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Journal Abstract Search

173 related items for PubMed ID: 23211609

  • 21. Superior Canal Dehiscence Similarly Affects Cochlear Pressures in Temporal Bones and Audiograms in Patients.
    Cheng YS, Raufer S, Guan X, Halpin CF, Lee DJ, Nakajima HH.
    Ear Hear; 2020; 41(4):804-810. PubMed ID: 31688316
    [Abstract] [Full Text] [Related]

  • 22. Intracochlear Sound Pressure Measurements in Normal Human Temporal Bones During Bone Conduction Stimulation.
    Stieger C, Guan X, Farahmand RB, Page BF, Merchant JP, Abur D, Nakajima HH.
    J Assoc Res Otolaryngol; 2018 Oct; 19(5):523-539. PubMed ID: 30171386
    [Abstract] [Full Text] [Related]

  • 23. Middle ear ossicles motion at hearing thresholds with air conduction and bone conduction stimulation.
    Stenfelt S.
    J Acoust Soc Am; 2006 May; 119(5 Pt 1):2848-58. PubMed ID: 16708943
    [Abstract] [Full Text] [Related]

  • 24. Simultaneous 3D imaging of sound-induced motions of the tympanic membrane and middle ear ossicles.
    Chang EW, Cheng JT, Röösli C, Kobler JB, Rosowski JJ, Yun SH.
    Hear Res; 2013 Oct; 304():49-56. PubMed ID: 23811181
    [Abstract] [Full Text] [Related]

  • 25. Lateralization during the Weber test: animal experiments.
    Sichel JY, Freeman S, Sohmer H.
    Laryngoscope; 2002 Mar; 112(3):542-6. PubMed ID: 12148868
    [Abstract] [Full Text] [Related]

  • 26. Reflections on the role of a traveling wave along the basilar membrane in view of clinical and experimental findings.
    Sohmer H.
    Eur Arch Otorhinolaryngol; 2015 Mar; 272(3):531-5. PubMed ID: 24740735
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  • 31. Comparison of umbo velocity in air- and bone-conduction.
    Röösli C, Chhan D, Halpin C, Rosowski JJ.
    Hear Res; 2012 Aug; 290(1-2):83-90. PubMed ID: 22609771
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  • 32. Inner Ear Excitation in Normal and Postmastoidectomy Participants by Fluid Stimulation in the Absence of Air- and Bone-Conduction Mechanisms.
    Ronen O, Geal-Dor M, Kaufmann-Yehezkely M, Perez R, Chordekar S, Adelman C, Sohmer H.
    J Am Acad Audiol; 2017 Feb; 28(2):152-160. PubMed ID: 28240982
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  • 33. Chinchilla middle-ear admittance and sound power: high-frequency estimates and effects of inner-ear modifications.
    Ravicz ME, Rosowski JJ.
    J Acoust Soc Am; 2012 Oct; 132(4):2437-54. PubMed ID: 23039439
    [Abstract] [Full Text] [Related]

  • 34. Inner ear contribution to bone conduction hearing in the human.
    Stenfelt S.
    Hear Res; 2015 Nov; 329():41-51. PubMed ID: 25528492
    [Abstract] [Full Text] [Related]

  • 35. Superior-semicircular-canal dehiscence: effects of location, shape, and size on sound conduction.
    Kim N, Steele CR, Puria S.
    Hear Res; 2013 Jul; 301():72-84. PubMed ID: 23562774
    [Abstract] [Full Text] [Related]

  • 36. [The mechanics and function of the middle ear. Part 1: The ossicular chain and middle ear muscles].
    Hüttenbrink KB.
    Laryngorhinootologie; 1992 Nov; 71(11):545-51. PubMed ID: 1463560
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  • 37. Intracochlear pressure in response to high intensity, low frequency sounds in chinchilla.
    Peacock J, Al Hussaini M, Greene NT, Tollin DJ.
    Hear Res; 2018 Sep; 367():213-222. PubMed ID: 29945804
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  • 38. Assessment of inner ear bone vibrations during auditory stimulation by bone conduction and by soft tissue conduction.
    Chordekar S, Perez R, Adelman C, Sohmer H.
    J Basic Clin Physiol Pharmacol; 2013 Sep; 24(3):201-4. PubMed ID: 23893679
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  • 39. The effect of static force on round window stimulation with the direct acoustic cochlea stimulator.
    Maier H, Salcher R, Schwab B, Lenarz T.
    Hear Res; 2013 Jul; 301():115-24. PubMed ID: 23276731
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  • 40. Experimental exploration of the soft tissue conduction pathway from skin stimulation site to inner ear.
    de Jong MA, Perez R, Adelman C, Sohmer H.
    Ann Otol Rhinol Laryngol; 2012 Sep; 121(9):625-8. PubMed ID: 23012903
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