New discoveries for hearing loss intervention are often impeded by the proprietary nature of commercial hearing aids and their use in scientific research as "black boxes". An open-source speech platform (OSP) was developed to bridge the gap between audiology research and commercial hearing aid features, to promote innovative solutions to meet the needs of the hearing loss community. The OSP can replicate functions found in commercial hearing aids, and provides tools to researchers to access those functions. The purpose of this study is to evaluate portable and cloud-based platforms of the OSP that will enable a wide range of lab and field applications. All human subjects-related activities will be conducted at Northwestern University (single-site study).
New discoveries for hearing loss intervention are often impeded by the proprietary nature of commercial hearing aids and their use in scientific research as "black boxes". An open-source hearing aid (open-source speech platform or OSP) was developed to bridge the gap between audiology research and the commercialization of hearing aid technologies and to promote innovative solutions to meet the needs of the hearing loss community. The OSP can replicate functions found in commercial hearing aids, and provides tools to researchers and listeners to access those functions. The purpose of this study is to evaluate portable and cloud-based platforms of the OSP that will enable a wide range of lab and field applications by measuring speech perception abilities with the open-source hearing aid in quiet and in noise for adults with and without hearing loss. The study is a within-subjects design that allows for the comparison of outcomes within the same participant. The study will compare performance with two platforms of the open-source hearing aid (portable and cloud-based) for adults with hearing loss and normal hearing. The study will measure performance using tests of word identification. We will test aided performance with clinically validated hearing aid settings in quiet and in noise. Each participant will be presented with all the test conditions, and the order of presentation of the test conditions will be randomized across participants. Statistical analyses will use a repeated measures model to control for correlation between outcomes for the same participant.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
11
The portable open-source speech processing platform (OSP) is accessed on a browser via a wireless fidelity (WiFi)-enabled portable communication device that carries out all the signal processing. The processed sounds are transmitted to the ears via earpieces known as behind-the-ear receivers in the canal (same as those available with commercial hearing aids). The amount of amplification with the portable OSP will be customized for each listener based on a validated prescription.
The cloud-based open-source speech processing platform (OSP) is hosted on a web-server which includes the software for all the signal processing. The processed sounds are transmitted to the ears via calibrated headphones. The amount of amplification with the cloud-based OSP will be customized for each listener based on a validated prescription.
Northwestern University
Evanston, Illinois, United States
Word-identification Ability
Word identification ability will be assessed using the Modified Rhyme Test. Participants will select a word out of a choice of six rhyming words. The words may be in quiet or mixed with background noise and will be presented through headphones (for the intervention type: cloud-based OSP) or via loudspeakers (for the intervention type: portable OSP). Participants may be asked to record their responses on paper or via a button/mouse click on a computer or tablet screen. Scores will be based on the percentage of words identified correctly (range: 0-100%). A higher score indicates better word identification ability. The task is expected to take 30 minutes for each test condition.
Time frame: Post-intervention (1 day)
Phoneme Confusions
Phoneme confusions will be obtained from the Modified Rhyme Test conducted in outcome measure 1. The phoneme confusions will be derived by comparing the selected words to the target word in the task and will be presented in terms of number or percentage of substitution, insertion, deletion errors. No addition task is required for this outcome measure.
Time frame: Post-intervention (1 day)
Response Time
Response time will be obtained from the Modified Rhyme Test conducted in outcome measure 1. Response time is a measure of time taken (in seconds) to identify a word correctly or incorrectly.
Time frame: Post-intervention (1 day)
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.