Overview of ABR and OAE

Question 1

Are electrophysiologic tests objective or subjective?

Answer 1

Objective, does not require patient response

Question 2

What are some electrophysiologic tests used in audiology?

Answer 2

Immittance tests (tymps, reflexes, reflex decay)
OAEs
AERs (ABR)

Question 3

Can someone fake electrophysiologic audiometry?

Answer 3

No

Question 4

What are auditory evoked responses (AER)?

Answer 4

Neurons in the brain communicate via rapid electrical impulses that allow the brain to coordinate behavior, sensation, thoughts, and emotion
The CNS, even in the absence of sensory stimulation, generated spontaneous and random neuroelectric activity
Can be recorded using scalp electrodes

Question 5

What do these spontaneous brain activities form the basis of?

Answer 5

Electroencephalogram (EEG)

Question 6

Can we also record responses (using EEG) to certain neural activity in response to sensory stimuli?

Answer 6

Yes, this includes hearing

Question 7

Where is AEP or AER activity?

Answer 7

Cochlea
Auditory nerve
CANS

Question 8

Are EEG responses huge?

Answer 8

Yes

Question 9

Do we need to extract evoked responses from the general EEG responses?

Answer 9

Yes
Requires significant amplification and other mechanisms

Question 10

What does an ABR consist of?

Answer 10

A sequential series of 5-7 peaks (responses)

Question 11

What are we looking at for ABRs?

Answer 11

The latency of the response from onset of the stimulus

Question 12

In clinical practice, what peaks of the ABR do we focus on?

Answer 12

I to V in general
I, III, V in particular

Question 13

Why do we not care about waves II and IV?

Answer 13

Because they are assumed to be there if the others are there

Question 14

Can an ABR provide a close estimate of hearing thresholds for specific frequencies?

Answer 14

Yes

Question 15

Is ABR a test of hearing sensitivity?

Answer 15

No, just an estimate
Rather, it is looking at neural synchrony

Question 16

Can ABRs predict a conductive, sensory, or neural site of lesions?

Answer 16

Yes
Why it is used for newborn hearing screening

Question 17

Is an ABR used as a screening tool for retrocochlear pathologies?

Answer 17

Yes
Tells you something is wrong, but doesn’t tell you specifics

Question 18

What area is wave I associated with?

Answer 18

Distal 8th nerve in the cochlea

Question 19

What area is wave III associated with?

Answer 19

Cochlear nucleus, trapezoid body, and superior olivary complex

Question 20

What area is wave V associated with?

Answer 20

Lateral limniscus

Question 21

What is the blood supply to the cochlea?

Answer 21

Labyrinthine artery (branch of AICA)

Question 22

What is the blood supply of the brainstem?

Answer 22

Vertebrobasilar artery

Question 23

What is the normative peak latency for wave I at 80 dB nHL?

Answer 23

1.5 ms

Question 24

What is the normative peak latency for wave II?

Answer 24

2.6 ms

Question 25

What is the normative peak latency for wave III?

Answer 25

3.7 ms

Question 26

What is the normative peak latency for wave IV?

Answer 26

4.7 ms

Question 27

What is the normative peak latency for wave V?

Answer 27

5.5 ms

Question 28

What is the standard deviation for latency values for waves I, II, and III?

Answer 28

0.25 ms

Question 28

What is the standard deviation for the latency values for waves IV and V?

Answer 28

0.5 ms

Question 29

What is the interpeak value for I - III?

Answer 29

2.25 ms

Question 30

What is the interpeak value for III - V?

Answer 30

2.0 ms

Question 31

What is the interpeak value for I - V?

Answer 31

4.0 ms

Question 32

What transducers are used for ABR?

Answer 32

Inserts

Question 33

What types of stimulus are used for ABR?

Answer 33

Clicks
Chirp
Tone burst (short frequency specific signal)
Speech stimuli (/ba/, /da/)

Question 34

What are the polarities of ABR?

Answer 34

Rarefaction (negative)
Condensation (positive)
Alternating (combined polarity)

Question 35

What is alternating polarity?

Answer 35

Computer will run rarefaction and condensation itself and add the information together

Question 36

What is the rate of the ABR stimulus presentation?

Answer 36

> 20/s
Odd numbers like 21.1 or 27.3

Question 37

Why is there an odd number of presentations for ABR?

Answer 37

Reduces artifact

Question 38

What rate of ABR is used for neurodiagnosis?

Answer 38

> 90/s

Question 39

What intensity is used for ABR?

Answer 39

It is variable depending on what you’re looking for
could be from 10 to 90 dB

Question 40

What type of stimulus gives the best ABR responses in a normal hearing listener?

Answer 40

Clicks at about 75 to 90 dB nHL

Question 41

What does nHL mean?

Answer 41

Normal hearing level
Levels in dB relative to the subjective click threshold level for subjects with normal hearing

Question 42

As intensity of the ABR decreases, what occurs in the wave?

Answer 42

As intensity decreases, all waves disappear except for V
Wave I disappears first
The latency of the wave (V) increases
The morphology of the wave will change (become less clear)

Question 43

Is an ABR threshold accurate to an actual hearing threshold?

Answer 43

An actual hearing threshold is typically 10 to 15 dB better than the ABR threshold

Question 44

How is an ABR threshold determined?

Answer 44

At the lowest intensity that wave V can be recognized

Question 45

What do BC ABRs look like?

Answer 45

They look like lower intensity AC ABR with clicks
Morphology poorer
Wave V visible, but no others

Question 46

Why do BC ABRs look like that?

Answer 46

Because bone-conduction output is limited

Question 47

Is the latency the same for BC ABR?

Answer 47

No, it is slightly longer than AC ABR
Adult latency increases by 0.6 ms
Children latency increases by 0.7 ms

Question 48

Is the dynamic range different for BC ABR than AC ABR?

Answer 48

Yes
You rarely exceed 55 dB nHL because you can’t deliver intensity greater than 55 to 60 dB HL via a bone oscillator

Question 49

Is an ABR affected by neuromaturation?

Answer 49

Yes

Question 50

What does neuromaturation mean?

Answer 50

The maturity of the nervous system
Not mature when we are born

Question 51

Is there separate norms for newborns and babies?

Answer 51

Yes
And they are constantly changing with the age of the child
There is a chart to reference

Question 52

When does the ABR of a child begin to assume adult latencies?

Answer 52

By age 2

Question 53

When does a child’s ABR become adult like?

Answer 53

By age 3

Question 54

In your interpretation of an ABR, should you consider the chronological and developmental age?

Answer 54

Yes
Their developmental age may be different based on prematurity

Question 55

Can an ABR rule out all auditory abnormalities?

Answer 55

No

Question 56

What frequency range are click ABRs most sensitive?

Answer 56

2000 to 4000 Hz

Question 57

Due to the optimal frequency range of a click ABR being 2000 to 4000 Hz, is an abnormal ABR mean no residual hearing?

Answer 57

No

Question 58

Is sedation generally used for children between 6 months and 4 years of age?

Answer 58

Yes
Unless the child is naturally asleep
ABRs required no movement

Question 59

ABR characteristics of CHL

Answer 59

Absolute latencies are pushed out, but the relative interwave latencies
were retained within normal limits
Wave V was replicable at 70 dB nHL, but disappeared at 60 dB nHL
Approximate hearing threshold would be 60 dB HL (70 dB nHL -10)

Question 60

Brainstem dysfunction ABR

Answer 60

Only wave 1, no later waves seen
Probably a retrocochlear pathology

Question 61

ABR characteristics of SNHL

Answer 61

Prolonged wave I
Relatively normal wave V (normal latency)

Question 62

Does a stimulus rate up to 20/sec believed to have an effect on the ABR waveforms?

Answer 62

No
When it is higher than this, it puts stress on the system

Question 63

What do higher rates of ABR produce?

Answer 63

Increased latency and decrease in amplitude

Question 64

What is the goal of a rate study?

Answer 64

Diagnosis neuropathology
Vestibular schwannoma

Question 65

What do they typically increase the rate to for a rate study?

Answer 65

> 90/sec

Question 66

What will increasing the stimulus rate to 50-90/sec do to the ABR?

Answer 66

Typically have little effect

Question 67

What does an ABR with a vestibular schwannoma look like?

Answer 67

Wave I is diminished and absent waves III and V

Question 68

How does a tumor effect the rate of an ABR?

Answer 68

Increase in wave V latency with increasing rate
Increasing rate shows poorer morphology

Question 69

Does a cochlear microphonic reverse?

Answer 69

Yes, when you reverse the polarity

Question 70

Do people with ANSD have true ABRs?

Answer 70

No, they typically have abnormally long CM that look like ABRs

Question 71

How do you tell the different between a CM that is long and looks like an ABR and a true ABR?

Answer 71

Change the polarity
True ABRs won’t reverse, but CMs will
Alternating will be a flat line for CM (cancel each other out)

Question 72

Do CMs follow the stimulus exactly?

Answer 72

Yes

Question 73

What are the guidelines for a diagnostic ABR that are performed on an infant who failed their NBHS?

Answer 73

Perform one run of either rarefaction or condensation followed by the other at 70-75 dB nHL
If the waves reverse, it’s ANSD and stop
Proceed with threshold search by decreasing intensity and using any polarity

Question 74

Why should you not use an alternating polarity initially?

Answer 74

Because if they have ANSD, the positive and negative responses will sun resulting in what appears as a no response and an incorrect diagnosis of SNHL

Question 75

Is the management of ANSD and SNHL different?

Answer 75

Yes
Why it is so important to distinguish the two

Question 76

What does an alternating ABR of a person with ANSD looks like?

Answer 76

Flat line
The two CM cancel each other out

Question 77

Can we diagnose ANSD?

Answer 77

Yes
Falls within our realm

Question 78

Besides the CM, what are other indications of ANSD?

Answer 78

No latency increase with decreasing intensity
Poor morphology

Question 79

What are the two ways to diagnose ANSD?

Answer 79

Reverse polarity (due to ABR being a CM) and no latency with decreasing intensity of stimulus

Question 80

What are the clinical applications of AERs?

Answer 80

To establish functional integrity of the auditory tract within the peripheral and central nervous system
NBHS and threshold assessment
Diagnose ANSD
To confirm results of behavioral tests and establish site of lesion
Intra-operative monitoring
Assessment of difficult to test and non-cooperative patients
To assess children and adults with intellectual disability and psychological disorders (mid to late AERs)
Detection of nonorganic HL
Assessment of developmental disorders (ADHD and CAPD) (mid to late AERs)
Assessment of dementias (mid to late AERs)

Question 81

What are OAEs?

Answer 81

Sounds generated within the normal cochlea
Produced either spontaneously or in response to acoustic stimulation
OHCs generate all types of OAEs

Question 82

How does the absence or damage of OHCs affect the OAEs?

Answer 82

Result in absence of OAEs
Supporting the idea that they are generated by OHCs

Question 83

Are OAEs vulnerable to noxious agents?

Answer 83

Yes

Question 84

What are some things that can affect OHCs and, therefore, OAEs?

Answer 84

Ototoxic drugs
Intense noise
Hypoxia

Question 85

Are OAEs preneural?

Answer 85

Yes

Question 86

Are OAEs present when hearing sensitivity is normal?

Answer 86

Yes

Question 87

What level of hearing loss would OAEs be absent?

Answer 87

At or greater than 30 to 40 dB HL

Question 88

What frequency regions are robust OAEs obtained?

Answer 88

500 to 8000 Hz

Question 89

Are OAEs present at birth?

Answer 89

Yes
The cochlea is fully developed at 5 months gestation

Question 90

Limitations of OAEs

Answer 90

Patients much sit/sleep quietly for a couple of minutes
OAEs allow only for a prediction of HL

Question 91

What does an absent OAE mean?

Answer 91

Anything from mild to severe SNHL or ME disorder

Question 92

What does present OAEs mean?

Answer 92

Does not rule out mild SNHL, auditory processing disorders, or CN VIII disorders

Question 93

Can OAEs determine severity of hearing loss?

Answer 93

No
Great screening tool, not diagnostic

Question 94

What are spontaneous OAEs?

Answer 94

Elicited without external stimulation
Measured by placing a a sensitive mic in the ear canal

Question 95

Is there a correlation between tinnitus and SOAEs?

Answer 95

No

Question 96

What are transient OAEs?

Answer 96

Occur in response to brief acoustic stimuli (click or tone burst)
Appear to be age-dependent

Question 97

Why are TOAEs age dependent?

Answer 97

Decreased amplitude as a function of age with normal hearing
Robust as a newborn
As integrity of hair cells decrease, so do OAEs

Question 98

What are distortion product OAEs?

Answer 98

A healthy cochlea functions as a nonlinear system
Result of nonlinear behavior
Generated by the cochlea by presenting pure tones of two frequencies at two intensity levels

Question 99

What elicits the best DPOAEs in humans?

Answer 99

2F1-F2

Question 100

Should DPOAEs be above the noise floor?

Answer 100

Yes

Question 101

Can you get OAEs on someone with a ME pathology?

Answer 101

May not be able to if they are not effectively transmitted through the ME system
Response attenuated by ME pathology

Question 102

Can PE tubes affect OAEs?

Answer 102

Variable responses
OAEs are not contraindicated

Question 103

Can someone with negative ME pressure (type C tymps) do OAEs?

Answer 103

Yes
Variable responses depending on the severity

Question 104

Can collapsed ear canals affect OAEs?

Answer 104

Yes
Use inserts instead to fix this
Most common in babies and older adults

Question 105

Prior to performing OAEs, what should be done?

Answer 105

Otoscopy and tymps to assess ME function

Question 106

What should be done if the ME is not healthy and OAEs cannot be performed?

Answer 106

Wait until it is healthy again
Or repeat after healthy

Question 107

What are the clinical uses of OAEs?

Answer 107

NBHS
Hereditary hearing loss
Monitoring cochlear status (noise exposure, ototoxicity)
Difficult to test populations
Site of lesion testing (cochlear vs retrocochlear)
Diagnosis of ANSD (present OAEs in ANSD) - needs to be done with ABR
Confirmation of results of behavioral tests