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  • Title: Prolonged low-level noise-induced plasticity in the peripheral and central auditory system of rats.
    Author: Sheppard AM, Chen GD, Manohar S, Ding D, Hu BH, Sun W, Zhao J, Salvi R.
    Journal: Neuroscience; 2017 Sep 17; 359():159-171. PubMed ID: 28711622.
    Abstract:
    Prolonged low-level noise exposure alters loudness perception in humans, presumably by decreasing the gain of the central auditory system. Here we test the central gain hypothesis by measuring the acute and chronic physiologic changes at the level of the cochlea and inferior colliculus (IC) after a 75-dB SPL, 10-20-kHz noise exposure for 5weeks. The compound action potential (CAP) and summating potential (SP) were used to assess the functional status of the cochlea and 16 channel electrodes were used to measure the local field potentials (LFP) and multi-unit spike discharge rates (SDR) from the IC immediately after and one-week post-exposure. Measurements obtained immediately post-exposure demonstrated a significant reduction in supra-threshold CAP amplitudes. In contrast to the periphery, sound-evoked activity in the IC was enhanced in a frequency-dependent manner consistent with models of enhanced central gain. Surprisingly, one-week post-exposure supra-threshold responses from the cochlea had not only recovered, but were significantly larger than normal, and thresholds were significantly better than controls. Moreover, sound-evoked hyperactivity in the IC was sustained within the noise exposure frequency band but suppressed at higher frequencies. When response amplitudes representing the neural output of the cochlea and IC activity at one-week post exposure were compared with control animal responses, a central attenuation phenomenon becomes evident, which may play a key role in understanding why low-level noise can sometimes ameliorate tinnitus and hyperacusis percepts.
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