Abstract
Auditory brainstem responses (ABRs) and auditory middle-latency responses (AMLRs) to a click stimulus were measured in about 100 subjects. Of interest were the sex differences in those auditory evoked potentials (AEPs), the correlations between the various AEP measures, and the correlations between the AEP measures and measures of otoacoustic emissions (OAEs) and behavioral performance also measured on the same subjects. Also of interest was how the menstrual cycle affected the various AEP measures. Most ABR measures and several AMLR measures exhibited sex differences, and many of the former were substantial. The sex differences tended to be larger for latency than for amplitude of the waves, and they tended to be larger for a weak click stimulus than for a strong click. The largest sex difference was for Wave-V latency (effect size ~1.2). When subjects were dichotomized into Non-Whites and Whites, the race differences in AEPs were small within sex. However, sex and race interacted so that the sex differences often were larger for the White subjects than for the Non-White subjects, particularly for the latency measures. Contrary to the literature, no AEP measures differed markedly across the menstrual cycle. Correlations between various AEP measures, and between AEP and OAE measures, were small and showed no consistent patterns across sex or race categories. Performance on seven common psychoacoustical tasks was only weakly correlated with individual AEP measures (just as was true for the OAEs also measured on these subjects). AMLR Wave Pa unexpectedly did not show the decrease in latency and increase in amplitude typically observed for AEPs when click level was varied from 40 to 70 dB nHL (normal Hearing Level). For the majority of the measures, the variability of the distribution of scores was greater for the males than for the females.
Highlights
This is the third and final report on a large-scale study designed with several goals
otoacoustic emissions (OAEs) and auditory evoked potentials (AEPs) were measured in both ears, but only the right-ear data were used for the analyses reported here
Sex differences were more numerous and larger for the latency measures than for the amplitude measures and this was true for both Auditory brainstem responses (ABRs) and ABR measure Wave I latency, 70 dB
Summary
This is the third and final report on a large-scale study designed with several goals. Multiple crews of young-adult listeners were tested behaviorally and physiologically for several weeks each. More than three years were required to test all the crews. In [2], we reported on sex, race, and menstrual-cycle differences in various types of otoacoustic emissions (OAEs) and on the correlations between those OAEs and performance on the seven psychoacoustical tasks discussed in the first paper. Those correlations were small; that is, the individual differences in OAEs did not co-vary strongly with the individual differences in psychoacoustical performance [2]
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