Evaluation of the CochSyn Test Prototype to Measure Cochlear Synaptopathy

Not Applicable

Recruiting

• Conditions: Hearing Loss, Sensorineural; Cochlear Synaptopathy; Cochlear Hearing Loss
• Interventions: Device: CochSyn test prototype; Device: Universal Smart Box (USB)

• Registration Number: NCT06114680
• Lead Sponsor: University Ghent

Brief Summary

This study investigates a newly developed test, The CochSyn test that can quantify cochlear synaptopathy (CS) (a new type of sensorineural hearing loss (SNHL)) earlier than the current golden standard pure-tone audiogram.This newly developed test is based on auditory evoked brain potentials. A hardware prototype (the Cochsyn test prototype) was developed to use the Cochsyn test in clinical practice. Additionally a CS-based sound-processing algorithm (CoNNear) that is designed to improve speech intelligibility in subjects that are identified to have CS, will be investigated in this study.

Detailed Description

Cochlear synaptopathy is a new type of sensorineural hearing loss (SNHL) and is related to ageing, noise exposure and ototoxicity. There is currently no diagnostic test of CS on the market, whereas CS is an important form of SNHL. CS occurs before the golden standard clinical hearing test (pure- tone audiogram in which participants raise their hand when hearing tones of different frequencies and the threshold of hearing is determined), shows any signs of hearing damage.

The investigators have developed a test, the CochSyn test that may quantify SNHL earlier than the audiogram. The newly developed test is based on auditory evoked potentials. This is a method in which an auditory stimulus is presented, and encephalogram (EEG) electrodes capture the sound-evoked brain potentials. The most popular auditory evoked potential metric to diagnose sensorineural hearing loss (SNHL) is the auditory brainstem response (ABR). The first animal research studies on CS confirmed that the ABR wave-I amplitude is a sensitive marker of CS when the inflicted hearing damage is well-controlled and specific. Even though it can be assumed that the ABR wave-I amplitude will also be sensitive to CS in humans, it may not be a differential marker for it, and hence other candidate auditory evoked potential markers for CS have been investigated in recent studies. In particular, the envelope-following-response (EFR), has also been shown to be specific to CS in animal research studies.

EFRs are recorded using the standard ABR electrode montage but use another type of stimulus. Based on model simulations and a recent study in which the investigators compared candidate EFR markers for use in human studies , the investigators have developed a new stimulus for EFRs that uses both a different type of modulator waveform and a different analysis method than was adopted earlier.

In this trial, the investigators wish to test the performance of the new method (the CochSyn test) in listeners with or without self-reported hearing difficulties using a newly developed hardware prototype (the CochSyn test prototype), dedicated for the CochSyn-test in clinical practice. The assessment also includes the testing of a CS-based sound-processing algorithm (CoNNear) that is designed to improve speech intelligibility in subjects that are identified to have CS, based on our CochSyn test.

To this end, the investigators will first assess whether our CochSyn test prototype is equally good at capturing the standard ABR waveform as a comparator device available on the market (the Intelligent Hearing Systems Universal Smart Box). The investigators will also test which stimulation characteristics and electrode configurations for the CochSyn test are best able to quantify individual differences in standard objective hearing tests (audiogram, otoacoustic emission, speech reception thresholds) and subjective hearing complaints (validated HHIE-s questionnaire).

Study Timeline

• Study First Submitted: 2023-09-29
• Study First Submitted QC: 2023-10-27
• Study First Posted: 2023-11-02
• Study Start: 2023-11-13
• Status Verified: 2025-04
• Last Update Submitted: 2025-04-28
• Last Update Posted: 2025-05-01
• Primary Completion: 2026-01-31
• Study Completion: 2026-01-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 209

Inclusion Criteria

Session 1

Test group

• 18 - 87 years old
• Flemish/Dutch as native language
• Ability to fill out a questionnaire and to perform a speech intelligibility test
• Self-reported hearing difficulties according to HHIE-s questionnaire (score of >4)
• Normal audiogram (for age group 18-77): audiometric thresholds up to 4 kHz ≤ 20 dB HL and for 6 kHz ≤ 40 dB HL in at least 1 ear OR impaired audiogram (for age group 18-87): audiometric thresholds between 20.1 and 64.9 dB HL pure tone average at 0.5, 1, 2, and 4 kHz in at least 1 ear (=Mild to moderately severe hearing loss according to the recommendation by the Global Burden of Disease Expert Group on Hearing Loss)

Control group

• 18 - 77 years old
• Flemish/Dutch as native language
• Ability to fill out a questionnaire and to perform a speech intelligibility test
• No self-reported hearing difficulties according to HHIE-s questionnaire (score of ≤4)
• Normal audiogram: audiometric thresholds up to 4 kHz ≤ 20 dB HL and for 6 kHz ≤ 40 dB HL in at least 1 ear

Session 2

• Participation in session 1 in the test group
• 18 - 77 years old
• EFR magnitude at 4 kHz with Snap electrode in session 1 reduced by 30-100% compared to average EFR magnitude of age group 18-27 of control group (session 1)

Exclusion Criteria

Applicable for both sessions:

• Pregnant woman
• Breastfeeding woman

Applicable for both sessions and the ear which fulfils the inclusion criteria:

• Chronic (longer than 6 months) permanent tinnitus
• Hearing loss due to a genetic condition, a middle ear condition, or surgery
• Congenital hearing loss
• Blocked ear canal

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Session 1 - control goup (no self-reported hearing difficulties)	Universal Smart Box (USB)	66 (60 + 10% potential drop-outs) subjects with no self-reported hearing difficulties according to HHIE-s questionnaire (score of ≤4)
Session 1 - test group (self-reported hearing difficulties)	CochSyn test prototype	143 (130 + 10% potential drop-outs) subjects with self-reported hearing difficulties according to the HHIE-s questionnaire (score of \>4)
Session 1 - test group (self-reported hearing difficulties)	Universal Smart Box (USB)	143 (130 + 10% potential drop-outs) subjects with self-reported hearing difficulties according to the HHIE-s questionnaire (score of \>4)
Session 1 - control goup (no self-reported hearing difficulties)	CochSyn test prototype	66 (60 + 10% potential drop-outs) subjects with no self-reported hearing difficulties according to HHIE-s questionnaire (score of ≤4)
Session 2 (self-reported hearing difficulties)	CochSyn test prototype	66 (60 + 10% potential drop-outs) subjects who participated in session 1 - test group

Primary Outcome Measures

Name	Time	Method
Quality of Cochsyn test prototype	end of session 1, after 3 hours	The difference in terms of wave amplitudes of a standard clinical auditory brainstem response (ABR) recorded with the commercially available USB device and with the CochSyn test prototype during session 1.
Sensitivity CochSyn test prototype	end of session 1, after 3 hours	The difference in sensitivity (i.e., standard deviation/range) between the ABR wave-I amplitude and the EFR magnitude as measured on the CochSyn test prototype with Snap electrodes in session 1.

Secondary Outcome Measures

Name	Time	Method
Performance CochSyn test prototype	end of session 1, after 3 hours	The difference between the EFR magnitudes obtained with the CochSyn test prototype + cEEGrid electrodes and those obtained with the CochSyn test prototype + Snap electrodes measured for different stimulus carriers during session 1.
Reliability Cochsyn test prototype	end of session 2, after 2 hours	The difference between the EFR magnitudes during session 1 and session 2 (test/re-test). This concerns the recordings made with the CochSyn test prototype + cEEGrid and with the CochSyn test prototype + Snap electrodes.
Hearing thresholds	end of session 1, after 3 hours	The correlation strength and regression slope of the EFR magnitude with the hearing threshold across the cohorts with and without self-reported hearing difficulties. Hearing thresholds related to standard clinical measures i.e., the pure-tone average from the audiogram with extended frequencies and distortion-product otoacoustic emission thresholds. EFR magnitudes at different carrier frequencies and sound levels during session 1 are considered.
Usability CochSyn test prototype	end of session 1, after 3 hours	Written feedback in form of a questionnaire of the test administrator on the usability of the test system for the measurements performed with the CochSyn test prototype during session 1.
Sensitivity related to stimulus changes	end of session 1, after 3 hours	The difference in magnitude between EFRs recorded for different stimulus carriers and for different stimulus levels on the CochSyn test prototype with Snap electrodes and the cEEGrid electrodes during session 1.
Age-related decline in EFR magnitude	end of session 1, after 3 hours	The correlation strength and regression slope of the EFR magnitudes with age obtained with the CochSyn test prototype + Snap electrodes measured at different carrier frequencies and sound levels during session 1 for the test subjects with or without self-reported hearing difficulties.
Classification accuracy scale	session 1, after 3 hours	Classification accuracy scale of correctly assigning a subject within a specific age group to have a subjective hearing handicap (based on HHIE-s) based on their EFR magnitude.
Gender differences in EFR magnitude	end of session 1, after 3 hours	The difference in EFR magnitude between men and woman of the cohort recorded on the CochSyn test prototype with Snap electrodes and the cEEGrid electrodes during session 1.
Selectivity of EFR measurements	end of session 1, after 3 hours	The difference between the EFR magnitudes of the control group and the test group for different stimulus carriers during session 1. Recordings are made on the CochSyn test prototype + Snap electrodes and differences will be assessed across the age-cohort as well as within each age group.
Speech intelligibility	end of session 1, after 3 hours	The correlation strength and regression slope of the EFR magnitude with the speech reception threshold (objective marker of speech intelligibility, Matrix sentence test) across the cohorts with and without self-reported hearing difficulties. EFR magnitudes at different carrier frequencies and sound levels during session 1 are considered.
Performance of CoNNear soundprocessing algorithm for normal audiograms	end of session 2, after 2,5 hours	The speech reception threshold change (in dB) for subjects with low EFR magnitudes and normal audiograms that have received personalised CoNNear audio-processing to compensate for their low EFR magnitudes. The baseline situation is the speech reception threshold for unprocessed sound from session 2.
Subjective hearing handicap	end of session 1, after 3 hours	The correlation between the HHIE-s questionnaire score and the EFR magnitude at different carrier frequencies obtained with the CochSyn test prototype + Snap electrodes during session 1.
Sound quality rating of CoNNear soundprocessing algorithm	session 2, after 2,5 hours	The difference in sound quality rating for the different CoNNear processing types compared to the unprocessed test material.
Performance of CoNNear soundprocessing algorithm for impaired audiograms	end of session 2, after 2,5 hours	The speech reception threshold change (in dB) for subjects with low EFR magnitudes and impaired audiograms that have received personalised CoNNear audio-processing to compensate for their low EFR magnitudes. The baseline situation is the speech reception threshold for unprocessed sound from session 2 and a standard sound processing algorithm.

Trial Locations

Locations (1)

UZ Gent - department of otorhinolaryngology; 🇧🇪 Gent, Belgium