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![Page 1: Pediatric Amplification Protocol Evidence-based decisions in Signal Processing and Verification Catherine Palmer, PhD University of Pittsburgh Pittsburgh,](https://reader035.fdocuments.in/reader035/viewer/2022062619/5518a36e550346b31f8b4975/html5/thumbnails/1.jpg)
Pediatric Amplification Pediatric Amplification ProtocolProtocol
Evidence-based decisions Evidence-based decisions in Signal Processing and in Signal Processing and
VerificationVerification
Pediatric Amplification Pediatric Amplification ProtocolProtocol
Evidence-based decisions Evidence-based decisions in Signal Processing and in Signal Processing and
VerificationVerification
Catherine Palmer, PhDCatherine Palmer, PhDUniversity of PittsburghUniversity of Pittsburgh
Pittsburgh, Pennsylvania USAPittsburgh, Pennsylvania [email protected]@upmc.edu
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Thanks to• Ruth Bentler• Leisha Eiten• Sandra Gabbard• Alison Grimes• Cheryl DeConde
Johnson
• Shane Moodie• Todd Ricketts• Anne Marie
Tharpe
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AAA PEDIATRIC AMPLIFICATION PROTOCOL
• Mix of evidence-based research and expert opinion
• www.audiology.org
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Addressed 9 areas of practice
• Personnel Qualifications
• Candidacy• Pre-Selection Issues
and Procedures• Circuitry-signal
processing• Hearing Instrument
Selection/Fitting Considerations in Children
• Verification• Hearing Instrument
Orientation and Training
• Validation• Follow-Up and
Referral
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Candidacy…”Amplification with hearing instruments should be
considered…
• …for a child who demonstrates a significant hearing loss, including sensorineural, conductive, or mixed hearing loss of any degree. The duration and configuration will assist the audiologist in the decision to fit a child with personal hearing aids. Additional factors such as the child’s health, cognitive status, and functional needs also will influence the time-line of fitting hearing aids.”
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Upfront ConsiderationsUpfront Considerations Air vs bone Air vs bone
conductionconduction Style/type/spareStyle/type/spare Routing of the SignalRouting of the Signal Receiver typeReceiver type BandwidthBandwidth Earmold typeEarmold type Length/ventLength/vent Sound channelSound channel Mic type/locationMic type/location Controls for fine-Controls for fine-
tuningtuning Previous ExperiencePrevious Experience
Telephone AccessTelephone Access Ability to couple to Ability to couple to
assistive listening assistive listening devicesdevices
Battery doorsBattery doors Volume ControlVolume Control
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Guideline• With children, it is frequently necessary to
conduct fine-tuning of the hearing aids’ gain and output characteristics. The audiologist often has more flexibility in fine-tuning with programmable instruments than with potentiometers. Hearing abilities of babies continue to be defined as they mature and flexible hearing aids can be changed to reflect the new information obtained from the diagnostic procedures. A flexible hearing aid is cost-effective solution…
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Circuitry – signal processing
• Although certain signal processing schemes require digital processing, the discussion here is only relevant to the strategies, not digital versus analog processing to implement those strategies…in some cases the desired signal processing scheme may require digital signal processing…The choice of appropriate features for each individual is paramount.
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Basic Requirements• Avoid distortion• Frequency/output
shaping to provide audibility based on an appropriate prescriptive method
• Ensure audibility over a range of typical speech sounds from soft to loud
• Compression output limiting
• Sufficient electroacoustic flexibility to allow for changes in required frequency/output characteristics related to growth of the child (changes in RECD)
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Current and Future Processing Schemes• Automatic feedback control, be cautious about
gain reduction schemes• Multiple channels
– Unusual or fluctuating audiograms– Application of WDRC– Increasing specificity of noise reduction– Specialized feedback and occlusion management
• Expansion to reduce low-level noise (typically microphone noise)
• Frequency transposition and frequency compression – only when signal cannot be made audible with non-transposing aids
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Pediatric Amplification Guidelines
• Where might there be evidence?– Signal Processing in the dynamic
range– Audibility/Verification
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Level of evidence that we accepted in each
area• Randomized controlled trial (RCT)• Non randomized controlled trial• Cohort• Before/After Design with control
group
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Systematic Search Strategy• Group supplied known author names• MEDLINE (1996 to present)• CINAHL (1982 to present)• Searched institutions that showed up in the above
citations• Searched the identified authors and institutions in the
MEDLINE in-process and other Non-Indexed citations file• Author search in EMBASE • Subject heading and key word search in MEDLINE (1966
present)• Hand searched book chapters. Lewis in Valente’s edited
Treatment – Appendix A – Advanced Signal Processing Hearing Aids with Children
• Web of Science Cited references – what articles cited the target articles
• Related author search in PubMed for the Appendix A authors
• Contacted Patricia Stelmachowicz and Richard Seewald directly for their input
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Key words• Child, pediatric• Hearing-impaired, hard of hearing,
hearing loss• Linear, WDRC, signal processing,
microphone• Language, speech, understanding,
speech intelligibility• Audibility, word recognition,
discrimination
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WHAT EBR IS AVAILBLE REGARDING SIGNAL PROCESSING in the Dynamic Range?
• Identified 5 studies that met our criteria level, but…
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Are they little adults?
• The question really is: Are childrens’ amplification requirements different from adults?
• If they are different, we would have to consider that difference in prescribing real-ear gain and frequency response and therefore signal processing and as a result in our verification techniques.
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Known differences• Amount of audiological information we have to
work with • Present with a variety of configurations
(Pittmann and Stelmachowicz, 2003)• Present with more and larger asymmetries
(Pittman and Stelmachowicz, 2003)• Physical size of the ear canal (therefore RECD
to correct thresholds measured in HL and to prescribe coupler response)
• Changing size• May need to pre-set and verify exclusively in a
coupler• They won’t always give you an opinion
(feedback) so you need to take the time to be correct
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• Stelmachowicz, P., Hoover, B., Lewis, D., Kortekaas, R., Pittman, A. (2000). The relation between stimulus context, speech audibility, and perception for normal-hearing and hearing-impaired children. JSLHR, 43, 902-914.
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What they did• Tested 60 normal
hearing children, 23 hearing-impaired children (5-10 years old), and 20 normal hearing adults (18-35 years old)
• SPL and AI required to achieve 70% on a high and low predictability sentence test
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What they found• Children require higher AI and
SPLs to achieve adult performance.
• Hearing aid gain is needed most for low-level inputs.
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Just how important is audibility?
• Stelmachowicz, P., Pittman, A., Hoover, B., Lewis, D. (2002). Aided perception of /s/ and /z/ by hearing-impaired children. Ear and Hearing, 23, 316-324.
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Goal• Determine the accuracy with
which hearing-impaired children can detect inflectional morphemes /s/ and /z/ when listening through hearing aids.
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What they did
• Test development (36 normal hearing children)
• 40 hearing-impaired children (5 to 13 years old) with a wide range of hearing losses using hearing aids fit to DSL 4.1 identified nouns with plural forms spoken by a male and female talker
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What they found• Significant effect for talker (female
worse)• Significant effect for factor (plural
words worse)• The effect was not found for normal
hearing children• For the male talker, needed audibility
between 2000 – 4000 Hz• For the female talker, needed audibility
between 2000 - 8000 Hz.
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Pediatric Working Group of the Conference on Amplification for Children with Auditory Deficits
(1996)
• The main goal of providing amplification for children is to ensure that they will receive full-time and consistent audibility of the speech signal at safe and comfortable listening levels.
• Remember full-time and consistent
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Wide Dynamic Range Compression
• Theoretically… “reduces the long-term level variations of speech thereby maintaining audibility for soft speech, together with comfort for loud sounds, without the need for volume control adjustment”
» Byrne, 1996
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• Jenstad, L., Seewald, R., Cornelisse, L., Shantz, J. (1999). Comparison of linear gain and wide dynamic range compression hearing aid circuits: aided speech perception measures. Ear and Hearing, 20(2), 117-126.
• Jenstad, L., Pumford, J., Seewald, R., Cornelisse, L. (2000). Comparison of linear gain and wide dynamic range compression on hearing aid circuits II: Aided Loudness Measures. Ear and Hearing, 21(1), 32-44.
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Their goal…• To test the theoretical advantages
of single channel WDRC over a linear gain circuit for speech intelligibility, loudness comfort, and increased dynamic range.
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What they did• Tested speech intelligibility (nonsense
words and HINT) and comfort across five speech spectra (levels) with 12 adolescent and young adults (mean age of 16) with three hearing aid conditions (unaided, linear, and WDRC).
• Fit to DSL targets using RECD, same hearing aid for both conditions.
• Moderate to severe SNHL, prelingual
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What they found• Linear and WDRC improved
speech intelligibility relative to unaided
• Linear and WDRC performed similarly for average speech, but WDRC performed better for softer speech and shouted speech.
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Nonsense Words
0
20
40
60
80
100
Unaided Linear WDRC
Hearing Aid Condition
% C
orr
ect
Average at 4m
Average at 1m
Ear Level - Own Voice
Classroom at 1m
Shouted at 1m
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Sentences
0
20
40
60
80
100
Unaided Linear WDRC
Hearing Aid Condition
% C
orr
ect
Average at 4m
Average at 1m
Ear Level - Own Voice
Classroom at 1m
Shouted at 1m
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• Marriage, J., Moore, B. (2003). New speech tests reveal benefit of WDRC, fast-acting compression for consonant discrimination in children with moderate to profound hearing loss. IJA, 42, 418-425.
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Goal• To develop speech materials that would
be sensitive to changes in speech perception by younger children when using different signal-processing strategies and to examine the effectiveness of WDRC for children with different degrees of hearing loss (including severe to profound) using these speech materials.
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What they did• 14 children with different degrees of
SNHL aged 4 to 14 were fit bilaterally with hearing aids that could be programmed as single channel linear with peak clipping or WDRC circuits. The children participated in an open-set and closed-set word recognition task at three presentation levels (45 to 60) in quiet and noise.
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What they found• Closed set could be used with all
groups tested and gave consistent results.
• Results indicated marginal significant benefits of WDRC over linear amplification.
• Weakness – response was matched to current aid – no measure of audibility.
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Remember• If the goal is full time and consistent
without the need for VC adjustment, then WDRC makes sense based on simple acoustics (it is changing automatically).
• The concern would be that the compression impacts the acoustic cues in the signal in a negative manner - so findings of no difference compared to linear fittings would be considered a positive finding for WDRC.
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So…• Signal processing schemes that have
been found to be beneficial with moderate-to-severely hearing-impaired pediatric patients:1.3:1 to 2:1 compression ratio<50 dB compression threshold10 msec attack time13 dB more gain for quiet inputs compared to
adultsWide bandwidth (8000 Hz)Release time varied between studies
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What does all this say about verification?
• If audibility is important, it should be verified in a manner that is appropriate to infants and children who cannot necessarily provide you with an accurate opinion about the signal and with all of this evidence in mind.
• The evidence base moves to acoustic facts.
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Verify that soft, moderate, and loud sounds are audible
and comfortable.• In order to know if sounds are
theoretically audible/comfortable – need to measure in the real ear and compare to threshold and UCL that if not measured in SPL have been transformed from HL to SPL taking into account the much smaller ear (RECD). – Scollie, S., Seewald, R., Cornelisse, L., Jenstad, L. (1998). Validity
and repeatability of level-independent HL to SPL transforms. Ear and Hearing, 19(5), 407-413.
– Saunders, G., Morgan, D. (2003). Impact on hearing aid targets of measuring thresholds in dB HL versus dB SPL. IJA, 42, 319-326.
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• Whether we are pre-setting in a coupler or verifying in the real ear, it becomes essential that the threshold and UCL data are accurate.
• We are basing our entire fitting on these data.
• Let’s go through an example…
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One year old in 1998
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EPR 4 y/o
MPM 5 y/o
GPR 1 y/o
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Individual, Predicted, and Adult Values for Threshold and UCL
0102030405060708090
100110120130140
250
500
750
1000
1500
2000
3000
4000
6000
Frequency (Hz)
dB
SP
L
Threshold in SPL atone year
UL in SPL at one year
Predicted threshold inSPL at one year
Predicted UL in SPLat one year
Predicted threshold inSPL for Adult
Predicted UL in SPLfor Adult
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• This is not only a fitting issue at one moment in time, but a diagnostic and counseling issue as well as a hearing aid feature selection issue.
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2004, 6 years old
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RECD over Time
0
5
10
15
20
25
25
0
50
0
75
0
10
00
15
00
20
00
30
00
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00
60
00
Frequency (Hz)
dB
SP
L RECD at oneyear
RECD at 6
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Individual, Predicted, and Adult Values for Threshold and UCL
0102030405060708090
100110120130140
250
500
750
1000
1500
2000
3000
4000
6000
Frequency (Hz)
dB
SP
L
Threshold in SPL atone year
UL in SPL at one year
Threshold in SPL at 6
UL in SPL at 6
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In conclusion, there is evidence to suggest that..• Children are not little adults.• Children need soft, moderate, and loud
sounds to be audible in a consistent manner.• There is signal processing available to
produce audibility, comfort, and good sound quality at these levels.
• Verification is essential because of the ability or lack thereof for children to participate in fine tuning.
• There are verification techniques available to ensure that you have met your goals.
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Follow-up appointments include
• Behavioral audiometric eval
• Assessment of communication abilities, needs, and demands
• Adjustment of amplification system based on updated info
• Electroacoustic eval• Listening check• Earmold fit check• Periodic probe-mic• Periodic functional
measures• Academic progress• Cover for loss and
damage
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Thank youThank youThank youThank you