Effects of noise exposure on young adults with normal audiograms II: Behavioral measures

Garreth Prendergast,Rebecca E Millman,Hannah Guest,Kevin J Munro,Karolina Kluk,Rebecca S Dewey,Deborah A Hall,Michael G Heinz,Christopher J Plack

doi:10.1016/j.heares.2017.10.007

Abstract

An estimate of lifetime noise exposure was used as the primary predictor of performance on a range of behavioral tasks: frequency and intensity difference limens, amplitude modulation detection, interaural phase discrimination, the digit triplet speech test, the co-ordinate response speech measure, an auditory localization task, a musical consonance task and a subjective report of hearing ability. One hundred and thirty-eight participants (81 females) aged 18–36 years were tested, with a wide range of self-reported noise exposure. All had normal pure-tone audiograms up to 8 kHz. It was predicted that increased lifetime noise exposure, which we assume to be concordant with noise-induced cochlear synaptopathy, would elevate behavioral thresholds, in particular for stimuli with high levels in a high spectral region. However, the results showed little effect of noise exposure on performance. There were a number of weak relations with noise exposure across the test battery, although many of these were in the opposite direction to the predictions, and none were statistically significant after correction for multiple comparisons. There were also no strong correlations between electrophysiological measures of synaptopathy published previously and the behavioral measures reported here. Consistent with our previous electrophysiological results, the present results provide no evidence that noise exposure is related to significant perceptual deficits in young listeners with normal audiometric hearing. It is possible that the effects of noise-induced cochlear synaptopathy are only measurable in humans with extreme noise exposures, and that these effects always co-occur with a loss of audiometric sensitivity.

Highlights

Cochlear synaptopathy due to noise exposure was demonstrated in a mouse model by Kujawa and Liberman (2009)
The main aim of this study was to establish whether performance on a range of behavioral tasks varies as a function of lifetime noise exposure for young listeners with normal audiograms
This study provides further evidence that any effects of cochlear synaptopathy are difficult to observe in young human listeners with normal audiograms. 709 4.1

Summary

Introduction

Cochlear synaptopathy due to noise exposure (often referred to as “hidden hearing loss”) was demonstrated in a mouse model by Kujawa and Liberman (2009). 97 In contrast to these findings of lower wave I amplitudes with greater noise exposure, we conducted a large-scale study (N=126) of young, normal-hearing adults and found no significant relation between lifetime noise exposure and ABR wave I amplitude for either males or females (Prendergast et al, 2017) These findings were replicated in a subsequent study from the same laboratory (Guest et al, 2017). Since the SP is thought to be generated by the hair cells (Kiang and Peake, 1960), a high SP/AP ratio is consistent with synaptopathy It remains unclear how a loss of cochlear synapses would lead to enhancement of the SP, or how the 108 SP would be affected by the substantial high-frequency audiometric deficit observed in the high109 noise group

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Conclusion