RT Journal Article SR Electronic T1 Conductive Hearing Loss Produces a Reversible Binaural Hearing Impairment JF The Journal of Neuroscience JO J. Neurosci. FD Society for Neuroscience SP 8704 OP 8711 DO 10.1523/JNEUROSCI.19-19-08704.1999 VO 19 IS 19 A1 David R. Moore A1 Jemma E. Hine A1 Ze Dong Jiang A1 Hiroaki Matsuda A1 Carl H. Parsons A1 Andrew J. King YR 1999 UL http://www.jneurosci.org/content/19/19/8704.abstract AB Conductive hearing loss, produced by otitis media with effusion, is widespread in young children. However, little is known about its short- or long-term effects on hearing or the brain. To study the consequences of a conductive loss for the perception and processing of sounds, we plugged the left ear canal of ferrets for 7–15 months during either infancy or adulthood. Before or during plugging, the ferrets were trained to perform a binaural task requiring the detection of a 500 Hz tone, positioned 90° to the right, that was masked by two sources of broad-band noise. In one condition (“control”), both noise sources were 90° right and, in the second condition (“bilateral”), one noise source was moved to 90° left. Normal ferrets showed binaural unmasking: tone detection thresholds were lower (mean 10.1 dB) for the bilateral condition than for the control condition. Both groups of ear-plugged ferrets had reduced unmasking; the mean residual unmasking was 2.3 dB for the infant and 0.7 dB for the adult ear-plugged animals. After unplugging, unmasking increased in both groups (infant, 7.1 dB; adult, 6.9 dB) but not to normal levels. Repeated testing during the 22 months after unplugging revealed a gradual return to normal levels of unmasking. These results show that a unilateral conductive hearing loss, in either infancy or adulthood, impairs binaural hearing both during and after the hearing loss. They show scant evidence for adaptation to the plug and demonstrate a recovery from the impairment that occurs over a period of several months after restoration of normal peripheral function.