auditory system

Question 1

do vestibular organs capture low or high freq motion?

Answer 1

they capture low frequency motion (movements)

Question 2

do hearing organs capture high or low freq motion?

Answer 2

high frequency motion (sound)

Question 3

evolution of cochlea and canals

Answer 3

statocyst, utriculus, sacculus, - 1) cochlea 2) canals

Question 4

what is frequency/ pitch and units

Answer 4

Hz, number of cycles per second, perceived: tone

Question 5

what is amplitude/ loudness? units?

Answer 5

dB, Sound pressure, subjective attribute: correlated with physical strength.

Question 6

human range of hearing in hz and db

Answer 6

20-20,000 Hz
20-120 dB (SPL- sound pressure level)

Question 7

outer ear functions

Answer 7

CAPTURE sound AND focus sound to the tympanic membrane

MODEST (10Db) amplification of upper range speech frequencies by resonance in the canal

protect inner from external threats

Question 8

MAIN function of middle ear

Answer 8

mechanical amplification (can provide an additional 20-30dB)

Question 9

components of the middle ear?

Answer 9

tympanic membrane
ossicles
muscles
oval window
round window
auditory tube

Question 10

order of the ossicles

Answer 10

malleus, incus, stapes

MAL-I-STA

Question 11

What is the cochlea (generic)

Answer 11

The hearing part of the inner ear

Question 12

What are the muscles of the middle ear? (In order from outer to inner)

Answer 12

Tensor tympani muscle- one end attatched to tympanic memb

Stapedius muscle - one end on stapes

Question 13

What is the function of the cochlea

Answer 13

Transduce vibrations into nervous impulses

Question 14

What two features of sound does the cochlea successfully transduce into nerve signals?

Answer 14

Frequency and intensity

Question 15

What structure forms the oval window?

Answer 15

The stapes

Question 16

What part of the ear is cochlea in?

Answer 16

Inner

Question 17

If you picture the cochlea as a sandwitch with the stapes on the left (left open- pointy on right)
Which are the 3 compartments of the cochlea?

Answer 17

From top to bottom:
1) scala vestibuli
2) scala media
3) scala tympani

Question 18

Which chochlear components are bony and which are membranous? What does this mean/ what is the structure of these components?

Answer 18

Top and bottom: scala vestibuli and tympani equivalently are bony and contain perilymph
Scala media: membranous and contains endolymph

Question 19

What element is the endolymph rich in?

Answer 19

Potassium

Question 20

What element is the perilymph rich in?

Answer 20

Sodium

Question 21

What window (oval and round) “attaches” to what scala and what is the direction of the signal?

Answer 21

Oval window to scala vestibuli, signal moves into endolymph and throught the perilymph is transferred to scala tympani to meet the round window

Question 22

Is the organ of corti a hearing or vestibular organ?

Answer 22

Hearing

Question 23

Where is the organ of corti located?

Answer 23

ON the basilar membrane of the scala media

Question 24

What is the name of the membrane of the scala media when it touches the scala vestibuli and when the scala tympani

Answer 24

Vestibular membrane
Vs
Basilar membrane

Question 25

Which side is base and which is apex of basilar memb and what are its structural features?

Answer 25

Base: near stapes, tight: thick and narrow

Apex: wide (thin) and loose

(miazeime trifti tiriou in pyramid shape with the stapes being the handle and the only addition is that the NARROW part is THICK)

Question 26

What sits on the basilar membrane?

Answer 26

Hair cells

Question 27

What frequency sound does the base of basilar memb respond to and what does the apex respond to?

Answer 27

Base Hight freq (think- base is tighter and thicker so only the stronger- pio pola kimatakia- higher freq sound can move this partnof memb

Apex Low freq (less waves, less strength needed to move this side bc its thin)

Question 28

What are the two types of hair cells in the organ of corti?

Answer 28

Inner hair cells (IHC)
And
Outer hair cells (OHC)

Question 29

What structure facilitates hair deflection and where does it sit?

Answer 29

Tectorial membrane, sits above hair CELLS (hairs (stereocillia) of hair cells peak through)

Question 30

What does hair deflection lead to?

Answer 30

Depolarization of the hair cells

Question 31

What is the role of IHC?

Answer 31

Carry 95% of AFFERENT information OF auditory nerve : meaning transduction of sound into nerve impulses

(Remember bc inner sounds like EAR- sensory- hearing role)

Question 32

Role of OHC?

Answer 32

Carry 95% of efferent info of auditory nerve : modulation of the SENSITIVITY of the response

Question 33

What are the hairs on hair cells called?

Answer 33

Stereocillia

Question 34

In what direction do the stereocilia have to deflect in order for depolarization to happen?

Answer 34

Towards the longest cilium (kinocilium)

Question 35

What actually happens when the hairs deflect in order to cause depolarization? What happens once the cell is depolarized?

Answer 35

K channels open
Cell depolarises
Release of neurotransmitter to afferent nerve which now also depolarizes

Question 36

How do higher amplitudes influence rhis depolarization process?

Answer 36

Greater hair deflection
Greater k channel openning
Greater depol

Question 37

How is the basilar membrane arranged? (Based on what principle/ feature)

Answer 37

tonotopically

Question 38

Explain the events between k channels oppening and neurotransmitter reaching afferent neeves from hair cell

Answer 38

K channels open
(this is different to typical depolarisation where Na influx is driving the depol)

Depolarization of hari cell
Opening of voltage gated calcium channel
Excitatory neurotransmitter (glutamate ) exocytosed
Neurotransmitter reaches afferent nerve

Question 39

Where do the nerves sit when near the hair cells?

Answer 39

In PERILYMPH NOT ENDOLYMPH like hair cells

Question 40

Describe the progression of the auditory pathway

Answer 40

From cochlea to
Brainstem:
1)cochlear nucleus
2)Superior olive
3)Inferior colliculus

To thalamus:
4)Medial geniculate body

Temporal lobe:
5) auditory cortex

Question 41

What is the name of the ganglions that take info from the cochlea to cochlear nucleus? What nerve do they travel inside?

Answer 41

Spiral ganglions travel inside the vestibulocochlear nerve (8th cranial)

Question 42

You learned about two different neural pathways. One through auditory nerve and one through vestibulocochlear nerve but they both start with depolarisation of hair cells in cochlea. Make sure you inderstand difference and don’t confuse them.

Answer 42

Both paths involve the transmission of auditory information from the cochlea to higher auditory centers in the brain, but they differ in the specific nuclei and brain regions they involve and in the level of processing that occurs at each stage.

The path via the VESTIBULOCHOCLEAR nerve primarily involves EARLY processing at the BRAINSTEM level,

The path via the AUDITORY NERVE extends to HIGHER cortical areas involved in conscious perception and interpretation of sound.

Question 43

Specific location of cochlear nuclei in brainstem

Answer 43

Pons

Question 44

How are the neurons and nuclei in the cochlear nucleus characterised and why?

Answer 44

Monoaural neurons
Ipsilateral cochlear nuclei

Because info up to that point is ipsilateral, after this point IN THE SUPERIOR OLIVE some of the neurons from each ear cross to other side of brain so info is now BILATERAL (means info from both ears in both sides of brain)

Question 45

Where do some auditory nerves cross in brain

Answer 45

Superior olive and in brainstem

Question 46

What are the three anatomical types hearing loss? Where is the damage located in each type?

Answer 46

1) conductive: (think- mechanical, blockage problem so:) outer or middle ear
2) sensorineural: cochlear prob or auditory nerve
3) central : brain or brainstem

Question 47

Two main aspects to consider in hearing loss

Answer 47

Timing and anatomy (location)

Question 48

Two types of timings in hearing loss

Answer 48

Sudden hearing loss: minutes to days
(Like Acute in other areas of med)

Progressive hearing loss: months to years (like chronic)

Question 49

What does a normal tympanic memb look like (what is smth characyeristic)

Answer 49

Lustrous look- reflects the light of the osciloscope

Question 50

Causes of conductive hearing loss in outer ear

Answer 50

Wax
Foreign body (wasps or stuff kids put in ears)

Question 51

Med name of wax

Answer 51

Cerumen

Question 52

Middle ear obstruction causes and how can you see

Answer 52

Otitis (bubbles can be seen through the eardrum: indicates liquid in middle ear which is not normal- normal is air)

Osteosclerosis (bone problem)

Question 53

Inner ear hearing loss causes

Answer 53

Presbycusis (age)
Noise
Ototoxicity (from drugs or chemitherapy or shit)

Question 54

Nerve damage hearing loss causes

Answer 54

Acoustic neuroma (for ex vestibular schwannoma: tumour made of this tissue) unilateral: usual

Question 55

Bedside tests advantages and disadvantages

Answer 55

Quick but not that acurate

Question 56

What are the common bedside tests

Answer 56

1) whisper in ipsilateral ear whilst rubbing fingers in contralateral ear

2)tunic fork tests: 2 weber and rinne test

Question 57

Describe weber and rinne test

Question 58

What is an audiogram

Answer 58

Its the graph (loudness over frequency) where they plot your hearing thresholds to define if theres hearing loss.-explains how many decibels you need to hear each frequency

Question 59

What is a normal hearing threshold

Answer 59

0-20 dB (means that you can hear every frequency at most at 20 dB - the lower dB you can hear a freq at means you have better hearing)

Question 60

What is the autogram pattern observed in conductive hearing loss ( air conduction and bone conduction trend lines)

Answer 60

Bone conduction normal for all freq

Air conduct relatively lineary abnormal for all freq

Question 61

What is the autogram pattern observed in sensoryneural hearing loss ( air conduction and bone conduction trend lines)

Answer 61

Air and bone conduction together
Both normal for low freq, get poor for high frequencies

Question 62

What is a special test done to test normal cochlear functioning? What does this test rely on/ what does it measure?

Answer 62

Otoacoustic emissions (OAEs) test
These are low intensity sounds produced by the outer hair cells as they expand and contract

Question 63

When do they do otoacoustic emissions test?

Answer 63

Newborn hearing screening and hearing loss monitoring