Cochlear Implantation in Pediatric Cases of Unilateral Hearing Loss

Not Applicable

Completed

Conditions: Hearing Loss, Unilateral

Interventions: Device: Cochlear implant

Registration Number: NCT02963974

Lead Sponsor: University of North Carolina, Chapel Hill

Brief Summary: This feasibility study evaluates whether children with unilateral, moderate to profound sensorineural hearing loss experience an improvement in speech perception, hearing in noise, localization, and quality of life with a cochlear implant as compared to an unaided listening condition.

Detailed Description: Unilateral hearing loss (UHL) is a term used to describe a substantial hearing loss in one ear and normal hearing in the contralateral ear. Despite normal hearing in one ear, these individuals experience reduced speech perception in noise, variable abilities on localization tasks, increased reports of hearing handicap, reduced quality of life, and often, they obtain limited or no benefit from conventional amplification. In the United States, the prevalence of UHL in children ranges from 0.03% to 3%, depending on the age of the child.

Cochlear implantation performed for children with bilateral, severe to profound deafness has significant impacts on several aspects of child development.

The practice of providing cochlear implants to children who have significant hearing loss in one ear is of great interest and is occurring with greater frequency as reported in case studies and small set clinical reports. The primary purpose of this feasibility study is to demonstrate the effectiveness of cochlear implantation in children, age 3 years 6 months to 6 years, 6 months, with moderate to profound UHL. Postoperative results will be evaluated with speech perception measures, localization tasks, hearing in noise tasks, and subjective reports.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 20

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

Study Type: INTERVENTIONAL

Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Cochlear Implant	Cochlear implant	Pediatric patients with single sided deafness will receive a cochlear implant in the ear of loss

Primary Outcome Measures

Name	Time	Method
Mean Change in the Signal-to-noise Ratio 50 (SNR-50) From Device Off to Device on as Measured With the Bamford-Kowal-Bench Speech in Noise Test (BKB-SIN) at 6 Months Post-activation	6 months post-activation	Two ½ lists of the BKB-SIN were presented in each condition device off and device on after 6-months of device use: Speech and masker in front, speech in front and masker directed 90 degrees to the normal ear, speech in front and masker directed 90 degrees to the affected ear. The SNR-50 represents the signal-to-noise ratio required to perceive 50% of the sentence. A lower score is better.
Mean Change in the SNR-50 From Device Off to Device on as Measured With the BKB-SIN at 12 Months Post-activation	12 months post-activation	Two ½ lists of the BKB-SIN were presented in each condition device off and device on after 12-months of device use: Speech and masker in front, speech in front and masker directed 90 degrees to the normal ear, speech in front and masker directed 90 degrees to the affected ear. The SNR-50 represents the signal-to-noise ratio required to perceive 50% of the sentence. A lower score is better.
Median Change in Localization RMS Error From Device Off to Device on at 18 Months Post-activation	18 months post-activation	Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 70 decibel (dB) sound pressure level (SPL) in a sound treated room. Error measures are made device on and device off after 18 months of device use. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. Random error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response.
Median Change in Localization Error From Device Off to Device on at 9 Months Post-activation	9 months post-activation	Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 70 decibel (dB) sound pressure level (SPL) in a sound treated room. Error measures are made device on and device off after 9 months of device use. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. Random error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response.
Change in Mean Response Scores on the Speech Spatial & Qualities (SSQ) Questionnaire	Pre-operatively through 24 months post-activation	The Speech Spatial Qualities Questionnaire requires participants to rate their perceived hearing ability for 49 scenarios using a 10-point scale, ranging from 0 (Not at all) to 10 (Perfectly). A score higher than 0 for each listening scenario shows some benefit of the device, while a score of 10 indicates the device was extremely beneficial. The SSQ questionnaire assesses performance in 3 domains, hearing speech in quiet and noise environments (9 items), spatial or directional hearing (5 items) and sound qualities (8 items). Domain scores represent an average of item ratings, therefore each domain score ranges from 0 to 10 with a higher score indicating a better outcome. The pediatric version of this test was used and parents reported as proxy pre-operatively and at at 3-, 6-, 9-, 12-, 18-, and 24-month post-activation intervals. Change is measured from the pre-operative to the 3-month post-activation interval and between the 3-month interval to all subsequent intervals.
Change in Mean Response Scores as Measured by the Bern Single Sided Deafness (SSD) Questionnaire	Pre-operatively through 24 months post-activation	Bern SSD Questionnaire is a 10-item questionnaire used for rating perceived benefit of a hearing technology designed to be used for persons with Unilateral Hearing Loss (UHL). A positive score indicates greater perceived ability with the device and a negative score indicates greater perceived ability without the device. Scores range from -5 meaning much easier listening without the hearing device to +5 indicating much easier listening with the device. Scores across all 10 items are averaged for a single score. A modified version of this test that can be completed by a parent was used pre-operatively and at 3-, 6-, 9-, 12-, 18-, and 24-month post-activation intervals. Change is measured from the pre-operative to the 3-month post-activation interval and from the 3-month interval to each subsequent interval.
Median Change in Localization Error From Device Off to Device on at 24 Months Post-activation	24 months post-activation	Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 70 decibel (dB) sound pressure level (SPL) in a sound treated room. Error measures are made device on and device off after 24 months of device use. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. Random error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response.
Change Over Time in the Ability to Perceive Single Words as Assessed by Consonant-Nucleus-Consonant (CNC) Word Recognition Testing	up to 24 months post-activation	Recorded, open set word recognition presented pre-operatively in the soundfield when using a traditional hearing aid (contralateral ear masked) and at 3-, 6-, 9-, 12-, 18-, and 24-month post-activation intervals by direct input to the speech processor using the Consonant-Nucleus-Consonant (CNC) words. Scores are reported as percent words correct and a higher score is better. Change is measured from the pre-operative to the 3-month post-activation interval, and from the 3-month post-activation interval to each subsequent interval.
Mean Change in the SNR-50 From Device Off to Device on as Measured With the BKB-SIN at 24 Months of Device Use	24 months post-activation	Two ½ lists of the BKB-SIN were presented in each condition device off and device on after 24-months of device use: Speech and masker in front, speech in front and masker directed 90 degrees to the normal ear, speech in front and masker directed 90 degrees to the affected ear. The SNR-50 represents the signal-to-noise ratio required to perceive 50% of the sentence. A lower score is better.
Median Change in Localization Error From Device Off to Device on at 3 Months Post-activation	3 months post-activation	Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 70 decibel (dB) sound pressure level (SPL) in a sound treated room. Error measures are made device on and device off after 3 months of device use. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. Random error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response.
Change in Mean Fatigue Scores as Measured by the Pediatric Quality of Life (PedsQL) Multidimensional Fatigue Scale	Pre-operatively through 24 months post-activation	PedsQL Multidimensional fatigue scale is a validated scale for determining fatigue in young children, including general fatigue, sleep/rest fatigue and cognitive fatigue. Scores from this test have been previously demonstrated to be substantially affected by hearing loss in children. A parent report version was used pre-operatively and at 3-, 6-, 9-, 12-, 18-, and 24-month post-activation intervals. Items are scored on a 5-point Likert scale and are then reversed scored and linearly transformed to a 0-100 scale where 100 would indicate no fatigue and 0 would indicate near constant fatigue.