The condition of the auditory nerve is thought to be one of the most important factors that predict the outcome of a cochlear implant (CI). The neural condition varies across the implanted ears and across cochlear regions within an ear. Speech recognition can potentially be improved if the auditory periphery is stimulated in a way that is th most optimal for each individual based on an assessment of the neural condition of the implanted ear across the electrode array. Assessing neural conditions in living human CI users has been possible by the establishment of non-invasive measures that correlate with the density of the spiral ganglion cells in the animal models. The objective of the current proposal is to assess these clinically-applicable measures of neural health for their applications in human CI users and design customized stimulation strategies based on these measures. In implanted guinea pigs, the count of the spiral ganglion cells near tested electrodes correlate with detection thresholds at low pulse rate, as well as the rate of threshold decrease with the increase of pulse rate, known as multipulse integration (MPI). Guinea pigs with lower thresholds and steeper MPI slopes tended to have higher spiral ganglion cell density.
Aim 1 evaluates the two psychophysical measures to determine if they can be used to estimate neural density in human CI users. The prediction is that if the slope of the MPI functions, or the low- rate threshold, is dependent on neural density, the measure should predict place specificity of neural excitation (tuning) in humans.
Aim 2 tests the hypothesis that the function of the surviving neurons is the underlying mechanism for the steepness of the MPI functions. The rationale for the hypothesis is that, in neomycin- deafened animals, in ears with low neural density, the surviving neurons are likely to also have impaired neural function, such as prolonged neural refractoriness and greater adaptation to stimulation. Both factors could result in a lower-than-expected neural sampling of the high-rate stimulus manifested as insensitivity to pulse rate change (i.e., shallow MPI slopes). The prediction is that if MPI slope is dependent on neural function, shallow MPI functions should predict slower neural recovery from refractoriness and adaptation to stimulation.
Aim 3 proposes two customizing mapping strategies based on the proposed neural density and function measures. Strategy one targets stimulation at cochlear regions estimated to have high neural density by deactivating stimulation sites with spread of neural excitation. Strategy two lowers stimulation rate for subjects who show overall low sensitivity to pulse rate change. Speech recognition performance using these new strategies will be compared to that using the subjects' clinical maps. The proposed psychophysical measures for neural health and the customizing mapping strategies are simple and time-efficient and, thus have great potential for clinical use. 1

Public Health Relevance

The proposed research aims to establish measures that can be used to assess the condition of the auditory nerve in listeners with cochlear implants, and develop strategies to optimally stimulate implanted ears based on the non-invasive assessment of the cochlea. 1

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Small Research Grants (R03)
Project #
5R03DC014771-03
Application #
9456727
Study Section
Communication Disorders Review Committee (CDRC)
Program Officer
Miller, Roger
Project Start
2016-04-01
Project End
2020-03-31
Budget Start
2018-04-01
Budget End
2020-03-31
Support Year
3
Fiscal Year
2018
Total Cost
Indirect Cost
Name
East Carolina University
Department
Other Health Professions
Type
Sch Allied Health Professions
DUNS #
607579018
City
Greenville
State
NC
Country
United States
Zip Code
27858
Zhou, Ning; Cadmus, Matthew; Dong, Lixue et al. (2018) Temporal Modulation Detection Depends on Sharpness of Spatial Tuning. J Assoc Res Otolaryngol 19:317-330
Tao, Duo-Duo; Liu, Ji-Sheng; Yang, Zhen-Dong et al. (2018) Bilaterally Combined Electric and Acoustic Hearing in Mandarin-Speaking Listeners: The Population With Poor Residual Hearing. Trends Hear 22:2331216518757892
Zhou, Ning; Dong, Lixue; Hang, Mingqi (2018) Evaluating Multipulse Integration as a Neural-Health Correlate in Human Cochlear Implant Users: Effects of Stimulation Mode. J Assoc Res Otolaryngol 19:99-111
Zhou, Ning (2017) Deactivating stimulation sites based on low-rate thresholds improves spectral ripple and speech reception thresholds in cochlear implant users. J Acoust Soc Am 141:EL243
Zhou, Ning; Dong, Lixue (2017) Evaluating Multipulse Integration as a Neural-Health Correlate in Human Cochlear-Implant Users: Relationship to Psychometric Functions for Detection Trends Hear 21:2331216517690108
Zhou, Ning; Pfingst, Bryan E (2016) Evaluating multipulse integration as a neural-health correlate in human cochlear-implant users: Relationship to forward-masking recovery. J Acoust Soc Am 139:EL70-5
Zhou, Ning (2016) Monopolar Detection Thresholds Predict Spatial Selectivity of Neural Excitation in Cochlear Implants: Implications for Speech Recognition. PLoS One 11:e0165476
Zhou, Ning; Pfingst, Bryan E (2016) Evaluating multipulse integration as a neural-health correlate in human cochlear-implant users: Relationship to spatial selectivity. J Acoust Soc Am 140:1537