ObjectiveThis study was aimed at examining the effects of an adaptive non-linear frequency compression algorithm implemented in hearing aids (i.e., SoundRecover2, or SR2) at different parameter settings and auditory acclimatization on speech and sound-quality perception in native Mandarin-speaking adult listeners with sensorineural hearing loss.DesignData consisted of participants’ unaided and aided hearing thresholds, Mandarin consonant and vowel recognition in quiet, and sentence recognition in noise, as well as sound-quality ratings through five sessions in a 12-week period with three SR2 settings (i.e., SR2 off, SR2 default, and SR2 strong).Study SampleTwenty-nine native Mandarin-speaking adults aged 37–76 years old with symmetric sloping moderate-to-profound sensorineural hearing loss were recruited. They were all fitted bilaterally with Phonak Naida V90-SP BTE hearing aids with hard ear-molds.ResultsThe participants demonstrated a significant improvement of aided hearing in detecting high frequency sounds at 8 kHz. For consonant recognition and overall sound-quality rating, the participants performed significantly better with the SR2 default setting than the other two settings. No significant differences were found in vowel and sentence recognition among the three SR2 settings. Test session was a significant factor that contributed to the participants’ performance in all speech and sound-quality perception tests. Specifically, the participants benefited from a longer duration of hearing aid use.ConclusionFindings from this study suggested possible perceptual benefit from the adaptive non-linear frequency compression algorithm for native Mandarin-speaking adults with moderate-to-profound hearing loss. Periods of acclimatization should be taken for better performance in novel technologies in hearing aids.
Purpose: The purpose of this study was to evaluate how the EasyGain settings on a wireless receiver used with a remote microphone (RM) affected output as a function of hearing loss and receiver type. Method: To assess the effects of the EasyGain setting on a Roger receiver, a Phonak Naida V90 superpower hearing aid (HA), two universal Roger X (02) receivers, two Roger 18 integrated receivers, and a Roger Inspiro transmitter were used. An electroacoustic evaluation was performed for five degrees of hearing loss ranging from a flat 40 to 80 dB HL, and for nine EasyGain settings from +8 to −8 dB with each Roger receiver. Results: A three-way analysis of variance indicated significant main effects of hearing loss, receiver type and EasyGain settings, as well as their two-way interactions ( p < .05). Overall, the output of the integrated receiver was 2.77 dB higher than that of the universal receiver. The change in output with 2-dB changes in EasyGain setting varied with the degree of hearing loss. For mild hearing loss (40 and 50 dB), every 2-dB change in EasyGain produced an average of 1.93 dB ( SD = 0.17) change in the root-mean-square (RMS) output. For the higher degrees of hearing loss (60, 70, and 80 dB HL), the change in RMS varied depending on the range of EasyGain setting as follows: when EasyGain was > 0 dB, every 2-dB change in EasyGain setting produced an average change in RMS output of 1.32 dB ( SD = 0.41); however, when EasyGain was ≤ 0 dB, every 2-dB change resulted in a mean 1.95 dB ( SD = 0.16) change. Conclusions: The benefits of EasyGain technology on the RMS output are dependent on the interaction of the receiver type, degree of hearing loss, and EasyGain settings. The results highlight the importance of electroacoustic verification to determine appropriate settings for optimal audibility when using an RM system.
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