1. Fitting and Evaluation of �FM Systems for �Cochlear Implant Users Linda M. Thibodeau
2. Cochlear Implants and FM Systems THREE BASIC WAYS TO USE
FM SYSTEMS WITH CIs
Audio Coupling
Desktop Soundfield FM systems
Electrical Coupling
Patch cords connect FM Receiver to CI
Direct Plug-in of FM Receiver
T-Coil Coupling
Processor has t-coil to receive electromagnetic signal from the Body-worn FM system with Neckloop
3. Electrical Coupling- FM and CI BODY-LEVEL PROCESSORS
COCHLEAR
IMPLANTS EAR-LEVEL
PROCESSORS
BODY-LEVEL
FM RECEIVERS RECEIVERS
EAR-LEVEL
RECEIVERS
5. T-Coil Coupling- FM and CI
6. Verification Procedures �for the CI+FM Interface 1) Informal Testing
2) Behavioral Testing
3) Electroacoustic Testing
7. Verification Procedures �for the CI+FM Interface
1) Informal Testing
8. Informal Testing Can be performed by the classroom teacher
Quick and easy way to determine that CI and FM are functioning
3 Types:
1. Using a speaker
2. Using monitor earphones
3. Performing a listening Check – subjective response required from child
9. Speaker for Cord-Connect and Direct Connect Receivers Plug the FM receiver into an amplifier speaker:
Radio Shack Mini Amplifier Speaker
(Cat. No. 277-1008C)
Speak into the transmitter microphone
Listen to the output through the amplifier speaker
10. Monitor Earphones Can hear output from CI mic. before it is processed and sent to the electrode array
Can hear output for input to CI and FM simultaneously
Available for Nucleus Processors:
1. ESPrit 3G BTE
2. SPrint Body-Worn
11. Monitor Earphones Other BTE speech processors that have monitor earphones
ESPrit 22
ESPrit 24
Can listen to output when there is input to CI microphone via the earphone, but
cannot plug in the FM Receiver at the SAME time!
12. Procedure for Using �Monitor Earphones
Connect FM and monitor earphones
Turn on Speech Processor, FM transmitter, FM receiver
Speak into both CI and FM microphones separately
13. Listening Check KEY TO LISTENING CHECKS:
Must give input to both microphones separately
Have the child repeat or act out what you say:
1. Ling – ah, oo, ee, sh, ss, mm
2. Numbers – one, two, three
3. Count syllables – ba, ba, ba
4. Long or short – baaaaa, ba ba ba
5. Simple commands – Hide your face
6. Speech awareness with play – rings, blocks, etc
14. Verification Procedures �for the CI+FM Interface
2) Behavioral Testing
15. Behavioral Testing in the Booth A modified ASHA procedure is used for behavioral
testing with FM systems
?Speech recognition is the most effective way to measure behavioral benefit with an FM system
16. Testing Equipment for Speech Recognition Soundbooth with soundfield
speaker and seating at a
zero degrees azimuth
Audiometer that allows
for live voice speech recognition (SR) testing
Appropriate SR material with multiple lists
17. Setup for Testing a Child with a CI ?Seat the child at 0 degrees azimuth
Check CI functioning with monitor earphones or
informal listening check
?Select presentation level for stimuli that is appropriate
for the child’s hearing thresholds -Ideally 35 dBSL
18. Acronyms Cochlear Implant Alone
BCI55
BCI55/50
Cochlear Implant + FM System
BFMCI55/50
BFMCI55
19. Measure Speech Recognition with CI alone�
BCI55
Measure SR in quiet with the CI alone
BCI55/50
Measure SR in noise with the CI alone at a
+5 SNR
20. Measure Speech Recognition with �CI Interfaced with FM System
Attach the FM system and verify functioning
BFM/CI55/50
Measure SR in noise with the CI+FM at +5 SNR
BFM/CI55
If time permits, measure SR in quiet with the CI+FM
21. Compare Conditions Compare percent correct scores with and without use of the FM System
Two most important conditions for comparison are:
BCI55/50 and BFM/CI55/50
Case studies for Two Children Using Nucleus 3G Processors and Phonak MLxS Receivers
22. Behavioral Results �Thibodeau, Schafer, Overson, Whalen, Sullivan (2005) � BCI55/50 45.50 % (CI alone)
BCIFM55/50 75.25 % (CI + FM)
The average improvement when adding the FM system in noise was
29.75%
BCI55 76.00%
BCIFM55 75.24%
The difference between CI alone and CI+FM in Quiet was minimal.
23. Verification Procedures �for the CI+FM Interface
3) Electroacoustic Testing
24. ELECTROACOUSTIC PROCEDURES�to Evaluate FM systems with Cochlear Implants
New Monitoring Earphones provide a convenient way to monitor the output of the CI microphone relative to that of the FM microphone prior to being delivered to the electrode array.
Only Nucleus 3G and Sprint Processors allow this earphone to be attached AT THE SAME time as the FM Receiver
25. Purpose of Electroacoustic Testing with CIs and FM Systems Verify output for input to
-CI microphone, and
-FM transmitter microphone
Determine FM advantage
26. Electroacoustic Testing Acoustic output from a CI monitor earphone is used to verify functioning and to measure the FM advantage
Currently available on Nucleus ESPrit 3G and SPrint
A modified ASHA procedure is used for testing the FM systems electroacoustically
27. Equipment for Electroacoustic Testing Speech processor
Monitor earphones
Hearing aid analyzer: Fonix FP40
Coupler: ½ to 1 inch adaptor OR
Adaptor cord from Speech Processor to analyzer
28. Equipment for Electroacoustic Testing ESPrit 3G – One Control either programmed for Sensitivity or for Volume
Units today are set:
P1-Sensitivity (Range 1-7)
P2-Volume (Range 1-7)
SPrint
Separate Controls for
Volume – Middle no. on display (Range 1-9)
Sensitivity – Right no. on display (Range 1-20)
29. Processor Knob Control Volume
Modifies the intensity to the listener of that which has already been detected Sensitivity
The quietest sounds that the speech processor will detect from the microphone and convert into stimulation
30. Equipment for Electroacoustic Testing FM Transmitter: Phonak Campus S
FM Receivers-Set to Double Dots to get FM + M Adaptor set to FM+M
31. Connections for Testing Procedure Connect the CI speech processor and the FM receiver
2. Plug the monitor earphones into the speech processor
3. Connect the ½ to 1 inch adaptor to the test microphone or use adaptor cord
32. 4. Fit one earphone into the coupler or plug into analyzer
5. Place the coupler and earphone in a stable location outside the analyzer
6. Turn on the processor, receiver, and transmitter
Connections for Testing Procedure
33. Measurement Steps Part I: Input to CI mic
Part II: Input to FM mic
Part III: Compare Outputs
34. Part I:�Measuring RMS for Input to CI 1. Position processor in test box and close lid
2. Present 65 dB SPL complex signal: ECI/FM65
3. Place transmitter in quiet location
4. Record RMS for that Setting
35. �Part II: Measuring RMS for Input to the FM Transmitter 1. Place transmitter microphone in test
box and close lid
2. Present 80 dB SPL complex signal: EFM/CI80
3. Place processor in quiet location
4. Record RMS for that Setting
36. Part III: �Calculate FM Advantage
FM Advantage = EFM/CI80-ECI/FM65 (RMS Difference)
Ideal FM advantage is at least 10 dB
If speech processor is set for sensitivity, adjust sensitivity knob to improve FM advantage if necessary
37. FM Advantage as a Function of Sensitivity Setting on the 3G
38. SUMMARY FM Fittings must be verified in one or more ways
Informal Testing
Behavioral Testing
Electroacoustic Testing
39. SUMMARY Informal Testing
Should be part of daily routine when FM is connected to CI
Students should be reinforced when they alert adult that system is not working
40. SUMMARY Behavioral Testing
Recall that if using Percent Correct scores,
large differences are needed to be
significantly different
Necessary to verify FM advantage when
electroacoustic testing cannot be performed
41. SUMMARY Electroacoustic Testing
Can be done for those systems that allow the addition of the monitoring earphone while the FM is connected
Necessary to verify FM advantage
42. SUMMARY Given the risks, costs, and commitment associated with obtaining a Cochlear Implant…
It only makes sense that one would do everything possible to provide the most optimal signal….
THEREFORE-------------
43. CONSIDER FM SYSTEMS FOR EVERY EAR OF EVERY CHILD AND
VERIFY FM FITTINGS
WITH
COCHLEAR IMPLANTS
SO THAT…..
