The purpose of this study is to understand performance with a cochlear implant. The long-term goals of this research are to improve sound perception with cochlear implants and to better understand the functioning of the auditory system. Information from individuals with and without cochlear implants will be compared.
The overall objectives of this research are to 1) gain a better understanding of fundamental psychophysical abilities with electrical stimulation as a function of age (child vs adult), age at onset of deafness (pre- vs post-lingual), and acoustic hearing (normal vs limited or residual); and 2) determine whether manipulations in CI coding strategies will improve psychophysical and speech recognition outcomes for early implanted children. This work is expected to provide new insights into the corresponding improvements in perceptual outcomes to these newer strategies have been modest at best and performance has begun to level off.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
SINGLE
Enrollment
190
AIM 2 - Stimuli will be presented on one of three electrodes (apical, middle, and basal) at an amplitude between 10 and 100% dynamic range in µAs in 10% dynamic range steps. Stimulation will be delivered at a rate of 1000 pps. The process will be repeated in random order until 20 loudness estimates are obtained for each stimulus (3 electrodes x 2 rates x 10 amplitudes) for each subject. The dynamic range will be determined by measuring the maximum acceptable loudness (MAL) and threshold for each of the stimuli. MAL will be measured by slowly raising the current level for each stimulus until the subject reports that it is as loud as they are willing to accept without becoming uncomfortably loud.
AIM 1 - MDT will be set at 150 Hz. Testing will be conducted in soundfield in a sound booth at 60 dB Sound Pressure Level (SPL) while the participant listens with both implants adjusted to user setting.
NYU Langone Health
New York, New York, United States
RECRUITINGChange in loudness growth in Cochlear Implant participants
Power functions will be fit for each of the loudness growth curves. Data will be analyzed using a mixed-design ANOVA with the two groups as the between-subjects factor and electrode and rate as within-subject factors.
Time frame: Baseline Visit (Day 1) , Visit week 10
Change in temporal resolution in Cochlear implant participants
A mixed-effect ANOVA will be conducted to determine if there is an effect of age group (children vs adults) and hearing condition (CI vs NH) for both modulation detection and gap detection tasks. Post-hoc two-sample t-tests will compare differences between NH and CI children as well as NH and CI adults. Post-hoc paired t-tests will compare differences between adults and children for both the NH and the CI populations.
Time frame: Baseline Visit (Day 1) , Visit week 10
Change in spectral resolution in Cochlear implant participants
A one-way ANOVA will be used to calculate the differences between the four groups. If significant, post-hoc t-tests will be performed using Rom's modified Bonferroni Type I error correction.
Time frame: Baseline Visit (Day 1) , Visit week 10
Difference in performance between the reduced channel map and the full map
A mixed-design ANOVA will be conducted for each of the tests with subject population as the between-subjects factor and sound coding strategy as the within-subjects factor
Time frame: Baseline Visit (Day 1) , Visit week 10
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Aim3 - Spectral-temporally modulated ripple test (SMRT), Quick Spectral Modulation Detection (QSMD), Modulation Detection, Gap Detection. CNC words will be set in quiet and Az-Bio/BabyBio sentences in quiet and multi-talker babble (+10 and +5 dB SNR) using both the subject's clinical map and the new reduced channels map. Tests will be presented in the soundfield at 60 dB SPL
Aim 1- Spectral resolution will be tested using frequency allocations consisting of the full default clinical range as well as the subject's clinical frequency allocation if they differ. For Hybrid electrode users in which electrode contacts are closer in proximity in the cochlea, maps with a frequency allocation of 938-7938 Hz will also be tested in that it will closely approximate the frequency spacing of a Nucleus Contour Advance electrode array. Spectral resolution will be measured with three repetitions of the SMRT and one repetition of the QSMD test. Testing will be presented at 60 dB SPL in the soundfield with the acoustic ear plugged and muffed.