Lecture 22; Hearing diagnostics and rehabilitation

Question 1

What can cause hearing loss;

Answer 1

Outer ear;
- ear wax, obstruction (temporary)

Middle ear;
- Glue ear/ wax again/ conductive hearing loss (temporary usually)

Inner ear;
- Cochlea problems, IHC of OHC loss, neuropathy, brain lesions (usually permanent)

Question 2

Describe how they basilar membrane is a mechanical analyser of sound.

Answer 2

The basilar membrane has differing mechanical properties.

Base: Thick, stiff, narrow, only high frequencies will resonate here

Apex; Thin, wide, compliant, low frequencies will resonate here.

Question 3

What do audiologist intend to do?

Answer 3

Find which frequencies people hear at

Question 4

What does range of hearing frequencies indicate?

Answer 4

Indicates which part of the basilar membrane may be damage based on hearing loss

Question 5

How do outer hair cells enhance frequency resolution?

Answer 5

They enhance the intensity of low frequencies and seperate frequencies so greater frequencies resolution can be achieved.

Question 6

What cells tend to damaged first with exposure to loud sounds?

Answer 6

OHC first (3 rows should be observed)

IHC can be damaged too.

Question 7

How can OHC damage be rectified?

Answer 7

Hearing aids (increases sound intensity)

Question 8

What do hearing tests also attempt to do?

Answer 8

Determine what sort of damage has occurred, as IHC damage cant be rectified with hearing aids.

Determine underlying pathology

Question 9

What damage can occur from loud noise exposure?

Answer 9

• Damage to tip links
• Damage to stereocilia
• Change in stria vascularis structure
• Damage to auditory nerve fibres (excitotoxicity)
• Cerebral damage or changes

Question 10

What can hearing loss also lead to?

Answer 10

Poorer cognition

Question 11

To what extent is there tonotopic mapping in the auditory system?

Answer 11

throughout the auditory system from the basilar membrane to the auditory cortex

Question 12

What happens to the auditory cortex tonotopic map if there is inner ear damage?

Answer 12

That region of Hz no longer receives input, the brain is plastic so the neighbouring regions take over with their Hz.

Question 13

What is audiometry?

Answer 13

The mechanisms undertaken to access hearing.

Question 14

What is pure tone audiometry?

Answer 14

• Hearing thresholds are obtained by air and bone conduction.
• In air conduction the signal travels through the ear canal, across the middle ear cavity and into the cochlear.
• Therefore, air conduction threshold reflects the integrity of the total peripheral auditory mechanism.

Bone conduction reflects inner ear function.

Question 15

what are the audiometer variables?

Answer 15

• Intensity dial
• Frequency dial
• L/R switch
• Presentation button
• Headphones/inserts/Bone vibrator

Testing to find thresholds of sounds we are hearing.

Question 16

What are the types of sound transducers?

Answer 16

• Circum aural
• Insert Headphones
• Supra aural
• Bone vibrator

Question 17

What are the variables of an audiogram?

Answer 17

Frequency (typically for speech)

Intensity

Question 18

How do they classify hearing loss on an audiogram?

Answer 18

Based on intensity loss

- moderate, profound (cant hear) etc

Question 19

Can hearing loss just be countered by making sounds louder?

Answer 19

No, not all Hz are lost. Therefore only those Hz with loss must be addressed.

Question 20

What are the types of hearing loss?

Answer 20

• Conductive hearing loss (outer or middle ear)
• Sensorneural hearing loss (inner ear, nerve or brain)
• Mixed hearing loss

Question 21

Is hearing loss bilateral?

Answer 21

No it can be unilateral, for sensorneural and conductive hearing loss.

Must ask why it is one ear esp if sensorneural.

i.e infections at inner ear or tumors

Question 22

On a pure tone audiogram for sensorneural hearing loss, what indicates OHC vs IHC damage

Answer 22

OHC damage will show a loss of Hz at low intensities while IHC damage will show loss of HZ at high db and in some cases, some Hz cant be heard at all regardless of db

High db loss usually OHC and IHC damage.

Question 23

What is a dead region?

Answer 23

A region where there is nothing is heard regadless of db.

Usually loss of afferent innervation too

Question 24

What is off frequency listening?

Answer 24

When the intensity of the Hz is so great that it stimulates adjacent Hz areas and gives the impression that something is being heard.

Question 25

Describe sensorneural hearing loss and how it extends beyond loss of audibility;

Answer 25

Two components;

• Loss of audibility
• Loss of compressive signal processing due to loss of OHC. (strongly altered signalling capabilities) (compressive signalling allows frequency resolution and low intensity sound to be heard)

Question 26

What does loss of OHC cause?

Answer 26

Loss of active signalling process;

• loss of compressive processing (discomfort to loud sounds)
• Loss of Hz selectivity (reduced pitch discrimination)

Question 27

What does loss of IHC cause?

Answer 27

Loss of sensitivity to sound.

Question 28

What does a hearing loss also lead to?

Answer 28

Inability to distinguish between Hz therefore they substitute the wrong sounds or hear the wrong thing.

So on an audiogram a patient cant tell the difference between a range of frequencies.. they range becomes broader as they become deafer..

Question 29

What is loudness growth?

Answer 29

• Loud sounds are heard at the same threshold. quite sounds are not heard.
• Medium sounds are just right

Question 30

What are the perceptual consequences of hearing loss?

Answer 30

Highly specialised mechanisms for signal analysis are strongly degraded

• Mechanisms for separating sound are missing
• Speech intelligibility especially in noise environments is degraded.

Question 31

What is the purpose of speech testing?

Answer 31

• Obtain assessment of everyday communication difficulties the person is experiencing (how much of a word a person hears)
• cross check
• Diagnostic
• Hearing aid evaluation

Question 32

What is acoustic immittance measures?

Answer 32

• Assess how sound travels through the middle ear
• If middle ear is blocked, most of the sound will get reflected back
• Reflected sound waves carries information about the status of the middle ear system

Stiff TM = increased sound reflection
Hole in TM = no reflection

Question 33

What are the components of an acoustic immittance measures?

Answer 33

• Sound source that generates low HZ
• Microphone that measures the reflected sound wave
• air pump and manometer which varies the air pressure in the middle ear canal.

Question 34

What is produced from acoustic immittance measures?

Answer 34

Tympanometry

Question 35

What is tympanometry?

Answer 35

Air pressure is varied with positive and negative relative to ATP, and effects of air pressure changes how much sound is transmitted through the middle ear is measured

Tympanogram is a graphical representation of how sound travels through the ME as a function of ear canal pressure

Question 36

How can loud sound be used to measure audiology?

Answer 36

Loud sounds can be used to test acoustic reflexes, indicates ME function and neural circuit functioning or if significant hearing loss.

Question 37

How can hearing be objectively measured?

Answer 37

• Distorted Product Oto Acoustic Emmission

DPOAEs= sound own ear makes, healthy ear makes these in response to certain sounds , i.e play two tones and a third is present, made by the own ear, comes about because of OHC function

• Can use electrocochleargraphy.
• AEP

Question 38

What is seen with AEP

Answer 38

Louder sounds produce larger waves.

Question 39

What is auditory processing disorder?

Answer 39

Difficulties in processing auditory information in the CNS as demonstrated by poor performance on one or more of the following skills;

• Sound localisation and lateralization
• Auditory discrimination
• Auditory pattern recognition
• Temporal aspects of audition i.e temporal discrimination
• auditory performance in competing aucoustic signals
• Auditory performance with degraded aucoustic signals