Characteristic findings of auditory brainstem response and otoacoustic emission in the Bronx waltzer mouse

Abstract Auditory brainstem responses (ABRs) and distortion product otoacoustic emissions (DPOAEs) were evaluated serially from 1 to 22 months in Bronx waltzer homozygotes (bv/bv), heterozygotes (+/bv) and control (+/+) mice, which were differentiated by means of PCR of marker DNA (D5Mit209). The wave IV threshold of the click-evoked ABR was higher than the DPOAE threshold with the DP growth method in each bv/bv, although the two thresholds were almost the same in the +/+ group. The DP value at 2f1 − f2 in the bv/bv showed an apparent decrease at 2 to 3 months of age with 80 dB SPL stimulation using f2 frequency 7996 Hz and frequency ratio f2/f1 = 1.22, compared to control or heterozygote mice. It was characteristic that the 2f2 − f1 DP signal-to-noise ratio (SNR) value was more preserved from 80 to 60 dB SPL than the 2f1 − f2 DP value at f2 frequency 7996 Hz in most bv/bv, however, control mice showed almost the same levels of 2f1 − f2 and 2f2 − f1 SNR value at both f2 frequencies of 6006 and 7996 Hz. The preservation of a substantial 2f2 − f1 DP suggested that it would be generated basal to the primary-tone place on the basilar membrane and there might be a reflection of the unique function of the remaining outer hair cells in the Bronx waltzer mice. These findings suggest that combination of ABR with DPOAE could offer useful information about differentiating the mechanism of hair cell dysfunction of the hereditary hearing impairment in the clinical fields.