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Audiology Volume 28, 1989 - Issue 5
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Original Article

Developmental Changes in High-Frequency Sensitivity

Original Papers

Sandra E. Trehub Department of Psychology, University of Toronto, Erindale Campus, Mississauga, Ont, Canada
,
Bruce A. Schneider Department of Psychology, University of Toronto, Erindale Campus, Mississauga, Ont, Canada
,
Barbara A. Morrongiello Department of Psychology, University of Toronto, Erindale Campus, Mississauga, Ont, Canada
&
Leigh A. Thorpe Department of Psychology, University of Toronto, Erindale Campus, Mississauga, Ont, Canada
Pages 241-249 | Received 22 Nov 1988, Accepted 08 Mar 1989, Published online: 07 Jul 2009

References

  • Bergman, M.: Hearing in the Mabaans. Archs Otolar. 84: 411–415 (1966).
  • Bernard, P.A.: Freedom from ototoxicity in aminoglycoside treated neonates: a mistaken notion. Laryngoscope 91: 1985–1994 (1981).
  • Bredberg, G.: The human cochlea during development and aging, J. Lar. Otol. 81: 739–758 (1967).
  • Bredberg, G.: The anatomy of the developing ear; in Trehub, Schneider, Auditory development in infancy, pp. 3–20 (Plenum Press, New York 1985).
  • Brown, J.; Brummett, R.; Meickle, N.: Combined effects of noise and neomycin. Acta Otolaryngol. 86: 394–400 (1978).
  • Cohen, S.; Glass, D.C.; Singer, J.E.: Apartment noise, auditory discrimination, and reading ability in children. J. exp. Soc. Psychol. 9: 407–422 (1973).
  • Corso, J.F.: Age and sex differences in pure tone thresholds. Archs Otolar. 77: 385–405 (1963).
  • Corso, J.F.: Aging sensory systems and perception (Praeger, New York 1981).
  • Dillon, H.; Walker, G.: Comparison of stimuli used in sound field audiometric testing. J. acoust. Soc. Am. 71: 161–172 (1982).
  • Dreschler, V.A.; Hulst, R.J.A.M. v.d.; Tange, R.A.; Urbanus, N.A.M.: The role of high-frequency audiometry in early detection of ototoxicity. Audiology 24: 387–395 (1985).
  • Erickson, D.A.; Fausti, S.A.; Frey, R.H.; Rappaport, B.Z.: The effect of steady-state noise upon human hearing from 8 000 to 20 000 Hz. Am. ind. Hyg. Ass. J. 41: 427–432 (1980).
  • Erlandson, B.; Hàkanson, H.; Ivarsson, A.; Nilssen, P.; Wersall, J.: Hair cell damage in the inner ear of the guinea pig due to noise in a workshop. Acta otolar. 103:203–211 (1987).
  • Falk, S.A.; Cook, R.O.; Haseman, J.K.; Sanders, G.: Noise induced inner ear damage in newborn and adult guinea pigs. Laryngoscope 84: 444–453 (1974).
  • Fausti, S.A.; Erickson, D.A.; Frey, R.H.; Rappaport, B.Z.; Schechter, M.A.: The effects of noise upon human hearing sensitivity from 8 000 to 20 000 Hz. J. acoust. Soc. Am. 69: 1343–1349 (1981).
  • Flottorp, G.: Effects of noise upon the upper frequency limit of hearing. Acta otolar. 75: 329–331 (1973).
  • Foss, 1.; Flottorp, G.: A comparative study of the development of hearing and vision in various species commonly used in experiments. Acta otolar. 77: 202–214 (1974).
  • Harris, J.D.; Ward, M.: High-frequency audiometry to 20 kc/s in children of age 10-12 years. J. audit. Res. 7: 241–252 (1967).
  • Henry, K.R.; Fast, G.A.; Nguyen, H.H.; Paolinelli, M.c.; Ayars, N.M.: Extra high-frequency auditory thresholds: fine structure, reliability, temporal integration and relation to ear canal resonance. Audiology 24: 92–103 (1985).
  • Hinchcliffe, R.: The threshold of hearing as a function of age. Acustica 9: 303–308 (1959).
  • Johnsson, L.G.; Hawkins, J.E., Jr.: Sensory and neural degeneration with aging, as seen in micro-dissections of the human inner ear. Ann. Otol. Rhinol. Lar, 81: 179–193 (1972).
  • Kapur, Y.P.; Patt, A.J.: Hearing of Todas in South India. Archs Otolar. 85: 400–406 (1967).
  • Keith, R'W: Middle ear function in neonates. Archs Otolar. 101: 376–379 (1975).
  • Kirikae, I.: Auditory function in advanced age with reference to histological changes in the central auditory system. lnt. Audiol. 8: 221–230 (1969).
  • Kryter, K.D.: Presbycusis, sociocusis, and nosocusis. J. acoust. Soc. Am. 73: 1897–1917 (1983).
  • Marot, N.; Uziel, A.; Romand, R.: Ototoxicity of kanamycin in developing rats: relationship with the onset of auditory function. Hear. Res. 2: 111–113 (1980).
  • McDermott, J.C.; Fausti, S.A.; Frey, R.H.: Effects of middle-ear disease and cleft palate on high-frequency hearing in children. Audiology 25: 136–148 (1986).
  • Mills, J.H.: Noise and children: a review ofliterature. J. acoust. Soc. Am. 58: 767–779 (1975).
  • Moller, B.M.: Hearing in 70 and 75 year old people: results from a cross sectional and longitudinal population study. Am. J. Otolar. 2: 22–29 (1981).
  • Ordy, J.M.; Brizee, K.R.; Beavers, T.; Medart, P.: Age differences in the functional and structural organization of the auditory system in man; in Ordy, Brizee, Sensory systems and communication in the elderly, pp. 153–165 (Raven Press, New York 1979).
  • Price, G.R.: Age as a factor in susceptibility to hearing loss: young vs. adult ears. J. acoust. Soc. Am. 60: 886–892 (1976).
  • Rappaport, B.Z.; Fausti, S.A.; Schechter, M.A.; Frey, R.H.: A prospective study of high-frequency auditory function in patients receiving oral neomycin. Scand. Audiol. 15: 67–71 (1986).
  • Robinson, D.W.; Sutton, G.J.: Age effect in hearing: a comparative analysis of published threshold data. Audiology 18: 320–334 (1979).
  • Roche, A.F.; Siervogel, R.M.; Himes, J.H.; Johnson, D.L.: Longitudinal study of hearing in children: baseline data concerning auditory thresholds, noise exposure, and biological factors. J. acoust. Soc. Am. 64: 1593–1601 (1978).
  • Rosen, S.; Plester, D.; El-Mofty, A.; Rosen, H.Y.: High frequency audiometry in presbycusis: a comparative study of the Mabaan tribe in the Sudan with urban populations. Archs Otolar. 79: 18–32 (1964).
  • Saunders, J.C.; Kaltenbach, J.A.; Relkin, E.M.: The structural and functional development of the outer and middle ear; in Romand, Marty, Development of auditory and vestibular systems, pp. 3–25 (Academic Press, New York 1983).
  • Schechter, M.A.; Fausti, S.A.; Rappaport, B.Z.; Frey, R.H.: Age categorization of high-frequency auditory threshold data. J. acoust. Soc. Am. 79: 767–771 (1986).
  • Schneider, B.A.; Trehub, S.E.; Bull, D.: High-frequency sensitivity in infants. Science 207: 1003–1004 (1980).
  • Schneider, B.A.; Trehub, S.E.; Morrongiello, B.A.; Thorpe, L.A.: Auditory sensitivity in preschool children. J. acoust. Soc. Am. 79: 447–452 (1986).
  • Schuknecht, H.F.: Pathology of the ear (Harvard University Press, Cambridge 1974).
  • Shaw, E.A.G.: The external ear; in Keidel, Neff, Handbook of sensory physiology (vol. 5), pp. 455–490 (Springer, New York 1974).
  • Stelmachowicz, P.G.; Beauchaine, K.A.; Kalberer, A.; Langer, T.; Jesteadt, W.: The reliability of auditory thresholds in the 8- to 20-kHz range using a prototype audiometer. J. acoust. Soc. Am. 83: 1528–1535 (1988).
  • Stelmachowicz, P.G.; Gorga, M.P.; Cullen, J.K.: A calibration procedure for the assessment of thresholds above 8 000 Hz. J. Speech Hear. Res. 25: 618–623 (1982).
  • Stevens, K.N.; Berkovitz, R.; Kidd, c., Green, D.M.: Calibration of ear canals for audiometry at high frequencies. J. acoust. Soc. Am. 81: 470–484 (1987).
  • Thorpe, L.A.: Methodological insights in infant audition: localization vs. detection methods. Paper presented at meetings of the International Conference on Infant Studies, Washington, D.C. April, 1988.
  • Trehub, S.E.; Schneider, B.A.: Problems and promises of developmental psychophysics: throw out the bath water but keep the baby; in Teghtsoonian, Teghtsoonian, Fechner day '87, pp. 43–47 (International Society for Psychophysics, Northampton 1987).
  • Trehub, S.E.; Schneider, B.A.; Endman, M.: Developmental changes in infants' sensitivity to octaveband noises. J. exp. Child Psychol. 29: 282–293 (1980).
  • Trehub, S.E.; Schneider, B.A.; Morrongiello, B.A.; Thorpe, L.A.: Auditory sensitivity in school-age children. J. exp. Child Psychol 46: 273–285 (1988).
  • Zislis, T.; Fletcher, J.L.: Relation of high frequency thresholds to age and sex. J. audit. Res. 6: 189–198 (1966).

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