Middle-ear pressure gain and cochlear partition differential pressure in chinchilla.

An important step to describe the effects of inner-ear impedance and pathologies on middle- and inner-ear mechanics is to quantify middle- and inner-ear function in the normal ear. We present middle-ear pressure gain G(MEP) and trans-cochlear-partition differential sound pressure DeltaP(CP) in chinchilla from 100 Hz to 30 kHz derived from measurements of intracochlear sound pressures in scala vestibuli P(SV) and scala tympani P(ST) and ear-canal sound pressure near the tympanic membrane P(TM). These measurements span the chinchilla's auditory range. G(MEP) had constant magnitude of about 20 dB between 300 Hz and 20 kHz and phase that implies a 40-micros delay, values with some similarities to previous measurements in chinchilla and other species. DeltaP(CP) was similar to G(MEP) below about 10 kHz and lower in magnitude at higher frequencies, decreasing to 0 dB at 20 kHz. The high-frequency rolloff correlates with the audiogram and supports the idea that middle-ear transmission limits high-frequency hearing, providing a stronger link between inner-ear macromechanics and hearing. We estimate the cochlear partition impedance Z(CP) from these and previous data. The chinchilla may be a useful animal model for exploring the effects of non-acoustic inner-ear stimulation such as "bone conduction" on cochlear mechanics. Copyright (c) 2009 Elsevier B.V. All rights reserved.