Extending the audiogram with loudness growth: The complementarity of electric and acoustic hearing in bimodal patients

Clinically, recording hearing detection thresholds and representing them in an audiogram is the most common way of evaluating hearing loss and starting the fitting of hearing devices. As an extension, we present the loudness audiogram, which does not only show auditory thresholds but also visualizes...

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Bibliographic Details
Published in:PloS one 2023-04, Vol.18 (4), p.e0277161-e0277161
Main Authors: Lambriks, Lars, van Hoof, Marc, George, Erwin, Devocht, Elke
Format: Article
Language:English
Subjects:
Acoustics
Biology and Life Sciences
Care and treatment
Cochlea
Cochlear Implantation
Cochlear Implants
Complementarity
Complications and side effects
Ears & hearing
Engineering and Technology
Equivalence
Evaluation
Growth curves
Hearing
Hearing Aids
Hearing disorders
Hearing loss
Humans
Listening
Loudness
Medicine and Health Sciences
Patient outcomes
Physical Sciences
Research and Analysis Methods
Social Sciences
Sound
Speech
Speech Perception
Speech recognition
Thresholds
Voice recognition
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Summary:Clinically, recording hearing detection thresholds and representing them in an audiogram is the most common way of evaluating hearing loss and starting the fitting of hearing devices. As an extension, we present the loudness audiogram, which does not only show auditory thresholds but also visualizes the full course of loudness growth across frequencies. The benefit of this approach was evaluated in subjects who rely on both electric (cochlear implant) and acoustic (hearing aid) hearing. In a group of 15 bimodal users, loudness growth was measured with the cochlear implant and hearing aid separately using a loudness scaling procedure. Loudness growth curves were constructed, using a novel loudness function, for each modality and then integrated in a graph plotting frequency, stimulus intensity level, and loudness perception. Bimodal benefit, defined as the difference between wearing a cochlear implant and hearing aid together versus wearing only a cochlear implant, was assessed for multiple speech outcomes. Loudness growth was related to bimodal benefit for speech recognition in noise and to some aspects of speech quality. No correlations between loudness and speech in quiet were found. Patients who had predominantly unequal loudness input from the hearing aid, gained more bimodal benefit for speech recognition in noise compared to those patients whose hearing aid provided mainly equivalent input. Results show that loudness growth is related to bimodal benefit for speech recognition in noise and to some aspects of speech quality. Subjects who had different input from the hearing aid compared to CI, generally gained more bimodal benefit compared to those patients whose hearing aid provided mainly equivalent input. This suggests that bimodal fitting to create equal loudness at all frequencies may not always be beneficial for speech recognition.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0277161