Cochlear implants (CIs) are devices that partially restore hearing for people with severe to profound hearing loss. This research focuses on CI users who use bilaterally implanted devices (two CIs, one on each side) and also "single-sided deafness" (SSD) CI users who use one CI together with good acoustic hearing in their opposite ear. The goal is to measure and understand the impact of large input asymmetries across the two ears. These asymmetries are common in BI-CI listeners and always present in SSD-CI users. Although most CI listeners benefit from a second source of auditory input, this project measures how these asymmetries limit speech understanding and spatial hearing. The long-term goal is countering or compensating for input asymmetries. Electrophysiological measures are used to describe the health of the auditory system. Behavioral measures are used to assess if training improves performance. CT imaging is utilized to describe the placement of the CIs.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
300
Because the cochlear implant participants in the study will use cochlear implant devices that they have already received as part of their standard-of-care treatment, the medical device itself is not an intervention for the purposes of this study. The intervention here will be to carry out diagnostic tests of cochlear implant or acoustic hearing function. This will include perceptual tests of sound localization, speech understanding in noise, binaural fusion, and loudness comparisons.
Subjects will undergo listening practice on a tablet computer over headphones at home. For the test group, the aural rehabilitation will be targeted at the poorer ear. For the comparison control group, a sham aural rehabilitation will present speech to both ears.
Walter Reed National Military Medical Center
Bethesda, Maryland, United States
University of Maryland, College Park
College Park, Maryland, United States
Perceptual responses to sound level
Interaural loudness mismatch is defined as the difference between the levels required to balance interaural loudness for sequential stimulation and the levels required to perceptually center a sound image in space for simultaneous stimulation. Participants will respond through pressing virtual buttons on a computer screen. Depending on the condition tested, the sounds will be delivered to one or both ears.
Time frame: Post-treatment - after at least 6 months use of a cochlear implant if CI user. After enrollment for non-implanted listeners with acoustic hearing.
Speech understanding in the presence of masking sounds
Speech understanding will be assessed as the percentage of correctly identified keywords. Subjects will respond through oral report (where the responses will be scored by the experimenter) or through pressing virtual buttons on a computer screen. The speech sounds will be delivered to one or both ears in the presence of different types of masking sounds. In some cases, signal processing techniques will be used to distort the speech signals to simulate asymmetric hearing abilities.
Time frame: Post-treatment - after at least 6 months use of a cochlear implant if CI user. After enrollment for non-implanted listeners with acoustic hearing.
Computed-tomography scan
A computed tomography temporal bone scan will be used to image the cochlear structures and cochlear implant electrode array located within. This scan will use a standard clinical scanner, with software updated to extend the Hounsfield range to reduce artifact from the metal contacts of the electrode array. This procedure uses radiographic processes, and therefore presents the subject with a safe but nonzero amount of radiation. The CT scan will be analyzed to provide measurements of each array's insertion depth within the cochlea (in degrees and mm), the distance to the cochlear modiolus (mm), and cochlear scalar location.
Time frame: For CI users: CT scan will be collected from existing medical records with permission or taken after study enrollment. Measurements taken after study enrollment. Not collected for non-implanted listeners with acoustic hearing.
Electrode impedance (transelectrode impedance matrix)
This standard clinical measurement will apply a current to one electrode, and measure the resulting induced voltage at each of the other electrodes in the array, one at a time. This process uses low-level electrical stimulation only intended to measure the impedance of the intervening tissues and fluids of the cochlea, and is rarely even perceived by the subject.
Time frame: Post-treatment - after at least 6 months use of a cochlear implant if CI user. Not collected for non-implanted listeners with acoustic hearing.
Electrically evoked compound action potentials (ECAPs)
Electrically evoked compound action potentials (ECAPs) will be measured using clinically-available software to track the growth in auditory nerve response (observed \~0.2-0.8 ms post-stimulus onset) as input level is varied from threshold to the maximal level at which the signal is comfortably loud. The slope of input-output function will be measured ( in microvolts/current unit) for each electrode along the electrode array of each cochlear implant study participant.
Time frame: Post-treatment - after at least 6 months use of a cochlear implant if CI user. Not collected for non-implanted listeners with acoustic hearing.
Sound Localization
Participants' ability to localize a virtual sound source in space will be measured. Subjects will be presented with a broadband sound, with signal processing applied (temporal delays and spectral shaping) to simulate a spatial location of the sound source. Subjects will respond through pressing virtual buttons on a computer screen.
Time frame: Post-treatment - after at least 6 months use of a cochlear implant if CI user. After enrollment for non-implanted listeners with acoustic hearing.
Perceptual Fusion
Participants' ability to perceptually fuse sounds presented to the ears will be measured. Subjects will be presented with a broadband sound, and will respond through pressing virtual buttons on the computer screen as to (1) how many sounds were heard and where they were perceived inside the head, or (2) which of two mixtures presented contained a larger number of voices.
Time frame: Post-treatment - after at least 6 months use of a cochlear implant if CI user. After enrollment for non-implanted listeners with acoustic hearing.
Spectrotemporal ripple sensitivity
This test will be used to evaluate asymmetry in a perceptual measure thought to reflect the peripheral contribution to intersubject variability in speech understanding. This will allow for a baseline from which to ask if the electrophysiological measures provide additional predictive power regarding contralateral disruption beyond the perceptual measures of peripheral asymmetry.
Time frame: Post-treatment - after at least 6 months use of a cochlear implant if CI user. After enrollment for non-implanted listeners with acoustic hearing.
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