Week 11: Auditory Pathway

Question 1

Which bone does the ear sit around?

Answer 1

Temporal bone

Question 2

How is the ear divided?

Answer 2

External ear:
receives sound waves

Middle ear:
sound waves –> mechanical waves through tympanic membrane

Inner ear:
Mechanical waves –> electrical waves

Question 3

What is the function of the auricle?

Answer 3

to funnel sound waves into the external acoustic meatus

Question 4

What structure separates the external ear from the middle ear?

Answer 4

tympanic membrane

Question 5

What structure connects the middle ear to the nasopharynx?

Answer 5

via the Eustachian tube (a.k.a auditory tube)

Question 6

The middle ear contains 3 ossicles. What are they called?

Answer 6

1. Malleus
2. Incus
3. Stapes

Question 7

What happens to the eustachian tube as we age?

Answer 7

it becomes more vertical (it is more horizontal in infants - this is why they are more prone to ear infections as it is easier for infection to travel)

Question 8

What are the functions of the eustachian tube?

Answer 8

• ventilation
• drainage
• equilibriate the pressure between the external and internal environment

Question 9

What are the 3 techniques to open the Eustachian tube to equilibriate pressure again?

Answer 9

yawn
swallow
pinch nose and blow out of cheeks

Question 10

Why is the middle ear a high risk space?

Answer 10

1. Connected to nasopharynx –> prone to infection
2. Connected to mastoid air cells –> infection can spread to middle cranial fossa
3. Internal jugular vein lies inferior –> risk of thrombosis
4. Internal carotid artery lies anterior
5. Transversed by chorda tympani and facial canal –> infection risk

Question 11

What is pulsatile tinnitus?

Answer 11

ringing that matches your heart rate

Question 12

The inner ear is composed of 2 special sense organs. What are they?

Answer 12

1. Vestibular system
   - vestibule, semi circular canals, semi circular ducts
   - important for balance
2. Cochlear
   - cochlear ducts
   - important for hearing

Question 13

In the cochlear, which part detects:

1. Low frequency sound
2. High frequency sound

Answer 13

1. Apex of cochlea

2. Base of cochlear

Question 14

What are the 2 fluid filled cavities found in the cochlea?

Answer 14

1. Bony labyrinth (outside)

2. Membranous labyrinth (inside)

Question 15

What fluid does the bony (outer) labyrinth contain?

Answer 15

perilymph

Question 16

What fluid does the membranous (inner) labyrinth contain?

Answer 16

endolymph

Question 17

The cochlear duct seperates the cochlea into two chambers. What are they called and what fluid are they filled with?

Answer 17

1. Scala vestibuli
2. Scala tympani

both filled with perilymph

Question 18

How are the scala vestibuli and scala tympani continous with the apex of the cochlea?

Answer 18

through a narrow slit called the helicotrema

Question 19

What is inside the SV and ST chamber?

Answer 19

the cochlear duct which contains endolymph

Question 20

Where is the spiral organ (of Corti) ?

Answer 20

• inside the cochlear duct
• sits above the basilar membrane
• contains hair cells with tips embedded into the tectorial membrane

Question 21

How does the spiral organ of corti detect and transmit sound?

Answer 21

• upon movement of the cochlear duct by the perilymph in the surrounding SV and ST, the tectorial membrane moves up and down
• the cilia detect this movement and transmit information to cochlear nerve fibres
• converts fluid pressure into electrical signals via cochlear nerves

Question 22

Explain how sound waves from air is transformed into electrical information (6 steps)

Answer 22

1. External ear funnels sound waves via the middle ear
2. Ossicles vibrate - malleus, incus and stapes
3. Stapes is in contact with oval window
4. This vibration is transmitted into fluid of the scala vestibuli then scala tympani
5. Whilst the fluid moves, we have movement vibration of the tectorial membrane inside the spiral organ of corti
6. This movement is detected by hair cells, which transmit through axons that transmit information via the cochlear division of the vestibulocochlear nerve

Question 23

What fluid does the cochlea contain

Answer 23

perilymph

Question 24

Which structures do vibrations travel through between the stapes and the round window?

Answer 24

In order:
Stapes
Perilymph
SV
Helicotrema
ST
Round window

Question 25

Give 4 features of the auditory pathway?

Answer 25

• polysynaptic
• tonotopically organised
• bilateral (so sound can be localised)
• it compares two inputs - timing and loudness

Question 26

Explain the 7 steps in the auditory pathway

Answer 26

1. Vestibulocochlear nerve reaches the brainstem at the cerebellopontine angle
2. At this level, there are synapses with cochlear nuclei
3. We then have 2nd order neurones travelling up to higher levels in the brainstem
4. Further synapses at the superior olivary nucleus
5. Axons carry information up to the inferior colliculus
6. Neurones project to the medial geniculate nucleus of the thalamus
7. Neurones project to the auditory cortex

Question 27

Where do 1st order neurones emerge from and connect to?

Answer 27

1st order neurones emerge from the spinal organ of corti and connect to the hair cells

Question 28

Where are dorsal and ventral cochlear nuclei found?

Answer 28

just lateral to the inferior cerebellar peduncle

Question 29

What is the cochlea nuclei role in the auditory pathway?

Answer 29

• receive afferents from cochlear nerve

- project bilaterally to superior olivary nucleus

Question 30

What is the role of the superior olivary nucleus in the auditory pathway?

Answer 30

• SON receives bilateral auditory information

- sends ascending fibres to inferior colliculus via lateral lemniscus bilaterally

Question 31

Where is the inferior colliculus?

Answer 31

in the tectum of the idbrain

Question 32

What is the role of the inferior colliculus in the auditory pathway?

Answer 32

sends auditory information to the MGN via the brachium (arm) of the inferior colliculus

Question 33

What is the role of the MGN in the auditory pathway?

Answer 33

Sends fibres to primary auditory cortex via acoustic radiations

Question 34

What does the brachium of the inferior colliculus do?

Answer 34

connects the inferior colliculus to the medial geniculate nucleus

Question 35

Which region of the basilar membrane responds to:

1. Low frequency
2. High frequency

Answer 35

1. AnteroLateral part

2. Posteromedial part

Question 36

Which two areas are specialised for linguistic function?

Answer 36

1. Broca’s area
   - responsible for motor, production of words
2. Wernicke’s area
   - responsible for sensory, understanding of words and fluency

Question 37

What and where is heschl’s gyrus?

Answer 37

=primary auditory cortex

in superior temporal lobe

Question 38

Explain the auditory reflex involing the stapedius muscle

Answer 38

• when auditory information reaches the superior olivary nucleus, fibres travel to the stapedius and tensor tympani muscle
• interneurones meet nuclei of CN VII (which innervates stapedius) or nuclei of CN V3 (which innervates tensor tympani)
• to prevent damage during loud noises

Question 39

Explain the auditory reflex that occurs at the level of the inferior colliculus?

Answer 39

via interneurones, the auditory information can reach nuclei of CN III, IV and VI which innervates eye movements and spinal nerves that move our neck, body and trunk in response to sound