Abstract
OBJECTIVE: The objective of this study is to evaluate the effects of different noise conditions on the cochlea in rats. The study focuses on understanding noise-induced hearing loss through objective audiological tests and histological evaluations. METHODS: Rats were exposed to noise under various conditions based on stimulus type, intensity, and duration. Auditory brainstem response tests were conducted before exposure and on Days 1, 7, and 21 after exposure to assess hearing function. Histopathological and immunohistochemical analyses were performed to study cochlear damage. RESULTS: The study found that noise intensity and duration were the most significant factors in causing hearing loss. Repetitive noise exposure and increased bandwidth also contributed to hearing loss, but their impact was less severe compared to high-intensity or prolonged exposure. In addition, five different noise conditions were characterized as distinct experimental models with varying degrees of cochlear damage. CONCLUSION: The results indicate that while intensity and duration are the primary factors leading to hearing loss, repetitive exposure and increased bandwidth also pose a risk, though to a lesser extent. These findings not only highlight the translational relevance of the 8 kHz loss in rats but also provide a framework for selecting experimental models in future studies on synaptopathy, therapeutic interventions, and central auditory processing.