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  • Title: Olivocochlear efferent vs. middle-ear contributions to the alteration of otoacoustic emissions by contralateral noise.
    Author: Büki B, Wit HP, Avan P.
    Journal: Brain Res; 2000 Jan 03; 852(1):140-50. PubMed ID: 10661505.
    Abstract:
    The medial olivocochlear efferent bundle is the key element of a bilateral efferent reflex activated by sound in either ear and acting directly on cochlear outer hair cells (OHC) via numerous cholinergic synapses. It probably contributes to regulating the mechanical activity of the cochlea. Otoacoustic emissions, being sounds emitted by the cochlea as a reflection of its activity and suppressed by efferent activation, are increasingly considered to be the privileged tool for a noninvasive assessment of the efferent reflex. However, confounding effects on otoacoustic emissions can occur. A primary influence is middle-ear muscle reflex activation, which shares common features with the effects of cochlear efferent activation. We report a systematic comparison of the responses of human otoacoustic emissions to efferent activation by low-level noise in the contralateral ear to various middle-ear manipulations (reflex contractions of the stapedius muscle induced by high-level contralateral noise; moderate middle-ear pressure changes). The profiles of level and phase changes of otoacoustic emissions as a function of frequency were highly specific to the origin of the effects. The changes induced by middle-ear manipulations matched the predictions computed from a standard lumped-element middle-ear model, with one or two peaks around the resonance frequency(ies) of the involved subsystem, stapes or tympanic membrane. In contrast, the efferent effect was completely different, exhibiting a broadband-level suppression associated with a small phase lead. We propose that a careful vector analysis of otoacoustic emission modifications enables the identification of the contribution of the efferent reflex without ambiguity even when it is mixed with middle-ear effects. Thereby, otoacoustic emissions can be used more reliably as noninvasive probes of efferent olivocochlear function.
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