Research could change lives by reducing risk of hearing loss caused by audio systems

Research could change lives by reducing risk of hearing loss caused by audio systems


Pretoria – Researchers at the University of Pretoria have done a first in understanding the accuracy and reliability of sound-level monitoring earphones in an intervention for safe listening for young people.

The university said the innovative research could change the lives of millions of people by reducing the risk of hearing loss caused by personal audio systems.

Professor De Wet Swanepoel at the Department of Speech-Language Pathology and Audiology, who led the study, said this was an applied solution to the real-world problem of hearing loss for more than a billion young people at risk.

He said: “This world-first technology includes high-quality earphones, with an in-ear microphone to measure personal sound exposure in a person’s ear canal.

“Coupled with a tracking app that provides real-time feedback on sound levels when using the personal audio devices, dbTrack provides a first-of-its-kind solution for safe listening.”

According to the university, more than a billion adolescents and young people are estimated to be at risk of acquiring recreational noise-induced hearing loss (RNIHL) because of the unsafe use of personal audio systems. Recreational noise-induced hearing loss is preventable, and this research offers an important intervention to promote healthy listening behaviour.

Prof Swanepoel said once the delicate inner ear hair cells are damaged, the hearing loss is permanent and irreversible. Loud noise is particularly harmful to the inner ear. One-time exposure to extremely loud sound or listening to loud sounds for a long time can cause hearing loss.

He said  the accompanying dbTrack smartphone application records listening activity measured by the earphones and calculates an accurate sound exposure dose in real-time.

“Described as a Fitbit for your ears, the dbTrack earphones and app provide instant feedback based on personal listening behaviours,” said Prof Swanepoel.

“The in-ear microphone inside the earphone measures sound levels in real-time as the music is playing in someone’s ear through their personal audio device. Each set of earphones are individually calibrated for accuracy.”

The research team had two objectives.

“Firstly, we needed to determine how accurate the in-ear sound-monitoring feature was compared to laboratory equipment.

“We recorded sound intensity levels over time in the ears of participants, then recorded the same intensity levels in standard laboratory equipment.  We also did test-retest checks in both conditions. Results demonstrated that the in-ear monitoring feature was very accurate and reliable within 1dB.

“Secondly, we wanted to evaluate whether the dbTrack technology and app-based feedback changed listening behaviours when used by listeners. We enrolled participants who were regular users of personal audio devices. They received the dbTrack earphones and app. The research app was set to show no monitoring feedback for the first two weeks of the study as a control condition.

After two weeks, the app switched to provide feedback and notifications on their sound exposure. Results demonstrated significantly safer levels and durations of listening when the app feedback was active.”

The app includes feedback on the intensity, duration and associated risk of hearing damage for individuals.

Pretoria News

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