Envelope following responses following partial cochlear deafferentation in guinea pigs

Abstract

The sound-induced loss of ribbon synapses connecting inner hair cells to auditory nerve fibers primarily exhibiting high thresholds has been the subject of numerous investigations. The condition resulting from this inner ear abnormality is commonly referred to as hidden hearing loss, a name that reflects the relative invulnerability of low threshold auditory nerve fibers that survive noise-exposure and function normally. Although auditory sensitivity recovers completely among animals experiencing hidden hearing loss, recovery of auditory brainstem response amplitudes is incomplete. The residual loss of function reflected in diminished response amplitudes to transient stimuli serves as a highly reliable indicator of the condition. The extent to which responses to sustained stimuli might serve as indicators of pathology is less clear. To that end, we will review findings related to differences in spectral magnitudes of envelope following responses to a battery of sinusoidally-amplitude modulated test conditions that include level dependent response growth, modulation transfer functions under a variety of carrier conditions, the influence of varying modulation depths, as well as the influence of maskers on responses acquired from control and noise-exposed animals. [Work supported by the Department of Defense Award #W81XWH-19-1-0862.]