Auditory System

Question 0

What does intensity of sound refer to ?

Answer 0

Amplitude of the wave
It is the difference in pressure between compressed and rarefied patches of air in a sound wave
It determines loudness

Question 1

What is sound ?

Answer 1

Audible variations in the air pressure

Question 2

What does the frequency of sound refer to ?

Answer 2

Number of waves per second
Expressed as Hz
It determines pitch

Question 3

What does the middle ear do ?

Answer 3

It converts the wave in air to a wave in fluid

Question 4

What are the ossicles of the Middle ear ?

Answer 4

They are within air filled cavities
They provide amplification of the sound - they amplify the signal from the tympanic membrane to cause the fluid in the cochlear to move
- malleus, incus and stapes

Question 5

What is the attenuation reflex ?

Answer 5

It dampens the sound when it is very loud
The stapedius and tensor tympani muscles contract to reduce the movements of the ossicles so the fluid ,movement doesn’t damage the hair cells in the cochlear

Question 6

What is conductive hearing loss ?

Answer 6

Scar tissue due to an infection or otosclerosis( proliferation of bone) causes decreased movement of ossicles

Question 7

What is a major part of the outer ear ?

Answer 7

Pinna

Made up of elastic cartilage which funnels the sound wave down the auditory canal so it hits the tympanic membrane

Question 8

What is the inner ear like ?

Answer 8

It is a snail shaped fluid filled cavity sitting in the skull
3 channels- scala vestibuli, media and tympani
Contains the basilar membrane which is floppy and moves up and down due to fluid flow

Question 9

How does the basilar membrane move ?

Answer 9

Pressure changes cause the oval window to move
Moves the perilymph in the scala vestibuli
This moves the reissners membrane which moves the endolymph
This causes the basilar membrane to move creating a travelling wave

Question 10

How are different frequency sounds heard ?

Answer 10

Different frequency sounds cause movement of the basilar membrane at a specific part
This determines which hair cells move

Question 11

What is the organ of corti ?

Answer 11

It is on top of the basilar membrane and contains hair cells and auditory receptor neurons
The hair cells extend and implant into the rigid tectorial membrane

Question 12

What does the round windows do ?

Answer 12

Allows the cochlear to bulge out a little to reduce the pressure

Question 13

What is the helicotrema ?

Answer 13

It connects the scala vestibuli and tympani and allows fluid to flow from one side to the other causing the membrane to move

Question 14

Where are high frequency sounds heard on the basilar membrane ?

Answer 14

They are able to vibrate the stiff base but they don’t travel far

Question 15

Where are low frequency sounds heard on the basilar membrane ?

Answer 15

There energy doesn’t dissipate so they can travel further but they don’t have enough energy to vibrate the stiff base

Question 16

What is the purpose of the tonotopoc organisation of the basilar membrane?

Answer 16

It’s called frequency coding
Enables the brain to know which part of the basilar membrane has moved and therefore which hair cells have moved enabling it to determine the frequency of the sound
Works to about 200Hz

Question 17

What happens is the main purpose of the auditory receptors (hair cells) ?

Answer 17

They are the point where mechanical energy is changed into membrane potential

Question 18

What are the types of hair cells ?

Answer 18

Inner and outer hair cells
3x more outer hair cells but it is the inner hair cells which pass on most of the information about movement of the membrane

Question 19

What structures are linked to the basilar membrane to form a structural unit ?

Answer 19

Basilar membrane
Reticular laminar
Rods of corti
Hair cells

Question 20

What happens when the basilar membrane moves downwards ?

Answer 20

Reticular laminar also moves downwards and away from the modiolus
This causes the stereocillia to bend in

Question 21

What happens when the basilar membrane moves upward ?

Answer 21

Reticular laminar moves upwards and in towards the modiolus

This causes stereocillia to bend out

Question 22

What makes the hair cells rigid ?

Answer 22

The actin in the filaments

Question 23

What are the concentration of ions in the endolymph ?

Answer 23

Potassium ions - 150mM

Sodium ions - 1mM

Question 24

What is the concentration of ions in the perilymph ?

Answer 24

Potassium ions - 7mM
Sodium ions - 140mM
This bathes the hair cells

Question 25

How much more positive is the endolymph,oh compared to the perilymph ?

Answer 25

80mV
Endocochlear potential
This bathes the base of the hair cells

Question 26

What happens when potassium channels on hair cells open ?

Answer 26

Potassium ions flow into the hair cells due to the high concentration of potassium ions in the endolymph

Question 27

What are the potassium channels like in the stereocillia ?

Answer 27

They are mechanically gated channels
Elastic filaments link the lids of channels on different hair cells together - lids are only slightly open when the basilar membrane is still so there is only bey slight movement of potassium ions

Question 28

What is the kinacillium ?

Answer 28

It is the largest stereocillia

Question 29

What happens when the stereocillia move towards the kinacillium ?

Answer 29

Tips move away from each other and this causes the elastic filaments linking the lids to stretch and pull the lids open so more potassium ions can flow into the cells

Question 30

What happens when the stereocillia move away from the kinacillium ?

Answer 30

The elastic filaments connecting the lids contract and the lids close completely

Question 31

How many spiral ganglion cells does a single inner hair cells synapse onto ?

Answer 31

About 20

These cells control neurotransmitter release

Question 32

What is the purpose of the outer hair cells ?

Answer 32

They amplify the movement of the basilar membrane
Contain motor proteins which can lengthen by contracting and this will further exaggerate the movement of the basilar membrane
Causing greater bending of the stereocillia so more chance of depolarisation and higher rate of AP firing

Question 33

What happens in sensorineural hearing loss ?

Answer 33

It is hearing loss which occurs when cells dies meaning that signal transduction can no longer occur
Can be caused by congenital or environmental damage

Question 34

What is the treatment for sensorineural hearing loss ?

Answer 34

Cochlear implant

Directly stimulates specific points on he basilar membrane to activate specific neurons in cranial nerve 8

Question 35

How are frequencies below 200Hz encoded ?

Answer 35

By phase locking

Question 36

Where is tonotopy seen for sound frequencies greater than 200Hz ?

Answer 36

Basilar membrane-spiral ganglion- cochlear nucleus

Question 37

What is phase locking ?

Answer 37

It is the timing of neuronal firing
It complement the tonotopic map
It occurs with sound waves up to 4kHz because above this the sound wave cycles too fast for the action potentials of a single neuron to match the timings

Question 38

When does neuronal firing= frequency ?

Answer 38

At low frequencies when the cell fires everytime the sound wave is in a particular phase

Question 39

When does group firing rate= frequency ?

Answer 39

Where one cell does not Fire everytime but as part of a group so it is a combined effort - coverage

Question 40

What is the ascending auditory pathway ?

Answer 40

Spiral ganglion 
Ventral cochlear nucleus 
Superior olive 
Inferior colliculus 
Medial geniculate nucleus of thalamus 
Auditory cortex

Question 41

Where does decussation occur in the ascending auditory pathway ?

Answer 41

2nd order neuron from the ventral cochlear nucleus decussates to the contralateral superior olive

Question 42

What is the function of the inferior colliculus ?

Answer 42

Detection of sudden/strange/loud sounds - cause your head to turn

Question 43

What are the 2 mechanisms for encoding sound localisation ?

Answer 43

Horizontal localisation - both ears

Vertical localisation - mono aural

Question 44

What are the 2 mechanisms for horizOntal sound localisation ?

Answer 44

Interaural time difference

Inter aural intensity differenc e

Question 45

What is interaural time difference ?

Answer 45

Time difference of sounds between both ears
- if the sound is closer to the left ear then It takes longer to hear it in the right ear
Sounds at a 45 degree angle causes a 0.3msec difference
Sounds at 90 degree able cause a 0.6msec difference

Question 46

Where is the coincidence detector ?

Answer 46

Medial superior olive - contains lots of different neurons to help tell where sound is coming from
The neuron will only fire if it receive inputs from both ears

Question 47

What is interaural intensity difference ?

Answer 47

Compares intensity of sound in each ear
Head causes sound to be muffled
Binaural inputs - excitatory inputs from AVCN and inhibitory inputs from MNTB to lateral superior olive