OTOACOUSTIC EMISSION
LITERATURE SURVEY

Compiled by
Miami Ear Institute
19 May 1995
Published Reports and Abstracts
(last update 5/19/95)

•Abdala C, Sininger Y, Ekelid M, Zeng F-G (1995): Distortion product otoacoustic emission suppression tuning curves in human adults. Abstr Assoc Res Otolaryngol 18:120.

•Abdo MH, Stapells DR (1994): Transient reduction in evoked otoacoustic emissions in normal-hearing adults without evidence of middle-ear dysfunction. Am Acad Otolaryngol Head Neck Surg/Assoc Res Otolaryngol Abstr 111:P98.

•Abdo MH, Feghali JG, Stapells DR (1992): Temporal and spectral analysis of click and tone transient-evoked otoacoustic emissions. Abstr Assoc Res Otolaryngol 15:151.

•Allen J (1992): Instrumentation issues in collecting ear-canal acoustic distortion products. J Acoust Soc Am Abstr 91:2409.

•Allen J (1992): Why is the 2f1-f2 distortion product maximum at f2/f1=1.2? J Acoust Soc. Am Abstr 91:2410. •Allen J (1991): A comparison of pure tone and distortion product audiometric thresholds. Abstr Int Symp on Otoacoustic Emissions, Kansas City, p12.

•Allen JB (1985): Cochlear modeling. IEEE ASSP Magazine 2:3-29.

•Allen JB (1986): Measurement of eardrum acoustic impedance. In: Peripheral Auditory Mechanisms, JB Allen, JL Hall, A Hubbard, ST Neely, A Tubis (Eds). New York, Springer-Verlag, pp43-51.

•Allen JB, Fahey PF (1983): Nonlinear behavior at threshold determined in the auditory canal and on the auditory nerve. In: Hearing-Physiological Bases and Psychophysics, R Klinke, R Hartmann (Eds). Berlin, Springer-Verlag, pp128-134. •Allen JB, Fahey PF (1992): Using acoustic distortion products to measure the cochlear amplifier gain on the basilar membrane. Abstr Assoc Res Otolaryngol 15:103.

•Allen JB, Fahey PF (1992): Using acoustic distortion products to measure the cochlear amplifier gain on the basilar membrane. J Acoust Soc Am 92:178-188.

•Allen JB, Fahey PF (1993): Distortion product emissions as a probe of cochlear micromechanics. Abstr Assoc Res Otolaryngol 16:103.

•Allen JB, Fahey PF (1993): A second cochlear-frequency map that correlates distortion product and neural tuning measurements. J Acoust Soc Am 94:809-816.

•Allen JB, Lonsbury-Martin BL (1993): Otoacoustic emissions. J Acoust Soc Am 93:568-569.

•Allen JB, Neely ST (1992): Micromechanical models of the cochlea. Physics Today 45:40-47.

•Anderson SD (1980): Some ECMR properties in reIation to other signals from the auditory periphery. Hear Res 2:273-296.

•Anderson SD, Halford, J (1989): Stimulated otoacoustic emissions: An alternative approach to school screening. Clinical Applications of Otoacoustic Emissions Symp, Nottingham, November 1989, p10.

•Anderson SD, Kemp DT (1979): The evoked cochlear mechanical response in laboratory primates. Arch Otorhinolaryngol 224:47-54.

•Antonelli A, Grandori G (1986): Long term stability, influence of the head position and modeling considerations for evoked otoacoustic emissions. In: Cochlear Mechanics and Otoacoustic Emissions, G Cianfrone, F Grandori (Eds). Scand Audiol 15:97-108.

•Aran JM, Erre JP, Avan P (1994): Contralateral suppression of transient evoked otoacoustic emissions in guinea pigs: Effects of gentamicin. Br J Audiol 28:267-271.

•Arjmand EM, Karzon R, Gates GA (1992): Distortion product otoacoustic emissions in neonates at risk for sensorineural hearing loss: Normative Data. Otolaryngol Head Neck Surg Abstr 10:223.

•Atkins JH, Henley CM, Lonsbury-Martin BL, Martin GK (1990): Effects of a-difluoromethyl-ornithine on acoustic-distortion products in the developing pigmented rat. Abstr Assoc Res Otolaryngol 13:238.

•Atkins JH, Henley CM, Martin GK, Lonsbury-Martin BL (1990): Cochlear effects of u-difluoro-methylornithine in the developing rat. Am Acad Otolaryngol Head Neck Surg Abstr 9:28.

•Avan P, Bonfils P (1993): Frequency specificity of human distortion product otoacoustic emissions. Audiol 32:12-26.

•Avan P, Bonfils P (1994): Alterations of click-evoked otoacoustic emissions with high-frequency hearing losses in guinea pigs and humans. Abstr Assoc Res Otolaryngol 17:48.

•Avan P, Erre JP, Aran JM (1994): Efferent-mediated suppression of otoacoustic emissions in awake guinea pigs is reversibly blocked by gentamicin. Abstr Workshop on Inner Ear Biol 31: P28. •Avan P, Zine EA, Romand R (1995): Correlations between histological and functional changes in CD1 mouse with impaired outer hair cells. Abstr Assoc Res Otolaryngol 18:154.

•Avan P, Bonfils P, Loth D, Wit HP (1993): Temporal patterns of transient-evoked otoacoustic emissions in normal and impaired cochleae. Hear Res 70:109-120.

•Avan P, Loth D, Menguy C, Teyssou M (1990): Evoked otoacoustic emissions in guinea pig: Basic characteristics. Hear Res 44:151-160.

•Avan P, Loth D, Menguy C, Teyssou M (1991): Freguency dependence of changes in guinea-pig cochlear emissions after acoustic overstimulation. J Acoust 4:91-94.

•Avan P, Bonfils P, Loth D, Narcy P, Trotoux J (1991): Quantitative assessment of human cochlear function by evoked otoacoustic emissions. Hear Res 52:99-112.

•Avan P, Bonfils P, Loth D, Teyssou M, Menguy C (1993): Exploration of cochlear function by otoacoustic emissions - Relationship to pure-tone audiometry. In: Natural and Artificial Control of Hearing and Balance, Progr Br Res 97:67-75.

•Avan P, Bonfils P, Loth D, Trotoux J, Narcy P (1991): Quantitative evaluation of the residual function of the human cochlea by evoked otoacoustic emissions. Abstr Assoc Res Otolaryngol 14:67.

•Avan P, Bonfils P, Loth D, Trotoux J, Narcy P (1992): An evaluation of the frequency-specific information obtained from human acoustic distortion products. Abstr Assoc Res Otolaryngol15:152. •Baer JE, Hall JW (1992): Effects of nonpathologic factors on otoacoustic emissions. The Hear J 45:17-23.

•Baer JE, Hall JW (1993): Effects of subject gender on transient otoacoustic emissions. Abstr Assoc Res Otolaryngol 16:44.

•Baker RJ, Whitehead ML, Wilson JP (1988): Level-related changes in the frequency of tone- evoked otoacoustic emissions from human ears. Br J Audiol Abstr 22:143-144.

•Baker RJ, Wilson JP, Whitehead ML (1988): Suppression of spontaneous otoacoustic emissions (SOAEs) in frog. In: Abstr 25th Workshop on Inner Ear Biology, London.

•Baker RJ, Wilson JP, Whitehead ML (1989): Otoacoustic evidence for nonlinear behaviour in frogs' hearing: Suppression but no distortion products. In: Cochlear Mechanisms: Structure, Function and Models, JP Wilson, DT Kemp (Eds). New York, Plenum Pr, pp349-356.

•Baldwin M, Watkin P (1992): The clinical application of oto-acoustic emissions in paediatric audiological assessment. J Laryngol Otol 106:301-306.

•Balkany TJ, Telischi FF, Lonsbury-Martin BL, Martin GK (1994): Otoacoustic emissions in clinical practice. Am J Otol 15, Suppl 1:29-38.

•Bargones JY, Burns EM (1988): Suppression tuning curves for spontaneous otoacoustic emissions in infants and adults. J Acoust Soc Am 83:1809-1816.

•Barham WT, Berlin Cl, Hood LJ, Hurley A, Wakefield L (1995): Gender and ear differences in binaural, contralateral and ipsilateral efferent suppression of click evoked otoacoustic emissions. Abstr Assoc Res Otolaryngol 18:123. •Beck D, Probst R (1988): Das Verhalten der spontanen otoakustischen Emissionen unter Narkosebedingungen. Aktuelle Probleme Otorhinolaryngologie 11:313-318.

•Bell A (1992): Circadian and menstrual-linked frequency variations in spontaneous otoacoustic emissions from human ears. Hear Res 58:91-100.

•Berlin CI, Hood LJ, Hurley A, Wen H (1994): Contralateral suppression of otoacoustic emissions: An index of the function of the medial olivocochlear system. Otolaryngol Head Neck Surg 110:3- 21.

•Berlin Cl, Hood LJ, Hurley A, Wen H, Kemp D (1994): Bilateral and ipsilateral forward masking and TEOAE suppression. Abstr Assoc Res Otolaryngol 17:52.

•Berlin Cl, Hood LJ, Hurley A, Kemp DT, Wen H (1995): Binaural efferent suppression of linear click evoked otoacoustic emissions: Single click vs. four click train studies reveal an unexpected laterality effect of almost 10dB. Abstr Assoc Res Otolaryngol 18:122.

•Berlin Cl, Szabo P, Rigby P, Cecola RP, Hood LJ (1991): Contralateral stimulation and its effect on click-evoked otoacoustic emissions. Abstr Int Symp on Otoacoustic Emissions, Kansas City, p27.

•Berlin CI, Szabo P, Cecola RP, Hood LJ, Rigby P, Erato R, Fontenot C, Allen JB (1991): Comparison of evoked otoacoustic emissions and distortion product emissions via the Kemp and cubic distortion product systems. Abstr Assoc Res. Otolaryngol 14:66.

•Berlin Cl, Szabo P, Rigby P, Cecola RP, Hood LJ, Allen, JB (1991): Contralateral stimulation and its effect on click-evoked and distortion product emissions. Abstr Assoc Res Otolaryngol 14:83.

•Berlin Cl, Hood LJ, Wen H, Szabo P, Cecola RP, Rigby P, Jackson DF (1993): Contralateral suppression of non-linear click-evoked otoacoustic emissions. Hear Res 71:1-11.

•Bess FH, Paradise JL (1994): Universal screening for infant hearing impairment: Not simple, not risk-free, not necessarily beneficial, and not presently justified. Ped 93:330-334.

•Bialek W (1983): Thermal noise and active processes in the inner ear: Relating theory to experiment. In: Hearing-Physiological Bases and Psychophysics, R Klinke and R Hartmann (Eds). New York: Springer-Verlag, pp51-57.

•Bialek W, Wit HP (1984): Quantum limits to oscillator stability: Theory and experiments on acoustic emissions from the human ear. Phys Lett 104A:173-178.

•Bilger RC, Matthies ML, Hammel DR, Demorest ME (1990): Genetic implications of gender differences in the prevalence of spontaneous otoacoustic emissions. J Sp Hear Res 33: 418-432.

•Bishop JE (1991): Lab notes: Screening infants for hearing damage. Wall Street J, October 14, B1.

•Bobbin RP, Fallon M, Crist J, Kujawa S, Erostegui C (1993): Intracochlear ATP reduced low intensity acoustic distortion products and CAP but does not change isolated OHC length. Abstr Assoc Res Otolaryngol 16:102.

•Boettcher FA, Gratton MA (1993): Resistance to noise-induced hearing loss in the Mongolian gerbil. Soc Neurosci Abstr 19:1421.

•Bonfils P (1989): Spontaneous otoacoustic emissions: Clinical interest. Laryngosc 99:752-756. •Bonfils P, Avan P (1992): Distortion-product otoacoustic emissions: Values for clinical use. Arch Otolaryngol Head Neck Surg 118:1069-1076.

•Bonfils P, Uziel A (1987): Recrutement et diplacousie-Conception physiopathologique actuelle. Ann Otolaryngol 104:213-217.

•Bonfils P, Uziel A (1988): Evoked otoacoustic emissions in patients with acoustic neuromas. Am J Otol 9:412-417.

•Bonfils P, Uziel A (1989): Clinical applications of evoked acoustic emissions: Results in normally hearing and hearing-impaired subjects. Ann Otol Rhinol Laryngol 98:326-332.

•Bonfils P, Bertrand Y, Uziel A (1988): Evoked otoacoustic emissions: Normative data and presbycusis. Audiol 27:27-35.

•Bonfils P, Uziel A, Narcy P (1988): Apport des emission acoustiques cochleaires en audiologie pediatrique. Ann Otolaryngol 105:109-113.

•Bonfils P, Uziel A, Narcy P (1989): The properties of spontaneous and evoked acoustic emissions in neonates and children: A preliminary report. Arch Otol Rhinol Laryngol 246:249-251.

•Bonfils P, Uziel A, Pujol R (1987): Oto-acoustic emissions. I. Evoked oto-emissions a new technic of functional study of the cochlea. Ann Otolaryngol Chir-Cervicofac. 104:353-360.

•Bonfils P, Uziel A, Pujol R (1988): Screening for auditory dysfunction in infants by evoked oto- acoustic emissions. Arch Otolaryngol Head Neck Surg 114:887-890.

•Bonfils P, Uziel A, Pujol R (1988): Evoked otoacoustic emissions: A fundamental and clinical survey. ORL 50:212-218.

•Bonfils P, Uziel A, Pujol R (1988): Evoked otoacoustic emissions from adults and infants: Clinical applications. Acta Otolaryngol 105:445-449.

•Bonfils P, Avan P, Trotoux J, Narcy P (1991): Evaluation of the lower frequency limit of active mechanisms in human cochlea. Abstr Assoc Res Otolaryngol 14:65.

•Bonfils P, Avan P, Trotoux J, Narcy P (1992): Distortion-product otoacoustic emissions in neonates - Normative data. Acta Otolaryngol 112:739-744.

•Bonfils P, Piron J-P, Uziel A, Pujol R (1988): A correlative study of evoked otoacoustic emission properties and audiometric thresholds. Arch Oto Rhino Laryngol 245:53-56.

•Bonfils P, Avan P, Londero A, Trotoux J, Narcy P (1991): Objective low-frequency audiometry by distortion-product acoustic emissions. Arch Otolaryngol Head Neck Surg 117:1167-1171.

•Bonfils P, Dumont A, Marie P, Francois M, Narcy P (1990): Evoked otoacoustic emissions in newborn hearing screening. Laryngosc 100:186-189.

•Bonfils P, Avan P, Francois M, Marie P, Trotoux J, Narcy P (1990): Clinical significance of otoacoustic emissions: A perspective. Ear Hear 11:144-154.

•Bonfils P, Avan P, Elbez M, Deys S, Erminy M, Francois M (1994): Auditory threshold evaluation by distortion-product oto-acoustic emissions using decision support system. Acta Otolaryngol 1 1 4:360-365.

•Bonfils P, Francois M, Avan P, Londero A, Trotoux J, Narcy P (1992): Spontaneous and evoked otoacoustic emissions in preterm neonates. Laryngosc 102:182-186.

•Bornstein SP, McCormick C, Musiek FE (1992): Click-evoked otoacoustic response spectrum and the audiogram. Am Sp Lang Hear Assoc Abstr 34:73.

•Bornstein SP, Vedantan R, Musiek FE (1991): Normative values and test-retest reliability of evoked otoacoustic emissions. Am Sp Lang Hear Assoc Abstr 33:165.

•Bornstein SP, Warner KW, Musiek FE (1991): Use of otoacoustic emissions in a preschool hearing identification program. Am Sp Lang Hear Assoc Abstr 33:165.

•Brackett D, Maxon AB, Blackwell PM (1993): Intervention issues created by successful universal newborn hearing screening. Sem Hear 14:88-104.

•Brass D, Kemp DT (1991): Time-domain observation of otoacoustic emissions during constant tone stimulation. J Acoust Soc Am 90:2415-2427.

•Brass D, Kemp DT (1993): Suppression of stimulus frequency otoacoustic emissions. J Acoust Soc Am 93:920-939.

•Brass D, Kemp DT (1993): Analyses of Mossbauer mechanical measurements indicate that the cochlea is mechanically active. J Acoust Soc Am 93:1502-1515.

•Brass D, Kemp DT (1994): The objective assessment of transient evoked otoacoustic emissions in neonates. Ear Hear 15:371-377.

•Brass D, Kemp DT (1994): Quantitative assessment of methods for the detection of otoacoustic emissions. Ear Hear 15:378-389.

•Brass D, Watkins P, Kemp DT (1994): Assessment of an implementation of a narrow band, neonatal otoacoustic emission screening method. Ear Hear 15:467-475.

•Bray P (1989): Click evoked otoacoustic emissions and the development of a clinical otoacoustic hearing test instrument. London University, PhD Thesis.

•Bray P, Kemp DT (1987): An advanced cochlear echo technique suitable for infant screening. Br J Audiol 21:191-204.

•Breuer T, HerberhoId C, Rodel R (1994): 3-Dimensional representation of evoked otoacoustic emissions. Laryngo-Rhino-Otologie 73:113-117.

•Bright KE (1985): Microstructure audiograms and psychophysical tuning curves from subjects with spontaneous otoacoustic emissions. U of Arizona, PhD Thesis.

•Bright KE, Glattke TJ (1986): Spontaneous otoacoustic emissions in normal ears. In: Sensorineural Hearing Loss, MJ Collins, TJ Glattke, LA Harker (Eds). lowa City, lowa, University of lowa Pr, pp201-208.

•Bright KE, Glattke TJ (1984): Spontaneous otoacoustic emissions in normal listeners. Am Sp Lang Hear Assoc Abstr 26:147.

•Bright KE, Kastner-Wells L. Transiently-evoked otoacoustic emissions (TEOAEs) from industrial workers exposed to noise. In: Proc 1994 Int Congr Noise Control Engineering, Suzuki Y (ed). Yokohama, Japan: Inst Noise Control Engr/Japan 8 Acoust Soc Japan, 1994, pp775-780.

•Brown AM (1986): Some experimental observations of responses evoked from the cochlea during two-tone stimulation. ORL 48:124-134.

•Brown AM (1987): Acoustic distortion from rodent ears: A comparison of responses from rats, guinea pigs and gerbils. Hear Res 31:25-38.

•Brown AM (1988): Continuous low level sound alters cochlear mechanics: An efferent effect? Hear Res 34:27-38.

•Brown AM (1991): Acoustic distortion products and cochlear mechanics. Abstr Int Symp on Otoacoustic Emissions, Kansas City, p29.

•Brown AM (1993): Distortion in the cochlea: Acoustic f2-f1 at low stimulus levels. Hear Res 70:160-166.

•Brown AM (1994): Modulation of the hair cell motor: A possible source of odd-order distortion. J Acoust Soc Am 96:2210-2215.

•Brown AM, Gaskill SA (1989): Acoustic distortion may aid in the diagnosis of cochlear pathology. Clinical Applications of Otoacoustic Emissions Symp, Nottingham, November 1989, p5.

•Brown AM, Gaskill SA (1990): Can basilar membrane tuning be inferred from distortion measurements? In: Mechanics and Biophysics of Hearing, P Dallos, CD Geisler, JW Matthews, MA Ruggero, CR Steele (Eds). New York, Springer-Verlag, pp164-169.

•Brown AM, Gaskill SA (1990): Measurement of acoustic distortion reveals underlying similarities between human and rodent mechanical responses. J Acoust Soc Am 88:840-849.

•Brown AM, Gaskill SA (1992): The origin of acoustic distortion in the cochlea. J Acoust Soc Am Abstr 91:2408.

•Brown AM, Kemp DT (1984): Oto-acoustic emissions: The iso-suppression tuning properties of the distortion product 2f1-f2 in gerbil and man. Br J Audiol Abstr 14:123-124.

•Brown AM, Kemp DT (1984): Suppressibility of the 2f]-fp stimulated acoustic emissions in gerbil and man. Hear Res 13:29-37.

•Brown AM, Kemp DT (1985): Intermodulation distortion in the cochlea: Could basal vibration be the major cause of round window CM distortion? Hear Res 19:191-198.

•Brown AM, Williams DM (1993): A second filter in the cochlea. In: Proceed Int Symp Biophysics of Hair Cell Sensory Systems, H Duifhuis, JW Horst, P van Dijk, SM van Netten (eds). London:

•World Scientific, pp72-77.

•Brown AM, Gaskill SA, Williams DM (1992): Mechanical filtering of sound in the inner ear. Proc Roy Soc Lond 8 250:29-34.

•Brown AM, McDowell B, Forge A (1989); Acoustic distortion products can be used to monitor the effects of chronic gentamicin treatment. Hear Res 42:143-156.

•Brown AM, Sheppard SL, Russell PT (1994): Immaturity in the mechanical response of the new- born infant cochlea. Abstr Workshop on Inner Ear Biol 31:5.

•Brown AM, Sheppard SL, Russell PT (1994): Acoustic distortion products (ADP) from the ears of term infants and young adults using low stimulus levels. Br J Audiol 28:273-280. < li>Brown AM, Sheppard SL, Russell PT (1995): Evidence of functional maturation occurring in the new-born infant cochlea. Abstr Assoc Res Otolaryngol 18:191.

•Brown AM, Sheppard SL, Russell PT (1994): Acoustic distortion products (ADP) from the ears of term infants and young adults using low stimulus levels. Br J Audiol 28:273-280.

•Brown AM, Williams DM, Gaskill SA (1993): The effect of aspirin on cochlear mechanical tuning. J Acoust Soc Am 93:3298-3307.

•Brown AM, Woodward S, Gaskill SJ (1990): Frequency variations in spontaneous sound emissions from guinea pig and human ears. Eur Arch Otorhinolaryngol 247:24-28.

•Brown AM, Gaskill SA, Carlyon RP, Williams DM (1993): Acoustic distortion as a measure of frequency selectivity: Relation to psychophysical equivalent rectangular bandwidth. J Acoust Soc Am 93:3291-3297.

•Brown DK, Eggermont JJ, Kimberley BP (1995): The effect of intensity on the DPE measured round-trip travel time in adult humans. Abstr Assoc Res Otolaryngol 18:121.

•Brown SE, Norton SJ (1990): The effects of contralateral acoustic stimulation on the acoustic distortion product, 2f1-f2. Abstr Assoc Res Otolaryngol 13:230.

•Browne MW (1992): Ear's own sounds may underlie its precision. The New York Times, June 9.

•Brownell WE (1990): Outer hair cell electromotility and otoacoustic emissions. Ear Hear 11:82-92.

•Brummett RE, Lilly D, Henry J (1995): Some effects of aspirin and ibuprofen on the 2f1-f2 otoacoustic emission (DPOE) of the human. Abstr Assoc Res Otolaryngol 18:78.

•Burch-Sims GP, Ochs MT (1992): The anatomic and physiologic bases of otoacoustic emissions. The Hear J 45:9-11.

•Burns EM (1984): Further measurements and modeling of interactions among spontaneous oto- acoustic emissions. J Acoust Soc Am Abstr 76:S37.

•Burns EM, Wilson DA (1995): Longitudinal measurements of spontaneous otoacoustic emissions in children, revisited. Abstr Assoc Res Otolaryngol 18:126.

•Burns EM, Arehart KH, Campbell SL (1991): Prevalence of spontaneous otoacoustic emissions in neonates. Abstr Assoc Res Otolaryngol 14:66.

•Burns EM, Arehart KH, Campbell SL (1992): Longitudinal measurements of spontaneous otoacoustic emissions in infants. Abstr Assoc Res Otolaryngol 15:149.

•Burns EM, Arehart KH, Campbell SL (1992): Prevalence of spontaneous otoacoustic emissions in neonates. J Acoust Soc Am 91:1571-1575.

•Burns EM, Campbell SL, Arehart KH (1994): Longitudinal measurements of spontaneous otoacoustic emissions in infants. J Acoust Soc Am 95:385-394.

•Burns EM, Campbell SL, Arehart KH, Keefe DH (1993): Long-term stability of spontaneous otoacoustic emission. Abstr Assoc Res Otolaryngol 16:98.

•Burns EM, Harrison WA, Bulen JC, Keefe DH (1993): Voluntary contraction of the middle ear muscles: Effects on input impedance, energy reflectance and spontaneous otoacoustic emissions. Hear Res 67:117-127.

•Burns EM, Strickland E, Jones K, Tubis A (1984): The relationship of threshold fine structure to spontaneous and evoked otoacoustic emissions. J Acoust Soc Am Abstr 75:S82.

•Burns EM, Strickland EA, Tubis A, Jones K (1984): Interactions among spontaneous otoacoustic emissions. I. Distortion products and linked emissions. Hear Res 16:271-278.

•Callender TA, Brown MT, Martin GK, Franklin DJ, Lonsbury-Martin BL (1989): Effects of glycerol on cochlear function in rabbits with endolymphatic hydrops. Abstr Assoc Res Otolaryngol 12:106-107.

•Campbell KC, Hughes LF (1995): A comparison of contralateral suppression of otoacoustic emissions in Alzheimer Disease and matched control subjects. Abstr Assoc Res Otolaryngol 18: 70.

•Campbell M, Redhead J (1994): The clinical application af otoacoustic emissions. Aust J Oto- Laryngol 1:530-537.

•Cane MA, Lutman ME (1989): Incidence of EOAEs on patients undergoing acoustic neuroma surgery. Clinical Applications of Otoacoustic Emissions Symp, Nottingham, November 1989, p7.

•Cane MA, O'Donoghue GM (1989): Monitoring of click-evoked otoacoustic emissions during surgery. Clinical Applications of Otoacoustic Emissions Symp, Nottingham, November 1989, p4.

•Cane MA, O'Donoghue GM, Lutman ME (1992): The feasibility of using oto-acoustic emissions to monitor cochlear function during acoustic neuroma surgery. Scand Audiol 21:131-141.

•Canlon B, Fransson A (1995): Morphological and functional preservation of the outer hair cells from noise trauma by sound conditioning. Hear Res 84:112-124.

•Canlon B, Marklund K, Borg E (1993): Measures of auditory brain-stem responses, distortion product otoacoustic emissions, hair cell loss, and forward masked tuning curves in the waltzing

•guinea pig. J Acoust Soc Am 94:3232-3243.

•Castor X, Veuillet E, Morgon A, Collet L (1994): Influence of aging on active cochlear micromechanical properties and on the medial olivocochlear system in humans. Hear Res 77:1- 8.

•Cazals Y, Horner K (1987): No change detected on distortion products in awake anesthetized guinea pigs. Acta Otolaryngol 103:572-577.

•Champlin CA, Norton SJ (1987): The effects of intense pure tones on different spontaneous otoacoustic emissions in the same ear. Abstr Assoc Res Otolaryngol 10:20.

•Champlin CA, McFadden D (1989): Reductions in overshoot following intense sound exposures. J Acoust Soc Am 85:2005-2011.

•Champlin CA, Muller SP, Mitchell SA (1990): Acoustic measurements of objective tinnitus. J Sp Hear Res 33:816-821.

•Chang KW, Norton SJ (1995): Efferently mediated changes in the acoustic QDT. Abstr Assoc Res Otolaryngol 18:173.

•Chang KW, Vohr BR, Norton SJ, Lekas MD (1993): External and middle ear status related to evoked otoacoustic emission in neonates. Arch Otolaryngol Head Neck Surg 119:276-282.

•Chang SO, Jung HW, Chung JW, Kim CS (1992): The effects of ototoxic diuretics and hypoxia on click-evoked otoacoustic emissions in guinea pigs. Otolaryngol Head Neck Surg Abstr 10:224.

•Chery-Croze S, Moulin A, Collet L (1993): Effect of contralateral sound stimulation on the distortion product 2f1-f2 in humans: Evidence of a frequency specificity. Hear Res 68:53-58.

•Chery-Croze S, Truy E, Morgon A (1994): Contralateral suppression of transiently evoked otoacoustic emissions and tinnitus. Br J Audiol 28:255-266.

•Chery-Croze S, Moulin A, Collet L, Morgon A (1994): Is the test of medial efferent system function a relevant investigation in tinnitus. Br J Audiol 28:13-25.

•Chen C, Nenov AP, Norris CH, Kujawa SG, Bobbin RP (1994): Nitric oxide may be involved in the cochlear amplifier. Abstr Workshop on Inner Ear Biol 31:47.

•Chuang SW, Gerber SE, Thornton ARD (1993): Evoked otoacoustic emissions in preterm infants. •Int J Ped Otorhinolaryngol 26:39-45.

•Cianfrone G, Matte M (1986): Spontaneous otoacoustic emissions from normal human ears. Preliminary report. In: Cochlear Mechanics and Otoacoustic Emissions, G Cianfrone, F Grandori (Eds). Scand Audiol 15:121-128.

•Cianfrone G, Matte M, Turchetta R (1987): Spontaneous oto-acoustic emissions: Suppression induced by external tones. Proc 3rd Int Tinnitus Sem, Munster, pp86-92.

•Cianfrone G, Matte M, Cervellini M, Musacchio A (1993): Some effects of tonal fatiguing on spontaneous and distortion-product otoacoustic emissions. Br J Audiol 27:117-121.

•Cianfrone G, Altissimi G, Cervellini M, Musacchio A, Turchetta R (1994): Suppression tuning characteristics of 2f1-f2 distortion product otoacoustic emissions. Br J Audiol 28:205-212.

•Clark WW, He Y (1994): Distortion-product otoacoustic emissions after interrupted noise exposure in young and old chinchillas. Abstr Assoc Res Otolaryngol 17:50.

•Clark WW, Solmonson M (1987): Spontaneous otoacoustic emission from a chinchilla ear following exposure to noise. J Acoust Soc Am Abstr 82:S117.

•Clark WW, Kim DO, Bohne BA, Zurek PM (1983): Spontaneous otoacoustic emissions from chinchillas: I. Comparison of otoacoustic observations with cochlear histopathology. Abstr Assoc Res Otolaryngol 6:106-107.

•Clark WW, Kim DO, Zurek PM, Bohne BA (1984): Spontaneous otoacoustic emissions in chinchilla ear canals: Correlation with histopathology and suppression by external tones. Hear Res 16:299-314.

•Cody AR (1991): Focal lesions in the mammalian cochlea: Consequences for the spatial distribution of the "Active Process". Abstr Assoc Res Otolaryngol 14:64.

•Collet L (1991): Olivocochlear efferent effects on acoustic emissions in humans. Abstr Int Symp on Otoacoustic Emissions, Kansas City, p25.

•Collet L (1993): Use of otoacoustic emissions to explore the medial olivocochlear system in humans. Br J Audiol 27:155-159.

•Collet L (1994): Otoacoustic emissions in humans. Arch Internat de Physiologie de Biochimie et de Biophysique 102:A45-A53.

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