Monopolar Detection Thresholds Predict Spatial Selectivity of Neural Excitation in Cochlear Implants: Implications for Speech Recognition

Children who use cochlear implants experience significant difficulty hearing speech in the presence of background noise, such as in the classroom. To address these difficulties, audiologists often recommend frequency-modulated (FM) systems for children with cochlear implants. The purpose of this article is to examine current empirical research in the area of FM systems and cochlear implants. Discussion topics will include selecting the optimal type of FM receiver, benefits of binaural FM-system input, importance of DAI receiver-gain settings, and effects of speech-processor programming on speech recognition. FM systems significantly improve the signal-to-noise ratio at the child's ear through the use of three types of FM receivers: mounted speakers, desktop speakers, or direct-audio input (DAI). This discussion will aid audiologists in making evidence-based recommendations for children using cochlear implants and FM systems.

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Mandarin-Speaking, Kindergarten-Aged Children With Cochlear Implants Benefit From Natural F 0 Patterns in the Use of Semantic Context During Speech Recognition

Journal of Speech Language and Hearing Research ◽

10.1044/2018_jslhr-h-17-0327 ◽

2018 ◽

Vol 61 (8) ◽

pp. 2146-2152 ◽

Cited By ~ 4

Author(s):

Linjun Zhang ◽

Jiuju Wang ◽

Tian Hong ◽

Yu Li ◽

Yang Zhang ◽

...

Keyword(s):

Speech Recognition ◽

Cochlear Implants ◽

Semantic Context

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Spatial Selectivity in Cochlear Implants: Effects of Asymmetric Waveforms and Development of a Single-Point Measure

Journal of the Association for Research in Otolaryngology ◽

10.1007/s10162-017-0625-9 ◽

2017 ◽

Vol 18 (5) ◽

pp. 711-727 ◽

Cited By ~ 5

Author(s):

Robert P. Carlyon ◽

John M. Deeks ◽

Jaime Undurraga ◽

Olivier Macherey ◽

Astrid van Wieringen

Keyword(s):

Cochlear Implants ◽

Single Point ◽

Spatial Selectivity ◽

Point Measure

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Effects of Various Extents of High-Frequency Hearing Loss on Speech Recognition and Gap Detection at Low Frequencies in Patients with Sensorineural Hearing Loss

Neural Plasticity ◽

10.1155/2017/8941537 ◽

2017 ◽

Vol 2017 ◽

pp. 1-9

Author(s):

Bei Li ◽

Yang Guo ◽

Guang Yang ◽

Yanmei Feng ◽

Shankai Yin

Keyword(s):

Hearing Loss ◽

Speech Recognition ◽

Sensorineural Hearing Loss ◽

High Frequency ◽

Hearing Threshold ◽

Sensorineural Hearing ◽

Gap Detection ◽

Detection Thresholds ◽

Low Frequencies ◽

Compressed Speech

This study explored whether the time-compressed speech perception varied with the degree of hearing loss in high-frequency sensorineural hearing loss (HF SNHL) individuals. 65 HF SNHL individuals with different cutoff frequencies were recruited and further divided into mildly, moderately, and/or severely affected subgroups in terms of the averaged thresholds of all frequencies exhibiting hearing loss. Time-compressed speech recognition scores under both quiet and noisy conditions and gap detection thresholds within low frequencies that had normal thresholds were obtained from all patients and compared with data from 11 age-matched individuals with normal hearing threshold at all frequencies. Correlations of the time-compressed speech recognition scores with the extents of HF SNHL and with the 1 kHz gap detection thresholds were studied across all participants. We found that the time-compressed speech recognition scores were significantly affected by and correlated with the extents of HF SNHL. The time-compressed speech recognition scores also correlated with the 1 kHz gap detection thresholds except when the compression ratio of speech was 0.8 under quiet condition. Above all, the extents of HF SNHL were significantly correlated with the 1 kHz gap thresholds.

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Effect of current focusing on the sensitivity of inferior colliculus neurons to amplitude-modulated stimulation

Journal of Neurophysiology ◽

10.1152/jn.00126.2016 ◽

2016 ◽

Vol 116 (3) ◽

pp. 1104-1116 ◽

Cited By ~ 3

Author(s):

Shefin S. George ◽

Mohit N. Shivdasani ◽

James B. Fallon

Keyword(s):

Inferior Colliculus ◽

Cochlear Implants ◽

Modulation Depth ◽

Neural Activation ◽

Detection Thresholds ◽

P Values ◽

Pulse Trains ◽

Spectral Cues ◽

Current Focusing ◽

Channel Interactions

In multichannel cochlear implants (CIs), current is delivered to specific electrodes along the cochlea in the form of amplitude-modulated pulse trains, to convey temporal and spectral cues. Our previous studies have shown that focused multipolar (FMP) and tripolar (TP) stimulation produce more restricted neural activation and reduced channel interactions in the inferior colliculus (IC) compared with traditional monopolar (MP) stimulation, suggesting that focusing of stimulation could produce better transmission of spectral information. The present study explored the capability of IC neurons to detect modulated CI stimulation with FMP and TP stimulation compared with MP stimulation. The study examined multiunit responses of IC neurons in acutely deafened guinea pigs by systematically varying the stimulation configuration, modulation depth, and stimulation level. Stimuli were sinusoidal amplitude-modulated pulse trains (carrier rate of 120 pulses/s). Modulation sensitivity was quantified by measuring modulation detection thresholds (MDTs), defined as the lowest modulation depth required to differentiate the response of a modulated stimulus from an unmodulated one. Whereas MP stimulation showed significantly lower MDTs than FMP and TP stimulation ( P values <0.05) at stimulation ≤2 dB above threshold, all stimulation configurations were found to have similar modulation sensitivities at 4 dB above threshold. There was no difference found in modulation sensitivity between FMP and TP stimulation. The present study demonstrates that current focusing techniques such as FMP and TP can adequately convey amplitude modulation and are comparable to MP stimulation, especially at higher stimulation levels, although there may be some trade-off between spectral and temporal fidelity with current focusing stimulation.

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Speech recognition, working memory and conversation in children with cochlear implants

Deafness & Education International ◽

10.1179/146431509790559615 ◽

2009 ◽

Vol 11 (3) ◽

pp. 132-151 ◽

Cited By ~ 16

Author(s):

Tina Ibertsson ◽

Kristina Hansson ◽

Lena Asker-Àrnason ◽

Birgitta SahlÉn

Keyword(s):

Working Memory ◽

Speech Recognition ◽

Cochlear Implants

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Modulation detection thresholds for cochlear implants: Dependence on stimulation site and stimulus level

The Journal of the Acoustical Society of America ◽

10.1121/1.4781350 ◽

2006 ◽

Vol 120 (5) ◽

pp. 3342-3342 ◽

Cited By ~ 3

Author(s):

Bryan E. Pfingst ◽

Rose A. Burkholder ◽

Catherine S. Thompson ◽

Li Xu

Keyword(s):

Cochlear Implants ◽

Stimulus Level ◽

Stimulation Site ◽

Detection Thresholds ◽

Modulation Detection

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Effect of Frequency Boundary Assignment on Speech Recognition with the Nucleus 24 ACE Speech Coding Strategy

Journal of the American Academy of Audiology ◽

10.3766/jaaa.18.8.7 ◽

2007 ◽

Vol 18 (08) ◽

pp. 700-717 ◽

Cited By ~ 6

Author(s):

Marios S. Fourakis ◽

John W. Hawks ◽

Laura K. Holden ◽

Margaret W. Skinner ◽

Timothy A. Holden

Keyword(s):

Speech Recognition ◽

Speech Perception ◽

Cochlear Implants ◽

Speech Coding ◽

Frequency Assignment ◽

Speech Stimuli ◽

Unlimited Number ◽

Coding Strategy ◽

Technological Limitations ◽

Nucleus 24

The choice of frequency boundaries for the analysis channels of cochlear implants has been shown to impact the speech perception performance of adult recipients (Skinner et al, 1995; Fourakis et al, 2004). While technological limitations heretofore have limited the clinical feasibility of investigating novel frequency assignments, the SPEAR3 research processor affords the opportunity to investigate an unlimited number of possibilities. Here, four different assignments are evaluated using a variety of speech stimuli. All participants accommodated to assignment changes, and no one assignment was significantly preferred. The results suggest that better performance can be achieved using a strategy whereby (1) there are at least 7-8 electrodes allocated below 1000 Hz, (2) the majority of remaining electrodes are allocated between 1100 - 3000 Hz, and (3) the region above 3 kHz is represented by relatively few electrodes (i.e., 1-3). The results suggest that such frequency assignment flexibility should be made clinically available. La escogencia de límites de frecuencia para los canales de análisis de los implantes cocleares se ha visto que impacta el desempeño en la percepción del lenguaje de adultos implantados (Skinner y col, 1995; Fourakis y col, 2004). Mientras que las limitaciones tecnológicas hasta este momento han restringido la factibilidad clínica de investigar nuevas asignaciones de frecuencia, el procesador experimental SPEAR3 ofrece la oportunidad de investigar un número ilimitado de posibilidades. Aquí, se evalúan cuatro asignaciones diferentes utilizando una variedad de estímulos de lenguaje. Todos los participantes se acomodaron a los cambios de asignación y ninguna asignación tuvo una preferencia significativa. Los resultados sugieren que puede obtenerse un desempeño mejor utilizando una estrategia donde (1) existan al menos 7-8 electrodos colocados por debajo de 1000 Hz, (2) la mayoría de los electrodos remanentes sean colocados entre 1100 – 3000 Hz, y (3) la región por encima de 3 kHz esté representada por relativamente pocos electrodos (p.e., 1-3). Los resultados sugieren que tal flexibilidad en la asignación de frecuencias debería estar clínicamente disponible.

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