First Advisor

Deanna K. Meinke

First Committee Member

Donald S. Finan

Second Committee Member

Diane Erdbruegger

Degree Name

Doctor of Audiology

Document Type

Scholarly Project

Date Created

4-2025

Department

College of Natural and Health Sciences, Communication Sciences and Disorders, CSD Student Work

Abstract

Noise-induced hearing loss (NIHL) represents a significant and irreversible public health concern and is classified as the most prevalent occupational illness in the United States (Masterson et al., 2013). Prolonged exposure to hazardous noise levels precipitates auditory impairment and correlates with other comorbid health risks, including tinnitus (Tufts & Berger, 2022). While traditional hearing protection devices (HPDs) have been implemented extensively to mitigate NIHL, persistent issues such as user discomfort, barriers to effective communication, and compromised situational awareness impede their optimal utilization (Melamed et al., 1994; Neitzel & Seixas, 2005).

Recent innovations in electronic HPDs have emerged, targeting these limitations through the integration of advanced technologies, including digital signal processing, directional microphones, and Bluetooth® connectivity. These advancements aim to enhance the perception of critical environmental sounds while effectively attenuating harmful noise levels, thus fostering improved situational awareness and interpersonal communication (Giguère et al., 2015). Nonetheless, the efficacy of HPDs in practical applications remains inconsistent, with challenges related to cost, operational complexity, and the necessity for extensive user training. Research conducted by Fostick and Fink (2021) underscores the influence of HPDs on sound localization, highlighting the need for imperative designs that minimize disruption to auditory cues paramount for ensuring workplace safety.

This work seeks to compile and analyze the current literature on the effectiveness and challenges of electronic HPDs, specifically focusing on their use in environments with occupational noise. Furthermore, the role of audiologists in the fitting and training of users for optimal outcomes is critically examined. Gaps within the current research landscape are discussed, notably the pressing need for field-based assessments of electronic hearing protection devices (EHPD) performance and advancements in noise-dosimetry integration (Sayler et al., 2019). Electronic hearing protection devices are a class of hearing protection that incorporates both attenuation and electronic components to enhance communication and situational awareness, aiming to balance noise reduction with the ability to perceive environmental sounds in occupational settings (Sayler et al., 2019). By promoting enhancements in the design and usability of HPDs, the audiology discipline can strive to achieve a better equilibrium between hearing protection and communication requirements, ultimately fostering improved hearing conservation practices.

Abstract Format

html

Language

English

Extent

101 pages

Rights Statement

Copyright is held by the author.

Digital Origin

Born digital

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