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PUBMED FOR HANDHELDS

Journal Abstract Search

293 related items for PubMed ID: 23072965

  • 1. Using average correction factors to improve the estimated sound pressure level near the tympanic membrane.
    LaRae Recker K, Zhang T, Lin W.
    J Am Acad Audiol; 2012 Oct; 23(9):733-50. PubMed ID: 23072965
    [Abstract] [Full Text] [Related]

  • 2. Outer ear canal sound pressure and bone vibration measurement in SSD and CHL patients using a transcutaneous bone conduction instrument.
    Ghoncheh M, Lilli G, Lenarz T, Maier H.
    Hear Res; 2016 Oct; 340():161-168. PubMed ID: 26723102
    [Abstract] [Full Text] [Related]

  • 3. Normative Wideband Reflectance, Equivalent Admittance at the Tympanic Membrane, and Acoustic Stapedius Reflex Threshold in Adults.
    Feeney MP, Keefe DH, Hunter LL, Fitzpatrick DF, Garinis AC, Putterman DB, McMillan GP.
    Ear Hear; 2017 Oct; 38(3):e142-e160. PubMed ID: 28045835
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  • 4. Ear-canal reflectance, umbo velocity, and tympanometry in normal-hearing adults.
    Rosowski JJ, Nakajima HH, Hamade MA, Mahfoud L, Merchant GR, Halpin CF, Merchant SN.
    Ear Hear; 2012 Oct; 33(1):19-34. PubMed ID: 21857517
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  • 7. Evaluation of the Repeatability and Accuracy of the Wideband Real-Ear-to-Coupler Difference.
    Vaisberg JM, Folkeard P, Pumford J, Narten P, Scollie S.
    J Am Acad Audiol; 2018 Jun; 29(6):520-532. PubMed ID: 29863466
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  • 9. Factors contributing to bone conduction: the outer ear.
    Stenfelt S, Wild T, Hato N, Goode RL.
    J Acoust Soc Am; 2003 Feb; 113(2):902-13. PubMed ID: 12597184
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  • 11. Comparison of ear-canal reflectance and umbo velocity in patients with conductive hearing loss: a preliminary study.
    Nakajima HH, Pisano DV, Roosli C, Hamade MA, Merchant GR, Mahfoud L, Halpin CF, Rosowski JJ, Merchant SN.
    Ear Hear; 2012 Feb; 33(1):35-43. PubMed ID: 21857516
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  • 12. A new method to estimate sound energy entering the middle ear.
    Chen S, Deng J, Bian L, Li G.
    Annu Int Conf IEEE Eng Med Biol Soc; 2013 Feb; 2013():29-32. PubMed ID: 24109616
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  • 13. Measurement of acoustic impedance and reflectance in the human ear canal.
    Voss SE, Allen JB.
    J Acoust Soc Am; 1994 Jan; 95(1):372-84. PubMed ID: 8120248
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  • 14. Maturation of the occlusion effect: a bone conduction auditory steady state response study in infants and adults with normal hearing.
    Small SA, Hu N.
    Ear Hear; 2011 Jan; 32(6):708-19. PubMed ID: 21617531
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  • 16. Middle ear pathology can affect the ear-canal sound pressure generated by audiologic earphones.
    Voss SE, Rosowski JJ, Merchant SN, Thornton AR, Shera CA, Peake WT.
    Ear Hear; 2000 Aug; 21(4):265-74. PubMed ID: 10981602
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  • 17. Behavioral hearing thresholds between 0.125 and 20 kHz using depth-compensated ear simulator calibration.
    Lee J, Dhar S, Abel R, Banakis R, Grolley E, Lee J, Zecker S, Siegel J.
    Ear Hear; 2012 Aug; 33(3):315-29. PubMed ID: 22436407
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  • 18. Standing wave patterns in the human ear canal used for estimation of acoustic energy reflectance at the eardrum.
    Lawton BW, Stinson MR.
    J Acoust Soc Am; 1986 Apr; 79(4):1003-9. PubMed ID: 3700855
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  • 19. 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
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  • 20. The Effect of Ear Canal Orientation on Tympanic Membrane Motion and the Sound Field Near the Tympanic Membrane.
    Cheng JT, Ravicz M, Guignard J, Furlong C, Rosowski JJ.
    J Assoc Res Otolaryngol; 2015 Aug; 16(4):413-32. PubMed ID: 25910607
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