Authored by Dave Gordey*
Abstract
Background: For today’s children with sensorineural hearing loss, speech understanding with their hearing technology is critical. Most pediatric hearing instruments are based on traditional Wide Dynamic Range Compression (WDRC) processing. Unfortunately, this technology has its limitations in dynamic listening environments. A new adaptive compression strategy, with floating linear gain has been developed for hearing aids and shows promise to improve listening for children with hearing loss.
Methods: This clinical evaluation compared within subject performance of twenty children with bilateral sensorineural hearing loss who spoke Spanish and wore hearing-aid technology with WDRC and adaptive compression. Questionnaires recorded parent/caregiver perspectives on their child’s auditory performance with the adaptive compression hearing aid technology.
Results: Speech understanding in quiet and in background noise was better for most children who used adaptive compression. Parent and caregiver questionnaire responses supported these findings.
Conclusion: A new adaptive compression strategy shows promise to improve the listening experiences of Spanish speaking children with hearing loss.
Keywords: Adaptive compression, WDRC, Children, Speech recognition, Hearing aid
Introduction
hearing care professionals, we want children with hearing loss to have the best access to sound in their daily environments. This means their amplification must provide good audibility for speech in quiet, and in complex, noisy environments. Traditional pediatric hearing instruments have utilized Wide Dynamic Range Compression (WDRC) hearing aid processing for the management of soft, average, and loud sounds. This was considered important as young children with hearing loss may not have the ability to adjust their hearing aids and control for sounds that may become uncomfortably loud [1]. Using fixed attack and release times, WDRC can manage a broad range of input levels to the hearing aids. Unfortunately, there are limitations with WDRC. Slow acting WDRC may not provide access to quiet sounds, when followed by those that are loud; while fast acting WDRC may cause distortion, giving speech an unnatural quality and the listener perceives the sounds as “noisy” [2].
Adaptive compression is a new hearing aid processing strategy where different time constants are applied based on the degree to which the sound input changes. When the sound input change is small, a very slow time constant is applied, and the signal is processed in a linear manner [3]. If the change in input is large and abrupt, the time constants of WDRC compression will be used to quickly enable loudness protection and provide audibility of soft sounds [4, 5]. Researchers have compared WDRC and adaptive compression in English speaking adults and children with hearing loss. A study at Arizona State University found that hearing aids with adaptive compression provided better speech understanding in complex listening environments than those with WDRC [6]. In this report, we explore how adaptive compression and WDRC hearing aid processing effect the word recognition abilities of Spanish-speaking, pediatric, hearing-aid users.
Methods
Twenty children, ten male and ten female, with bilateral moderately-severe sensorineural hearing loss, aged eight to sixteen years of age, with typical cognitive development, who used hearing aids in both ears and spoke Spanish as their primary language, participated in this clinical evaluation at the Garrahan Children’s Hospital. The participants and their parents who receive their audiologic care at the Garrahan Children’s Hospital were invited to volunteer for this project. Children were assessed over two clinic visits; the first visit they wore their own hearing aids with WDRC processing technology, and the second visit they wore new hearing aids with adaptive compression. An acclimatization period of six weeks was used to allow the participants time to adjust to wearing different hearing aids. Recorded Spanish bi-syllabic word lists were used to measure children‘s speech understanding abilities in quiet and background noise with each set of hearing aids. Parents completed a questionnaire with ten items and used a five-point Likert scale to rate their child’s listening abilities at home with the WDRC and adaptive compression hearing technology.
Results
Eighteen of the twenty participants demonstrated better speech understanding in quiet and noise with hearing aid technology with adaptive compression than with WDRC. In quiet, a mean speech recognition score of 78% correct was recorded for WDRC and 96% correct for adaptive compression. In noise, with a +5 signal to noise ratio (SNR), a mean speech recognition score of 48% correct was recorded for WDRC and 76% correct for adaptive compression (Table 1).
Results from the questionnaire indicated that 80% of the parents noted improvements in their child’s listening abilities with the adaptive compression technology compared to WDRC. Comments from parents indicated that the use of adaptive compression in their hearing aids provided benefits above speech understanding. Improvements in their child’s balance, their child’s own voice quality and increased confidence when participating in sports activities were noted.
Discussion
The listening environments of children with hearing loss are dynamic, busy, and noisy [7]. Good speech understanding in the classroom and school are critical to a child’s learning [8]. The aim of this clinical investigation was to investigate how Spanish speaking children with hearing loss may benefit from adaptive compression compared to traditional WDRC. Results indicated that adaptive compression provided better speech recognition in noise for Spanish-speaking, pediatric hearing-aid users. This supports previous studies that have shown adaptive compression improves speech understanding in noise for both children and adults who are English speaking [6]. For Spanish speaking children with hearing loss, the selection of hearing processing strategies should be considered as important when selecting amplification for children with hearing loss. Future research could build on this clinical investigation and develop a study that is double-blind, withinsubject, and repeated measure design.
Conclusion
Our clinical investigation found that adaptive compression provided better speech recognition in quiet and in noise than WDRC for Spanish-speaking, pediatric hearing-aid users. Their improved auditory performance was observed by most of their parents and/ or caregivers.
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