
ducts
Utricle
Vestibule
Saccule
CN VIII
(a) Vestibular complex

22. (semicircular canals) Perilymph
Fig
Membranous labyrinth
(semicircular duct)
Endolymph
Bony labyrinth
(semicircular canals)
Perilymph
Membranous labyrinth
(semicircular ducts)
Bone
Bony labyrinth
(semicircular canal)
Cochlear branch of CN VIII
Utricle
Bony labyrinth
(cochlea)
Membranous labyrinth
(cochlear duct)
Vestibule
Vestibule
Apex of cochlea
(contains helicotremma)
Spiral
organ
Saccule
Membranous labyrinth
Endolymph
Bony labyrinth
Ampullae
Perilymph
Spiral
ganglion
Connection to
cochlear duct
Membranous labyrinth
(cochlear duct)
Bony labyrinth
(cochlea)
Bone

23. semicircular ducts connected to utricle
Fig
semicircular ducts connected to utricle
Ampulla is expanded region at base of semicircular duct farthest from utricle
Semicircular
ducts
Ampullae
Cupula
Vestibular branch of CN VIII

24. Crista ampullaris is elevated region in ampulla
Fig
Cupula
Endolymph
Hair cell
Supporting
cell
Crista
ampullaris
Vestibular
branch of CN VIII
Crista ampullaris is elevated region in ampulla
covered with hair cells and supporting cells
Cupula is a dome of gelatin over crista ampullaris