Real‐time feedback control of voice in cochlear implant recipients

Objectives To evaluate feedback‐dependent vocal control in cochlear implant patients using pitch‐shifted auditory feedback. Methods Twenty‐three CI recipients with at least 6 months of implant experience were enrolled. Vocal recordings were performed while subjects repeated the vowel /e/ and vocal s...

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Published inLaryngoscope investigative otolaryngology Vol. 5; no. 6; pp. 1156 - 1162
Main Authors Gautam, Anirudh, Brant, Jason A., Ruckenstein, Michael J., Eliades, Steven J.
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.12.2020
Subjects
Cochlear implant
Cochlear implants
Communication
Headphones
Hearing aids
Hearing loss
Original Research
Otology, Neurotology, and Neuroscience
Speech
Transplants & implants
vocal control
vocal production
voice
voice
Cochlear implant
vocal production
hearing loss
vocal control
Online AccessGet full text
ISSN2378-8038
2378-8038
DOI10.1002/lio2.481

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Abstract Objectives To evaluate feedback‐dependent vocal control in cochlear implant patients using pitch‐shifted auditory feedback. Methods Twenty‐three CI recipients with at least 6 months of implant experience were enrolled. Vocal recordings were performed while subjects repeated the vowel /e/ and vocal signals were altered in real‐time using a digital effects processor to introduce a pitch‐shift, presented back to subjects using headphones. Recordings were analyzed to determine pitch changes following the pitch‐shifted feedback, and results compared to the magnitude of the shift as well as patient demographics. Results Consistent with previous results, CI patients' voices had higher pitches with their implant turned off, a change explainable by increases in vocal loudness without the CI. CI patients rapidly compensated for pitch‐shifted feedback by changing their vocal pitch, but only for larger shifts. Considerable inter‐subject variability was present, and weakly correlated with the duration of implant experience and implant sound thresholds. Conclusions CI patients, like normal hearing individuals, are capable of real‐time feedback‐dependent control of their vocal pitch. However, CI patients are less sensitive to small feedback changes, possibly a result of courser CI frequency precision, and may explain poorer than normal vocal control in these patients. Level of Evidence Level 3b. The effects of cochlear implants on the vocal and speech production have not been well studied. Using pitch‐shifted auditory feedback during vocal production, we show that cochlear implant subjects are capable of real‐time feedback‐dependent vocal control, but exhibit higher variability and thresholds than expected for normal hearing individuals.
AbstractList The effects of cochlear implants on the vocal and speech production have not been well studied. Using pitch‐shifted auditory feedback during vocal production, we show that cochlear implant subjects are capable of real‐time feedback‐dependent vocal control, but exhibit higher variability and thresholds than expected for normal hearing individuals.
To evaluate feedback-dependent vocal control in cochlear implant patients using pitch-shifted auditory feedback.OBJECTIVESTo evaluate feedback-dependent vocal control in cochlear implant patients using pitch-shifted auditory feedback.Twenty-three CI recipients with at least 6 months of implant experience were enrolled. Vocal recordings were performed while subjects repeated the vowel /e/ and vocal signals were altered in real-time using a digital effects processor to introduce a pitch-shift, presented back to subjects using headphones. Recordings were analyzed to determine pitch changes following the pitch-shifted feedback, and results compared to the magnitude of the shift as well as patient demographics.METHODSTwenty-three CI recipients with at least 6 months of implant experience were enrolled. Vocal recordings were performed while subjects repeated the vowel /e/ and vocal signals were altered in real-time using a digital effects processor to introduce a pitch-shift, presented back to subjects using headphones. Recordings were analyzed to determine pitch changes following the pitch-shifted feedback, and results compared to the magnitude of the shift as well as patient demographics.Consistent with previous results, CI patients' voices had higher pitches with their implant turned off, a change explainable by increases in vocal loudness without the CI. CI patients rapidly compensated for pitch-shifted feedback by changing their vocal pitch, but only for larger shifts. Considerable inter-subject variability was present, and weakly correlated with the duration of implant experience and implant sound thresholds.RESULTSConsistent with previous results, CI patients' voices had higher pitches with their implant turned off, a change explainable by increases in vocal loudness without the CI. CI patients rapidly compensated for pitch-shifted feedback by changing their vocal pitch, but only for larger shifts. Considerable inter-subject variability was present, and weakly correlated with the duration of implant experience and implant sound thresholds.CI patients, like normal hearing individuals, are capable of real-time feedback-dependent control of their vocal pitch. However, CI patients are less sensitive to small feedback changes, possibly a result of courser CI frequency precision, and may explain poorer than normal vocal control in these patients.CONCLUSIONSCI patients, like normal hearing individuals, are capable of real-time feedback-dependent control of their vocal pitch. However, CI patients are less sensitive to small feedback changes, possibly a result of courser CI frequency precision, and may explain poorer than normal vocal control in these patients.Level 3b.LEVEL OF EVIDENCELevel 3b.
ObjectivesTo evaluate feedback‐dependent vocal control in cochlear implant patients using pitch‐shifted auditory feedback.MethodsTwenty‐three CI recipients with at least 6 months of implant experience were enrolled. Vocal recordings were performed while subjects repeated the vowel /e/ and vocal signals were altered in real‐time using a digital effects processor to introduce a pitch‐shift, presented back to subjects using headphones. Recordings were analyzed to determine pitch changes following the pitch‐shifted feedback, and results compared to the magnitude of the shift as well as patient demographics.ResultsConsistent with previous results, CI patients' voices had higher pitches with their implant turned off, a change explainable by increases in vocal loudness without the CI. CI patients rapidly compensated for pitch‐shifted feedback by changing their vocal pitch, but only for larger shifts. Considerable inter‐subject variability was present, and weakly correlated with the duration of implant experience and implant sound thresholds.ConclusionsCI patients, like normal hearing individuals, are capable of real‐time feedback‐dependent control of their vocal pitch. However, CI patients are less sensitive to small feedback changes, possibly a result of courser CI frequency precision, and may explain poorer than normal vocal control in these patients.Level of EvidenceLevel 3b.
To evaluate feedback-dependent vocal control in cochlear implant patients using pitch-shifted auditory feedback. Twenty-three CI recipients with at least 6 months of implant experience were enrolled. Vocal recordings were performed while subjects repeated the vowel /e/ and vocal signals were altered in real-time using a digital effects processor to introduce a pitch-shift, presented back to subjects using headphones. Recordings were analyzed to determine pitch changes following the pitch-shifted feedback, and results compared to the magnitude of the shift as well as patient demographics. Consistent with previous results, CI patients' voices had higher pitches with their implant turned off, a change explainable by increases in vocal loudness without the CI. CI patients rapidly compensated for pitch-shifted feedback by changing their vocal pitch, but only for larger shifts. Considerable inter-subject variability was present, and weakly correlated with the duration of implant experience and implant sound thresholds. CI patients, like normal hearing individuals, are capable of real-time feedback-dependent control of their vocal pitch. However, CI patients are less sensitive to small feedback changes, possibly a result of courser CI frequency precision, and may explain poorer than normal vocal control in these patients. Level 3b.
Objectives To evaluate feedback‐dependent vocal control in cochlear implant patients using pitch‐shifted auditory feedback. Methods Twenty‐three CI recipients with at least 6 months of implant experience were enrolled. Vocal recordings were performed while subjects repeated the vowel /e/ and vocal signals were altered in real‐time using a digital effects processor to introduce a pitch‐shift, presented back to subjects using headphones. Recordings were analyzed to determine pitch changes following the pitch‐shifted feedback, and results compared to the magnitude of the shift as well as patient demographics. Results Consistent with previous results, CI patients' voices had higher pitches with their implant turned off, a change explainable by increases in vocal loudness without the CI. CI patients rapidly compensated for pitch‐shifted feedback by changing their vocal pitch, but only for larger shifts. Considerable inter‐subject variability was present, and weakly correlated with the duration of implant experience and implant sound thresholds. Conclusions CI patients, like normal hearing individuals, are capable of real‐time feedback‐dependent control of their vocal pitch. However, CI patients are less sensitive to small feedback changes, possibly a result of courser CI frequency precision, and may explain poorer than normal vocal control in these patients. Level of Evidence Level 3b. The effects of cochlear implants on the vocal and speech production have not been well studied. Using pitch‐shifted auditory feedback during vocal production, we show that cochlear implant subjects are capable of real‐time feedback‐dependent vocal control, but exhibit higher variability and thresholds than expected for normal hearing individuals.
Author Brant, Jason A.
Ruckenstein, Michael J.
Gautam, Anirudh
Eliades, Steven J.
AuthorAffiliation 2 Department of Otorhinolaryngology: Head and Neck Surgery Hospital of the University of Pennsylvania Philadelphia Pennsylvania USA
1 Royal College of Surgeons in Ireland School of Medicine Dublin Ireland
3 Auditory and Communication Systems Laboratory, Department of Otorhinolaryngology: Head and Neck Surgery University of Pennsylvania Perelman School of Medicine Philadelphia Pennsylvania USA
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crossref_primary_10_1002_lary_30175
crossref_primary_10_1016_j_heares_2024_109132
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Copyright 2020 The Authors. published by Wiley Periodicals LLC on behalf of The Triological Society.
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Issue 6
Keywords voice
Cochlear implant
vocal production
hearing loss
vocal control
Language English
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2020 The Authors. Laryngoscope Investigative Otolaryngology published by Wiley Periodicals LLC on behalf of The Triological Society.
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Notes Funding information
This work was presented at the Triological Society Combined Sections Meeting, Coronado, CA, USA, January 23‐25, 2020.
National Institute on Deafness and Other Communication Disorders, Grant/Award Number: K08DC014299; Triological Society, Grant/Award Number: Clinician Scientist Development Award
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Funding information National Institute on Deafness and Other Communication Disorders, Grant/Award Number: K08DC014299; Triological Society, Grant/Award Number: Clinician Scientist Development Award
Meeting Information: This work was presented at the Triological Society Combined Sections Meeting, Coronado, CA, USA, January 23‐25, 2020.
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Snippet Objectives To evaluate feedback‐dependent vocal control in cochlear implant patients using pitch‐shifted auditory feedback. Methods Twenty‐three CI recipients...
To evaluate feedback-dependent vocal control in cochlear implant patients using pitch-shifted auditory feedback. Twenty-three CI recipients with at least 6...
ObjectivesTo evaluate feedback‐dependent vocal control in cochlear implant patients using pitch‐shifted auditory feedback.MethodsTwenty‐three CI recipients...
To evaluate feedback-dependent vocal control in cochlear implant patients using pitch-shifted auditory feedback.OBJECTIVESTo evaluate feedback-dependent vocal...
The effects of cochlear implants on the vocal and speech production have not been well studied. Using pitch‐shifted auditory feedback during vocal production,...
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SubjectTerms Cochlear implant
Cochlear implants
Communication
Headphones
Hearing aids
Hearing loss
Original Research
Otology, Neurotology, and Neuroscience
Speech
Transplants & implants
vocal control
vocal production
voice
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Title Real‐time feedback control of voice in cochlear implant recipients
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Flio2.481
https://www.ncbi.nlm.nih.gov/pubmed/33364407
https://www.proquest.com/docview/2471521373
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