University of Southern California
Filtering of otoacoustic emissions: a window onto cochlear frequency tuning
Healthy ears emit sounds that can be measured in the ear canal with a sensitive microphone. These otoacoustic emissions (OAEs) offer a noninvasive window onto the mechanical processes within the cochlea that confer typical hearing, and are commonly measured in the clinic to detect hearing loss. Nevertheless, their interpretation remains limited by uncertainties regarding how they are generated within the cochlea and how they propagate out of it. Through experiments in mice, this project will test theoretical relationships that suggest that OAEs are strongly shaped (or “filtered”) as they travel through the cochlea, and that this filtering is related to how well the ear can discriminate sounds at different frequencies. This may lead to novel, noninvasive tests of human cochlear function, and specifically frequency discrimination, which is important for understanding speech.