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Journal Abstract Search


675 related items for PubMed ID: 27809627

  • 1. Avoiding disconnection: An evaluation of telephone options for cochlear implant users.
    Marcrum SC, Picou EM, Steffens T.
    Int J Audiol; 2017 Mar; 56(3):186-193. PubMed ID: 27809627
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  • 3. A physiologically-inspired model reproducing the speech intelligibility benefit in cochlear implant listeners with residual acoustic hearing.
    Zamaninezhad L, Hohmann V, Büchner A, Schädler MR, Jürgens T.
    Hear Res; 2017 Feb; 344():50-61. PubMed ID: 27838372
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  • 5. The use of cochlear's SCAN and wireless microphones to improve speech understanding in noise with the Nucleus6® CP900 processor.
    De Ceulaer G, Pascoal D, Vanpoucke F, Govaerts PJ.
    Int J Audiol; 2017 Nov; 56(11):837-843. PubMed ID: 28695749
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  • 7. Improving word recognition in noise among hearing-impaired subjects with a single-channel cochlear noise-reduction algorithm.
    Fink N, Furst M, Muchnik C.
    J Acoust Soc Am; 2012 Sep; 132(3):1718-31. PubMed ID: 22978899
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  • 8. Bimodal benefits in Mandarin-speaking cochlear implant users with contralateral residual acoustic hearing.
    Yang HI, Zeng FG.
    Int J Audiol; 2017 Sep; 56(sup2):S17-S22. PubMed ID: 28485635
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  • 9. Utility of bilateral acoustic hearing in combination with electrical stimulation provided by the cochlear implant.
    Plant K, Babic L.
    Int J Audiol; 2016 Sep; 55 Suppl 2():S31-8. PubMed ID: 26987051
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  • 10. Benefits of bilateral electrical stimulation with the nucleus cochlear implant in adults: 6-month postoperative results.
    Laszig R, Aschendorff A, Stecker M, Müller-Deile J, Maune S, Dillier N, Weber B, Hey M, Begall K, Lenarz T, Battmer RD, Böhm M, Steffens T, Strutz J, Linder T, Probst R, Allum J, Westhofen M, Doering W.
    Otol Neurotol; 2004 Nov; 25(6):958-68. PubMed ID: 15547426
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  • 11. Adjustments of the amplitude mapping function: Sensitivity of cochlear implant users and effects on subjective preference and speech recognition.
    Theelen-van den Hoek FL, Boymans M, van Dijk B, Dreschler WA.
    Int J Audiol; 2016 Nov; 55(11):674-87. PubMed ID: 27447758
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  • 12. A directional remote-microphone for bimodal cochlear implant recipients.
    Vroegop JL, Homans NC, Goedegebure A, van der Schroeff MP.
    Int J Audiol; 2018 Nov; 57(11):858-863. PubMed ID: 30261771
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  • 14. Electric and acoustic harmonic integration predicts speech-in-noise performance in hybrid cochlear implant users.
    Bonnard D, Schwalje A, Gantz B, Choi I.
    Hear Res; 2018 Sep; 367():223-230. PubMed ID: 29980380
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  • 15. The effects of reverberant self- and overlap-masking on speech recognition in cochlear implant listeners.
    Desmond JM, Collins LM, Throckmorton CS.
    J Acoust Soc Am; 2014 Jun; 135(6):EL304-10. PubMed ID: 24907838
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  • 16. Speech enhancement based on neural networks improves speech intelligibility in noise for cochlear implant users.
    Goehring T, Bolner F, Monaghan JJ, van Dijk B, Zarowski A, Bleeck S.
    Hear Res; 2017 Feb; 344():183-194. PubMed ID: 27913315
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  • 17. Speech perception in Mandarin-speaking children with cochlear implants: A systematic review.
    Chen Y, Wong LLN.
    Int J Audiol; 2017 Feb; 56(sup2):S7-S16. PubMed ID: 28296526
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  • 18. Speech perception in tones and noise via cochlear implants reveals influence of spectral resolution on temporal processing.
    Oxenham AJ, Kreft HA.
    Trends Hear; 2014 Oct 13; 18():. PubMed ID: 25315376
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