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1.
J Acoust Soc Am ; 129(4): 2191-200, 2011 Apr.
Article in English | MEDLINE | ID: mdl-21476674

ABSTRACT

The multidimensional phoneme identification model is applied to consonant confusion matrices obtained from 28 postlingually deafened cochlear implant users. This model predicts consonant matrices based on these subjects' ability to discriminate a set of postulated spectral, temporal, and amplitude speech cues as presented to them by their device. The model produced confusion matrices that matched many aspects of individual subjects' consonant matrices, including information transfer for the voicing, manner, and place features, despite individual differences in age at implantation, implant experience, device and stimulation strategy used, as well as overall consonant identification level. The model was able to match the general pattern of errors between consonants, but not the full complexity of all consonant errors made by each individual. The present study represents an important first step in developing a model that can be used to test specific hypotheses about the mechanisms cochlear implant users employ to understand speech.


Subject(s)
Cochlear Implants , Deafness/physiopathology , Models, Neurological , Phonetics , Speech Perception/physiology , Adolescent , Adult , Aged , Cues , Deafness/therapy , Humans , Middle Aged , Psychoacoustics , Young Adult
2.
J Acoust Soc Am ; 127(2): 1069-83, 2010 Feb.
Article in English | MEDLINE | ID: mdl-20136228

ABSTRACT

A simple mathematical model is presented that predicts vowel identification by cochlear implant users based on these listeners' resolving power for the mean locations of first, second, and/or third formant energies along the implanted electrode array. This psychophysically based model provides hypotheses about the mechanism cochlear implant users employ to encode and process the input auditory signal to extract information relevant for identifying steady-state vowels. Using one free parameter, the model predicts most of the patterns of vowel confusions made by users of different cochlear implant devices and stimulation strategies, and who show widely different levels of speech perception (from near chance to near perfect). Furthermore, the model can predict results from the literature, such as Skinner, et al. [(1995). Ann. Otol. Rhinol. Laryngol. 104, 307-311] frequency mapping study, and the general trend in the vowel results of Zeng and Galvin's [(1999). Ear Hear. 20, 60-74] studies of output electrical dynamic range reduction. The implementation of the model presented here is specific to vowel identification by cochlear implant users, but the framework of the model is more general. Computational models such as the one presented here can be useful for advancing knowledge about speech perception in hearing impaired populations, and for providing a guide for clinical research and clinical practice.


Subject(s)
Cochlear Implants , Models, Neurological , Phonetics , Speech Perception , Acoustic Stimulation , Adult , Aged , Algorithms , Computer Simulation , Humans , Information Theory , Mathematical Concepts , Middle Aged , Psychoacoustics , Psycholinguistics , Speech , Young Adult
3.
Laryngoscope ; 114(9): 1536-40, 2004 Sep.
Article in English | MEDLINE | ID: mdl-15475777

ABSTRACT

OBJECTIVES/HYPOTHESIS: To examine the hypothesis that the newer generations of cochlear implants could provide considerable speech understanding to late-implanted, prelingually deaf adult patients. STUDY DESIGN: Retrospective review. METHODS: Speech perception scores of 103 patients with long-term prelingual deafness obtained from the recent clinical trials were compared with other previously published results. RESULTS: Unlike patients receiving implants in early childhood, the audiologic performance of most patients with long-term prelingual deafness rapidly approached asymptotic levels within 1 year after implantation. Beginning at 3 months postimplantation, statistically significant improvement was noted in their speech perception scores compared with their preimplant levels. However, the average performance plateau achieved by this group of patients was significantly below the levels published for postlingual patients. No statistically significant differences were observed between the test scores at any testing interval among patients with different devices. CONCLUSIONS: Most patients with long-term prelingual deafness achieve their performance plateau within 1 year after implantation. The results suggest that patient characteristics, rather than device properties, are likely to be the major contributing factor responsible for the observed audiologic outcomes.


Subject(s)
Cochlear Implantation , Deafness/rehabilitation , Language Development Disorders/rehabilitation , Speech Discrimination Tests , Adolescent , Adult , Cochlear Implants , Female , Humans , Male , Prosthesis Design , Treatment Outcome
4.
Laryngoscope ; 114(10): 1714-9, 2004 Oct.
Article in English | MEDLINE | ID: mdl-15454759

ABSTRACT

OBJECTIVES/HYPOTHESIS: To discuss the underlying physiological and anatomical constraints on audiological performance of late-implanted prelingually deafened adult cochlear implant patients. STUDY DESIGN: Retrospective review. METHODS: Published literature on the topic of auditory pathway responses to prolonged congenital deafness was reviewed. In particular, the authors sought to identify the anatomical and physiological changes that take place in both the peripheral and central auditory pathways in response to prolonged deafness, as well as how they are altered by chronic electrical stimulation. RESULTS: The currently available evidence suggests that the colonization of the auditory cortex by other sensory modalities is the main limiting factor in postimplantation performance, not the pathological degenerative changes of the auditory nerve, cochlear nucleus, or auditory midbrain. CONCLUSION: The reviewed evidence, although circumstantial, suggests that emphasizing aurally based educational programs before (with hearing aids) and after cochlear implantation could reduce the cortical colonization phenomenon and potentially improve postimplantation audiological performance of patients with long-term prelingual deafness.


Subject(s)
Auditory Pathways/physiopathology , Auditory Perception/physiology , Cochlear Implantation , Deafness/surgery , Adult , Auditory Cortex/physiopathology , Cochlear Nucleus/physiopathology , Deafness/congenital , Deafness/physiopathology , Electric Stimulation/methods , Hearing Aids , Humans , Mesencephalon/physiopathology , Retrospective Studies , Time Factors , Treatment Outcome
5.
Acta Otolaryngol ; 124(4): 381-6, 2004 May.
Article in English | MEDLINE | ID: mdl-15224858

ABSTRACT

OBJECTIVE: Cochlear implants (CIs) attempt to mimic the tonotopicity of the normal ear by stimulating more basal regions of the cochlea in response to higher frequencies. However, there may be a mismatch between the normal place-frequency map and that implemented by a CI. MATERIAL AND METHODS: Aiming to measure this potential mismatch and its changes over time, the present study used a method-of-adjustment procedure where CI users and normal-hearing listeners selected synthetic vowels to match prespecified vowel targets. Data from CI users were obtained longitudinally, starting on the day of initial stimulation and continuing for 2 years. RESULTS: CI users showed a significant amount of initial mismatch with respect to the normal-hearing listeners, but they also showed significant learning and adaptation over time and achieved nearly normal performance after some experience with the CI. CONCLUSION: In general, the adaptation process took several months, suggesting that some CI users may benefit from alternative signal processing or rehabilitation procedures designed to facilitate perceptual learning after cochlear implantation.


Subject(s)
Adaptation, Physiological , Cochlear Implantation , Deafness/rehabilitation , Phonetics , Speech Perception/physiology , Acoustic Stimulation , Adult , Deafness/physiopathology , Humans , Middle Aged , Speech Acoustics
6.
Audiol Neurootol ; 9(4): 224-33, 2004.
Article in English | MEDLINE | ID: mdl-15205550

ABSTRACT

Like any other surgery requiring anesthesia, cochlear implantation in the first few years of life carries potential risks, which makes it important to assess the potential benefits. This study introduces a new method to assess the effect of age at implantation on cochlear implant outcomes: developmental trajectory analysis (DTA). DTA compares curves representing change in an outcome measure over time (i.e. developmental trajectories) for two groups of children that differ along a potentially important independent variable (e.g. age at intervention). This method was used to compare language development and speech perception outcomes in children who received cochlear implants in the second, third or fourth year of life. Within this range of age at implantation, it was found that implantation before the age of 2 resulted in speech perception and language advantages that were significant both from a statistical and a practical point of view. Additionally, the present results are consistent with the existence of a 'sensitive period' for language development, a gradual decline in language acquisition skills as a function of age.


Subject(s)
Cochlear Implants , Hearing Loss/therapy , Language Development , Speech Perception , Age Factors , Child, Preschool , Humans , Infant , Speech Production Measurement , Treatment Outcome
7.
Audiol Neurootol ; 8(5): 269-85, 2003.
Article in English | MEDLINE | ID: mdl-12904682

ABSTRACT

It is hypothesized that for postlingually deafened adult cochlear implant (CI) users, a significant source of their perceptual performance variability is attributable to differences in their ability to discriminate the basic perceptual cues that are important in speech recognition. Previous research on 'electric hearing' has identified consistent perceptual cues for vowel recognition. However, the results on consonant perception by CI users are less clear. The primary purpose of this study is to present a quantitative method of evaluating potential 'electric cues' used by CI users in consonant identification. Since the actual input signals to the auditory periphery of CI users are electric in nature, we elected to measure the CI electric discharge patterns in addition to the original acoustic waveforms. The characteristics of the electric discharge patterns in response to intervocalic consonants were quantified and correlated with the dimensions of CI patients' perceptual spaces, which were computed from multidimensional scaling analyses of their consonant confusion matrices. The results agree with most, but not all, commonly accepted acoustic cues used by normal-hearing listeners. The correlation findings also suggest that CI users employ different sets of 'electric cues' in perceiving consonants that differ in their manner of articulation. Specifically, spectral and temporal cues associated with slowly changing formant structures and transitions, and features associated with frication and high-frequency noise, are all highly correlated with the perceptual dimensions of all CI users. However, rapidly changing formant transitions, such as those present in stop consonants, did not appear to play a significant role in consonant recognition by more poorly performing CI subjects. The perceptual results were consistent with our physical findings that the SPEAK coding strategy partially degraded the rapidly changing formant transitions.


Subject(s)
Acoustic Stimulation , Auditory Threshold , Cochlear Implants , Cues , Electric Stimulation , Phonetics , Speech Perception , Adult , Electric Stimulation/instrumentation , Evaluation Studies as Topic , Hearing Loss/physiopathology , Hearing Loss/surgery , Humans , Regression Analysis
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