Otoacoustic emissions from ears with spontaneous activity behave differently to those without: Stronger responses to tone bursts as well as to clicks.

W Wiktor Jedrzejczak,Krzysztof Kochanek,Henryk Skarzynski

doi:10.1371/journal.pone.0192930

W Wiktor Jedrzejczak, Krzysztof Kochanek + Show 1 more

Open Access

https://doi.org/10.1371/journal.pone.0192930

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Journal: PloS one	Publication Date: Feb 16, 2018
Citations: 6	License type: CC BY 4.0

Affiliation: Institute of Physiology and Pathology of Hearing

Abstract

It has been reported that both click-evoked otoacoustic emissions (CEOAEs) and distortion product otoacoustic emissions (DPOAEs) have higher amplitudes in ears that possess spontaneous otoacoustic emissions (SOAEs). The general aim of the present study was to investigate whether the presence of spontaneous activity in the cochlea affected tone-burst evoked otoacoustic emissions (TBOAEs). As a benchmark, the study also measured growth functions of CEOAEs. Spontaneous activity in the cochlea was measured by the level of synchronized spontaneous otoacoustic emissions (SSOAEs), an emission evoked by a click but closely related to spontaneous otoacoustic emissions (SOAEs, which are detectable without any stimulus). Measurements were made on a group of 15 adults whose ears were categorized as either having recordable SSOAEs or no SSOAEs. In each ear, CEOAEs and TBOAEs were registered at frequencies of 0.5, 1, 2, and 4 kHz, and input/output functions were measured at 40, 50, 60, 70, and 80 dB SPL. Global and half-octave-band values of response level and latency were estimated. Our main finding was that in ears with spontaneous activity, TBOAEs had higher levels than in ears without. The difference was more apparent for global values, but were also seen with half-octave-band analysis. Input/output functions had similar growth rates for ears with and without SSOAEs. There were no significant differences in latencies between TBOAEs from ears with and without SSOAEs, although latencies tended to be longer for lower stimulus levels and lower stimulus frequencies. When TBOAE levels were compared to CEOAE levels, the latter showed greater differences between recordings from ears with and without SSOAEs. Although TBOAEs reflect activity from a more restricted cochlear region than CEOAEs, at all stimulus frequencies their behavior still depends on whether SSOAEs are present or not.

Highlights

Because the current study focused on the input/ output (I/O) characteristics of tone-burst-evoked otoacoustic emissions (OAEs) (TBOAEs), a problem arose that the latency for the envelope maximum may change for different levels, i.e. switch between short latency (SL) and LL components (e.g. [43])
TBOAE global levels grew with stimulus level forming nearly straight line on a log-log scale, for ears with spontaneous otoacoustic emissions (SSOAEs) a slight saturation is visible in Fig 3 for stimulation at 70 and 80 dB SPL and 2 kHz
TBOAEs are significantly affected by the presence of SSOAEs, even though TBOAEs reflect activity from a narrower region of the cochlea than do click-evoked otoacoustic emissions (CEOAEs)

Summary

Introduction

Tone-burst-evoked OAEs (TBOAEs) were described [3]. Both CEOAEs and TBOAEs are measured in a time window following a short stimulus, and are classified as transient evoked OAEs (TEOAEs). TBOAEs can provide important information about basic cochlear function. They have been used to compare latencies of OAEs and auditory brainstem responses (ABRs) in order to test the theory of backward traveling waves [8,9]. They can be useful in the diagnosis of general hearing loss [14], in testing high frequency hearing deficits [15], and to improve hearing screening tests in newborns [16]

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