12 - CROS & BiCROS

Question 1

What are 3 hearing problems associated with unilateral hearing loss?

Answer 1

1) Speech and communication issues when sound is arriving to the poor ear
2) Background noise and group situations- increased challenges
3) Sound localization challenges

Question 2

What is a CROS overcoming?

Answer 2

Frequency-specific decrease in SPL occurs when sound is presented to the contralateral side of the skull

Question 3

The greatest decrease in frequency caused by the head shadow effect is?

Answer 3

Particularly above 1500 Hz

Question 4

What does the head shadow effect compromise?

Answer 4

HF consonants (things aren’t clear)

Question 5

What does CROS stand for?

Answer 5

Contralateral Routing Of Signals

Question 6

What is a CROS used for?

Answer 6

For Single-Sided Deafness (SSD)

Question 7

How does a CROS work?

Answer 7

CROS: Signal arrives at poor ear, the device picks up the signal and delivers it to the better ear

Question 8

How does a BiCROS work?

Answer 8

BiCROS: Signal arrives at poor ear, the device picks up the signal and delivers it to the better ear (the better ear is also receiving amplification)

Question 9

What does a CROS look like?

Answer 9

CROS devices appear to look like conventional hearing instruments, but they are only transmitting sound to be delivered to the better ear to a receiver device

Question 10

A CROS communicates through ____

Answer 10

wireless transmission

Question 11

Who is a candidate for a CROS?

Answer 11

• Normal or near normal hearing in one ear
• Other ear is “unaidable”
  
  • “Not enough” residual hearing
  • Extremely poor word recognition scores
  • Binaural interference
  • Medical condition preventing use of aid

Question 12

CROS: mic transmitter on ____, amplifier and receiver on ____

Answer 12

poor side, good side

Question 13

What type of a dome is used with a CROS?

Answer 13

Open ear tip/earmold on normal ear (want as open as possible)

Question 14

What are 2 benefits of a CROS?

Answer 14

1) Easier to hear speech originating from the poor side
2) Most helpful when noise is on good side and speech on poor side

Question 15

What are 2 limitations of a CROS?

Answer 15

1) Least helpful when noise is on poor side and speech on good side (better if unaided)
2) Generally, does not improve localization

Question 16

What does BiCROS stand for?

Answer 16

Bilateral Loss/Contralateral Routing of Signals

Question 17

Who is a candidate for a BiCROS?

Answer 17

• For patients with bilateral hearing loss with one unaidable ear
• Hearing aid on better ear, with an additional mic on the poor (unaidable) ear

Question 18

With a BiCROS, both mics send signal to one receiver on ____

Answer 18

Better ear

Question 19

What are the 3 CROS/BiCROS arrangements?

Answer 19

1) Wire along neck
2) Wireless transmission
3) Transcranial CROS

Question 20

How common is the wire along neck arrangement?

Answer 20

ancient technology

Question 21

How common is the wireless transmission arrangement and how does it work?

Answer 21

• Commonly used
• Transmitter-mic on poor side and receiver on good side.
• Radio frequency transmission

Question 22

How common is the transcranial CROS arrangement and how does it work?

Answer 22

• Not commonly used
• One normal ear & absolutely no residual hearing in other ear.
• One powerful HA on ‘dead’ ear to provide crossover hearing to normal ear via bone conduction

Question 23

What are 4 examples of a wireless CROS/BiCROS?

Answer 23

1) Phonak CROS P
2) Starkey Livio AI CROS System
3) Widex CROS
4) Signia CROS Z

Question 24

What are the fitting targets with a CROS?

Answer 24

1) The goal is to overcome the head shadow effect
2) The REUR is the target (in the better ear)

Question 25

What are the fitting targets with a BiCROS?

Answer 25

Targets for the better ear (DSL, NAL-NL2) are also the targets when the test signal is delivered from the poorer side (to the better side)

Question 26

What is the purpose of CROS and BiCROS verification?

Answer 26

Measure the effectiveness in overcoming the head shadow effect by measuring the response in the better ear receiving input from the transmitter side

Question 27

What are we measuring with CROS and BiCROS verification?

Answer 27

We are measuring transparency. We are measuring the ability to overcome the head shadow effect through the process of verification

Question 28

What are 3 key rules with CROS and BiCROS verification?

Answer 28

1) The probe tube/microphone is always in the better ear (not in the poor ear because we aren’t delivering sound to the poor ear)
2) Coupling to the “better” ear is key (we need to ensure that with CROS systems, the ear is not occluded). What measure could we use to ensure this? Look at the REOR (a decrease in SPL will mean we are occluding the ear)
3) The system you are using requires a way to separate the probe mic system from the reference mic

Question 29

What is a probe mic?

Answer 29

Measuring the response of sound delivered to the ear canal (always in the better ear)

Question 30

What is a reference mic?

Answer 30

Ensuring that what is being delivered is correct. Making sure the sound that you’re playing is the sound being delivered to the ear. Measuring the output from the loud speaker.

Question 31

When the “CROS” choice is selected; the system will use the ____ of the non-test ear to monitor the input signal being used for the test

Answer 31

Reference mic

Question 32

What are three verification measures for CROS and BiCROS?

Answer 32

1) Insertion gain (CROS)
2) speech mapping (CROS or BiCROS)
3) Pink noise (CROS)

Question 33

What are the 2 components we are trying to understand with the CROS insertion gain verification measure?

Answer 33

1) understand REUR in the better ear
2) understand individual head shadow effect

Question 34

What are the 6 steps to measure REUR in the better ear with the insertion gain verification measure?

Answer 34

• This method is just for CROS
• Want to make sure we are measuring the better ear
• The reference mic is on the ear closest to the loud-speaker and the probe mic is in that same ear
• R ear = better ear and we want to measure the SPL in the REUR
• 65 dB pink noise
• When we deliver the sound to the ear we will get a REIG measure

Question 35

What are the next 3 steps to measure the individual head shadow effect with the insertion gain verification measure?

Answer 35

• Now the RM is on the poor ear and the PM is on the good ear (the RM is always on the ear that is facing the loud speaker)
• Now we are going to turn our patient, so their poor ear is directed toward the loud-speaker
• We will see if we overcame the head-shadow effect if the second measure matches the first measure

Question 36

What are the advantages to the insertion gain approach?

Answer 36

Fairly easy to run (in verefit), can see if you overcame the head shadow effect

Question 37

What are the disadvantages to the insertion gain approach?

Answer 37

Pink noise isn’t necessarily real world

Question 38

What is the expected performance for the patient with the insertion gain approach?

Answer 38

We should be able to show that we gave the patient access to sound from the poorer sound

Question 39

Verification using speech mapping REAR measures are most helpful for ____, but can be used for ____ too.

Answer 39

BiCROS, CROS

Question 40

What is the speech mapping REAR verification method looking at?

Answer 40

• Speech Mapping results are displayed as output results, generally using comfortable levels of calibrated speech
• This method can be used, like the REIG method to see output results, and confirm if indeed you are overcoming the Head Shadow effect (and also checking for occlusion on the better)

Question 41

What are the first 4 steps of verification of CROS with the speech mapping measure?

Answer 41

• don’t want any targets
• go to single view and set ourselves up with the better ear facing the speaker
• PM and RM on same ear facing speaker
• run just a response of the LTASS at a comfortable level (finding the individual ear canal resonance)

Question 42

What are the remainding 3 steps of verification of CROS with the speech mapping measure?

Answer 42

• now separating cross in our drop down (PM in better ear, RM on poor ear but still facing loud-speaker)
• with cross off, shows the head-shadow effect
• when cross system is on, can see that we overcame the HS effect (just trying to match up the response to the better ear)

Question 43

Another way to verify CROS is through the use of ____

Answer 43

Pink noise

Question 44

If using pink noise in speech mapping turn off ____ system

Answer 44

NR

Question 45

What is the first step of verifying through speech mapping measures for BiCROS and what are the 3 steps?

Answer 45

Step 1: Need to verify the aided response, on the ear using a hearing aid (the better ear)
- better ear (RM and PM facing the speaker)
- fit to target as we normally would (fit to soft, mod, and loud inputs)
- now we want to verify what the cross transmitter is doing

Question 46

What are the remainding 5 steps of verifying through speech mapping measures for BiCROS?

Answer 46

• Now that the hearing aid has been verified, we need to set the instrument to CROS, and measure the Head Shadow effect
• select cross to separate PM and RM
• turn cross system off (or mute it)
• look at the same response: if its off we should see a lessened response because of HS effect
• when we turn it on, we should see our targets are meeting the good ears targets (the response of the prescription)

Question 47

What are the advantages of the speech mapping approach?

Answer 47

Looking at speech mapping targets with our prescriptive formulas

Question 48

What are the disadvantages of the speech mapping approach?

Answer 48

No disadvantage (don’t have to turn off NR)

Question 49

What is the expected performance for the patient using the speech mapping approach?

Answer 49

Still not 2 ear hearing and doesn’t provide the ability to amplify sound.

Question 50

What are the full 10 steps of CROS verification with REMs?

Answer 50

1) Probe mic in good ear and reference mic on side of loudspeaker location (Verifit: probe modules with reference mic on each ear with probe mic only in good ear).
2) Set Verifit to BTE and position speaker 45-90˚ to good ear: Response is measured.
3) Position CROS transmitter on patient.
4) Set Verifit to CROS and position speaker at 45-90˚ to poor ear: Response is measured with device turned off, then on.
5) We are verifying that we have overcome the Head Shadow effect
6) Probe mic in better (aidable) ear & reference mic on side of loudspeaker location.
7) Verify the HA in the better ear using standard REM, as if verifying a monaural fit (REAR1). You are matching targets. Verifit set to device configuration, and match targets accordingly.
8) Set Verifit to CROS.
9) Then verify the BICROS system by positioning the speaker 45-90˚ to poor ear with the CROS transmitter: REAR2 should match REAR1 obtained with the HA alone.
10) We are verifying that we have overcome the Head Shadow effect, and that the hearing aid (also the CROS receiving device) is meeting targets

Question 51

How do we measure speech recognition in quiet and in noise using CROS verification with speech tests?

Answer 51

• Speech ~ 50 dB HL; noise ~ 45 dB (+5 S/N)
• Speech on poor side; noise on good side:
• Unaided: challenging!
• Aided: should show some improvement.
• Speech-in-noise measures in soundfield may be useful for counselling

Question 52

In BiCROS fittings, consider setting additional programs to what?

Answer 52

1) HA only mode (no BiCROS) so that noise coming predominantly from the poor side is not routed to the better ear (a manual program where the CROS isn’t active). Ex) if there is just noise and the CROS is just sending that noise over to the good ear.

Question 53

Overall patient satisfaction with CROS and BiCROS is generally ____

Answer 53

High

Question 54

Hill and Colleagues (2006) conducted a study of 91 patients with severe-to-profound asymmetric hearing loss to assess their satisfaction with digital contralateral routing of signal (CROS) or bilateral contralateral routing of signal (BiCROS) hearing aid, and found that the satisfaction rate was over ____

Answer 54

70%