Reduced acoustic and electric integration in concurrent-vowel recognition

The present study used concurrent-vowel recognition to measure integration efficiency of combined acoustic and electric stimulation in eight actual cochlear-implant subjects who had normal or residual low-frequency acoustic hearing contralaterally. Although these subjects could recognize single vowe...

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Published in	Scientific reports Vol. 3; no. 1; p. 1419
Main Authors	Yang, Hsin-I, Zeng, Fan-Gang
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 11.03.2013 Nature Publishing Group
Subjects	631/378/2619/1387 631/378/2619/1592 639/166/985 692/308/409 Acoustics Cochlea Deafness Ear Efficiency Hearing loss Humanities and Social Sciences Integration multidisciplinary Prosthetics Science Speech
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Abstract	The present study used concurrent-vowel recognition to measure integration efficiency of combined acoustic and electric stimulation in eight actual cochlear-implant subjects who had normal or residual low-frequency acoustic hearing contralaterally. Although these subjects could recognize single vowels (>90% correct) with either electric or combined stimulation, their performance degraded significantly in concurrent-vowel recognition. Compared with previous simulation results using normal-hearing subjects, the present subjects produced similar performance with acoustic or electric stimulation alone, but significantly lower performance with combined stimulation. A probabilistic model found reduced integration efficiency between acoustic and electric stimulation in the present subjects. The integration efficiency was negatively correlated with residual acoustic hearing in the non-implanted ear and duration of deafness in the implanted ear. The present result suggests a central origin of the integration deficit and that this integration be evaluated and considered in future management of hearing impairment and design of auditory prostheses.
AbstractList	The present study used concurrent-vowel recognition to measure integration efficiency of combined acoustic and electric stimulation in eight actual cochlear-implant subjects who had normal or residual low-frequency acoustic hearing contralaterally. Although these subjects could recognize single vowels (>90% correct) with either electric or combined stimulation, their performance degraded significantly in concurrent-vowel recognition. Compared with previous simulation results using normal-hearing subjects, the present subjects produced similar performance with acoustic or electric stimulation alone, but significantly lower performance with combined stimulation. A probabilistic model found reduced integration efficiency between acoustic and electric stimulation in the present subjects. The integration efficiency was negatively correlated with residual acoustic hearing in the non-implanted ear and duration of deafness in the implanted ear. The present result suggests a central origin of the integration deficit and that this integration be evaluated and considered in future management of hearing impairment and design of auditory prostheses. The present study used concurrent-vowel recognition to measure integration efficiency of combined acoustic and electric stimulation in eight actual cochlear-implant subjects who had normal or residual low-frequency acoustic hearing contralaterally. Although these subjects could recognize single vowels (>90% correct) with either electric or combined stimulation, their performance degraded significantly in concurrent-vowel recognition. Compared with previous simulation results using normal-hearing subjects, the present subjects produced similar performance with acoustic or electric stimulation alone, but significantly lower performance with combined stimulation. A probabilistic model found reduced integration efficiency between acoustic and electric stimulation in the present subjects. The integration efficiency was negatively correlated with residual acoustic hearing in the non-implanted ear and duration of deafness in the implanted ear. The present result suggests a central origin of the integration deficit and that this integration be evaluated and considered in future management of hearing impairment and design of auditory prostheses.The present study used concurrent-vowel recognition to measure integration efficiency of combined acoustic and electric stimulation in eight actual cochlear-implant subjects who had normal or residual low-frequency acoustic hearing contralaterally. Although these subjects could recognize single vowels (>90% correct) with either electric or combined stimulation, their performance degraded significantly in concurrent-vowel recognition. Compared with previous simulation results using normal-hearing subjects, the present subjects produced similar performance with acoustic or electric stimulation alone, but significantly lower performance with combined stimulation. A probabilistic model found reduced integration efficiency between acoustic and electric stimulation in the present subjects. The integration efficiency was negatively correlated with residual acoustic hearing in the non-implanted ear and duration of deafness in the implanted ear. The present result suggests a central origin of the integration deficit and that this integration be evaluated and considered in future management of hearing impairment and design of auditory prostheses.
ArticleNumber	1419
Author	Zeng, Fan-Gang Yang, Hsin-I
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Cites_doi	10.3109/14992027.2010.509113 10.1177/108471380400800102 10.1121/1.2839013 10.1121/1.3699231 10.1016/j.heares.2004.12.010 10.1121/1.1687425 10.1121/1.2717408 10.1121/1.1857526 10.1159/000327765 10.1044/1092-4388(2010/10-0197) 10.1121/1.3699191 10.1097/00003446-200110000-00002 10.1044/jslhr.4005.1201 10.1121/1.3662074 10.1121/1.3068441 10.1159/000027695 10.1016/0378-5955(93)90263-Z 10.1080/14992020701383027 10.1038/35051653 10.1121/1.3605294 10.1121/1.2178719 10.1159/000219487
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Snippet	The present study used concurrent-vowel recognition to measure integration efficiency of combined acoustic and electric stimulation in eight actual...
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SubjectTerms	631/378/2619/1387 631/378/2619/1592 639/166/985 692/308/409 Acoustics Cochlea Deafness Ear Efficiency Hearing loss Humanities and Social Sciences Integration multidisciplinary Prosthetics Science Speech
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Title	Reduced acoustic and electric integration in concurrent-vowel recognition
URI	https://link.springer.com/article/10.1038/srep01419 https://www.ncbi.nlm.nih.gov/pubmed/23474462 https://www.proquest.com/docview/1897436599 https://www.proquest.com/docview/1316056759 https://pubmed.ncbi.nlm.nih.gov/PMC3593224
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