Aversiveness of loud sounds is a frequent complaint by hearing aid users,
especially when fitted bilaterally. This study investigates whether loudness
summation can be held responsible for this finding. Two aspects of loudness
summation should be taken into account: spectral loudness summation for
broadband signals and binaural loudness summation for signals that are presented
binaurally. In this study, the effect of different symmetrical hearing losses
was studied. Measurements were obtained with the widely used technique of
Adaptive Categorical Loudness Scaling. For large bandwidths, spectral loudness
summation for hearing-impaired listeners was found to be greater than that for
normal-hearing listeners, both for monaurally and binaurally presented signals.
For binaural loudness summation, the effect of hearing loss was not significant.
In all cases, individual differences were substantial.
Objective: Current hearing aid prescription rules assume that spectral loudness summation decreases with hearing impairment and that binaural loudness summation is independent of hearing loss and signal bandwidth. Previous studies have shown that these assumptions might be incorrect. Spectral loudness summation was measured and compared for loudness scaling and loudness matching. Design: In this study, the effect of bandwidth on binaural summation was investigated by comparing loudness perception of low-pass filtered, high-pass filtered, and broadband pink noise at 35 Categorical Units for both unilateral and bilateral presentation. Study sample: Sixteen hearing-impaired listeners. Results: The results show that loudness differences between the three signals are different for bilateral presentation than for unilateral presentation. In specific, binaural loudness summation is larger for the low-pass filtered pink noise than for the high-pass filtered pink noise. Finally, individual variability in loudness perception near loudness discomfort level was found to be very large. Conclusions: Loudness matching is offered as a fast and reliable method to measure individual loudness perception. As discomfort with loud sounds is one of the major problems encountered by hearing aid users, measurement of individual loudness perception could improve hearing aid fitting substantially.
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