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PUBMED FOR HANDHELDS

Journal Abstract Search


181 related items for PubMed ID: 15276671

  • 41.
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  • 42. Predicting the threshold of pulse-train electrical stimuli using a stochastic auditory nerve model: the effects of stimulus noise.
    Xu Y, Collins LM.
    IEEE Trans Biomed Eng; 2004 Apr; 51(4):590-603. PubMed ID: 15072213
    [Abstract] [Full Text] [Related]

  • 43. Changes in the Electrically Evoked Compound Action Potential over time After Implantation and Subsequent Deafening in Guinea Pigs.
    Ramekers D, Benav H, Klis SFL, Versnel H.
    J Assoc Res Otolaryngol; 2022 Dec; 23(6):721-738. PubMed ID: 35948695
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  • 45. Improved temporal coding of sinusoids in electric stimulation of the auditory nerve using desynchronizing pulse trains.
    Litvak LM, Delgutte B, Eddington DK.
    J Acoust Soc Am; 2003 Oct; 114(4 Pt 1):2079-98. PubMed ID: 14587607
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  • 46. Auditory nerve responses to monophasic and biphasic electric stimuli.
    Miller CA, Robinson BK, Rubinstein JT, Abbas PJ, Runge-Samuelson CL.
    Hear Res; 2001 Jan; 151(1-2):79-94. PubMed ID: 11124454
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  • 50. The neuronal response to electrical constant-amplitude pulse train stimulation: additive Gaussian noise.
    Matsuoka AJ, Abbas PJ, Rubinstein JT, Miller CA.
    Hear Res; 2000 Nov; 149(1-2):129-37. PubMed ID: 11033252
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  • 51.
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  • 52. Enhancement of neural stochastic firing in cochlear implant stimulation by the addition of noise: a computational study of the influence of stimulation settings and spontaneous activity.
    Paglialonga A, Fiocchi S, Ravazzani P, Tognola G.
    Comput Biol Med; 2010 Jun; 40(6):597-606. PubMed ID: 20471638
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  • 53. Stochastic population model for electrical stimulation of the auditory nerve.
    Imennov NS, Rubinstein JT.
    IEEE Trans Biomed Eng; 2009 Oct; 56(10):2493-501. PubMed ID: 19304476
    [Abstract] [Full Text] [Related]

  • 54. Acoustic-electric interactions in the guinea pig auditory nerve: simultaneous and forward masking of the electrically evoked compound action potential.
    Nourski KV, Abbas PJ, Miller CA, Robinson BK, Jeng FC.
    Hear Res; 2007 Oct; 232(1-2):87-103. PubMed ID: 17723284
    [Abstract] [Full Text] [Related]

  • 55. Electrophysiological spread of excitation and pitch perception for dual and single electrodes using the Nucleus Freedom cochlear implant.
    Busby PA, Battmer RD, Pesch J.
    Ear Hear; 2008 Dec; 29(6):853-64. PubMed ID: 18633324
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  • 56. Modeling the relationship between psychophysical perception and electrically evoked compound action potential threshold in young cochlear implant recipients: clinical implications for implant fitting.
    Thai-Van H, Truy E, Charasse B, Boutitie F, Chanal JM, Cochard N, Piron JP, Ribas S, Deguine O, Fraysse B, Mondain M, Uziel A, Collet L.
    Clin Neurophysiol; 2004 Dec; 115(12):2811-24. PubMed ID: 15546789
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  • 57. A fast, stochastic, and adaptive model of auditory nerve responses to cochlear implant stimulation.
    van Gendt MJ, Briaire JJ, Kalkman RK, Frijns JHM.
    Hear Res; 2016 Nov; 341():130-143. PubMed ID: 27594099
    [Abstract] [Full Text] [Related]

  • 58. Auditory temporal acuity probed with cochlear implant stimulation and cortical recording.
    Kirby AE, Middlebrooks JC.
    J Neurophysiol; 2010 Jan; 103(1):531-42. PubMed ID: 19923242
    [Abstract] [Full Text] [Related]

  • 59. Practical model description of peripheral neural excitation in cochlear implant recipients: 4. model development at low pulse rates: general model and application to individuals.
    Cohen LT.
    Hear Res; 2009 Feb; 248(1-2):15-30. PubMed ID: 19110049
    [Abstract] [Full Text] [Related]

  • 60. An analysis of the impact of auditory-nerve adaptation on behavioral measures of temporal integration in cochlear implant recipients.
    Hay-McCutcheon MJ, Brown CJ, Abbas PJ.
    J Acoust Soc Am; 2005 Oct; 118(4):2444-57. PubMed ID: 16266166
    [Abstract] [Full Text] [Related]


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