Temporal characteristics of the cochlear response after noise exposure

Abstract

The effect of intense noise on cochlear sensitivity has been extensively studied, but its influence on the temporal characteristics of the cochlear response is still unclear. This study investigated the effects of noise exposure on the latency of cochlear response and cochlear forward masking. Rats were exposed to an octave band noise (8-16\xa0kHz) at 90\xa0dB SPL for 5 days. Cochlear compound action potentials (CAPs) induced by single- and double-tone stimuli and distortion product otoacoustic emissions (DPOAE) were recorded 1 day or 2 months after the noise exposure. The latency of the CAP and its forward masking were compared between the noise-exposed rats and normal control rats. The noise exposure significantly reduced DPOAE and elevated CAP threshold in the noise band region, but not in the other areas. Even in the noise band area, the noise did not reduce CAP-amplitude at the high stimulation level (80 dB SPL). Correspondingly, about one-third of the outer hair cells (OHC) in the noise band area disappeared, while the inner hair cells (IHC) did not. However, the noise exposure in the frequency range of 4-24\xa0kHz significantly prolonged CAP latency and increased its variability, while the CAP forward masking effect was significantly enhanced in the frequency range of 16-30\xa0kHz. The frequency-dependent changes in CAP latency and forward masking after noise exposure may reflect different types of synaptic subinjury in the cochlea, which may lead to psychophysical consequences of sound localization and speech recognition.