Client-Based Adjustments of Hearing Aid Gain: The Effect of Different Control Configurations

Dreschler, Wouter A.; Keidser, Gitte; Convery, Elizabeth; Dillon, Harvey

doi:10.1097/aud.0b013e31816453a6

Cited by 53 publications

(83 citation statements)

References 23 publications

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“…This would suggest that NAL-NL2 makes a better general starting point. As demonstrated in recent studies, starting from an appropriately prescribed baseline response is important as self-adjustments, or training of hearing aids, are biased by the starting point (Dreschler, Keidser, Convery, & Dillon, 2008;Keidsser, Convery, & Dillon, 2008a;Mueller, Hornsby, & Weber, 2008), which means that audiologist-driven finetuning probably is too. Because hearing aids are more likely to be equipped with a volume than a tone control, verifying the prescribed gain-frequency response shape, which results primarily from the speech intelligibility modeling in the optimization process described in Dillon et al (in press), should have highest priority in future evaluation studies.…”

Section: Evaluation and Future Researchmentioning

confidence: 99%

NAL-NL2 Empirical Adjustments

Keidser

Dillon

Carter

et al. 2012

Trends in Amplification

Self Cite

101

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NAL-NL1, the first procedure from the National Acoustic Laboratories (NAL) for prescribing nonlinear gain, was a purely theoretically derived formula aimed at maximizing speech intelligibility for any input level of speech while keeping the overall loudness of speech at or below normal loudness. The formula was obtained through an optimization process in which speech intelligibility and loudness were predicted from selected models. Using updated models and applying some revisions to the derivation process, a theoretically derived NAL-NL2 formula was obtained in a similar way. Further adjustments, directed by empirical data collected in studies using NAL-NL1 as the baseline response, have been made to the theoretically derived formula. Specifically, empirical data have demonstrated that (a) female hearing aid users prefer lower overall gain than male users; (b) new hearing aid users with more than a mild hearing loss prefer increasingly less gain with increasing degree of hearing loss than experienced hearing aid users, and require up to 2 years to adapt to gain levels selected by experienced hearing aid users; (c) unilaterally and bilaterally fitted hearing aid users prefer overall gain levels that vary less than estimated by the bilateral correction factor; (d) adults prefer lower overall gain than children; and (e) people with severe/profound hearing loss prefer lower compression ratios than predicted when fitted with fast-acting compression. The literature and data leading to these conclusions are summarized and discussed in this article, and the procedure for implementing the adjustments to the theoretically derived NAL-NL2 formula is described.

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Section: Evaluation and Future Researchmentioning

confidence: 99%

NAL-NL2 Empirical Adjustments

Keidser

Dillon

Carter

et al. 2012

Trends in Amplification

Self Cite

101

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“…The primary aim of a hearing aid is, based on the individual hearing loss, to provide the hearing impaired person an audible signal by the gain in the hearing aid. In addition, modern hearing aids also compensates to some extent for suprathreshold deficits using compression, division in multiple frequency-bands, and signal processing strategies to enhance the desired signal (speech) or decrease the unwanted sound (noise), often differently in different acoustical environments (Dreschler et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…There are studies indicating that hearing aid users and normal hearing listeners rate annoying sounds as equally annoying (Palmer et al, 2006;Keidser et al, 2007;Keidser et al 2008). …”

Section: Introductionmentioning

confidence: 99%

Sounds perceived as annoying by hearing-aid users in their daily soundscape

Skagerstrand

Stenfelt

Arlinger

et al. 2014

International Journal of Audiology

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“…Convery et al (2005), Keidser, Dillon, et al (2008) and Smeds et al (2006) also found that the preferred gain-frequency response varied with listening conditions. Dreschler, Keidser, Convery, and Dillon (2008) found overall gain and response slopes across six test conditions, including speech in quiet and in speech noise and nonspeech noise, varied significantly from NAL-RP settings. They found preferred gain to be lower for louder sounds or in conditions where only noise was present.…”

Section: Pico Question Nomentioning

confidence: 86%

“…Conclusion: Overall, there is evidence that users are able to discriminate between various responses and manipulate up to four parameters (Dreschler et al, 2008) to train the hearing aids to preferred settings and that hearing aid users would prefer trained responses to untrained responses (Dreschler et al, 2008;Keidser, Dillon, et al, 2008;Mueller et al, 2008;Zakis et al, 2007). These are Level 3 and Level 4 evidence, resulting in an overall Grade "B" recommendation (Wong & Hickson, 2012).…”

Section: How Well Does a Hearing Aid Algorithm Converge To The Users'mentioning

confidence: 99%

Evidence on Self-Fitting Hearing Aids

Wong

2011

Trends in Amplification

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The research on self-fitting hearing aids is reviewed using evidence-based principles. The evaluation begins with a definition of the research questions followed by a detailed search of the literature and then a review of the relevant studies. Four features of self-fitting hearing aids are reviewed: in-situ threshold measurement, whether an initial fitting prescribed using standard prescription formulae will approximate user preferences, outcomes with training of hearing aids for preferred responses, and assembly and use of the aids. There is at least good quality evidence suggesting that in-situ thresholds can be reliably obtained, that prescribed initial fittings approximate preferred responses, and that users are able to train the hearing aids and would prefer the trained responses. However, evidence on other outcomes and the ability of users to assemble and use such instruments is limited. Gaps in research with self-fitting hearing aids are identified.

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Client-Based Adjustments of Hearing Aid Gain: The Effect of Different Control Configurations

Cited by 53 publications

References 23 publications

NAL-NL2 Empirical Adjustments

NAL-NL2 Empirical Adjustments

Sounds perceived as annoying by hearing-aid users in their daily soundscape

Evidence on Self-Fitting Hearing Aids

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