Full text loading...
No data available.
Please log in to see this content.
You have no subscription access to this content.
No metrics data to plot.
The attempt to load metrics for this article has failed.
The attempt to plot a graph for these metrics has failed.
Suppression of distortion product otoacoustic emissions and hearing threshold
1.Abdala, C. , Sininger, Y. S. , Ekelid, M. , and Zeng, F. G. (1996). “Distortion product otoacoustic emission suppression tuning curves in human adults and neonates,” Hear. Res. 98, 38–53.
2.Allen, J. B. , and Fahey, P. F. (1992). “Using acoustic distortion products to measure the cochlear amplifier gain on the basilar membrane,” J. Acoust. Soc. Am. 92, 178–188.
3.Bialek, W. S. , and Wit, H. P. (1984). “Quantum limits to oscillator stability: Theory and experiments on acoustic emissions from the human ear,” Phys. Lett. 104A, 1973–1978.
4.Brown, A. M. , and Kemp, D. T. (1984). “Suppressibility of the stimulated acoustic emissions in gerbil and man,” Hear. Res. 13, 29–37.
5.Brownell, W. E. (1983). “Observations on a motile response in isolated outer hair cells,” in Mechanisms of Hearing, edited by W. R. Webster and L. M. Aitkin (Monash University Press, Clayton, Australia), pp. 5–10.
6.Cai, Y. , and Geisler, C. D. (1996). “Suppression in auditory-nerve fibers of cats using low-side suppressors. III. Model results,” Hear. Res. 96, 126–140.
7.Cooper, N. P. (1996). “Two-tone suppression in cochlear mechanics,” J. Acoust. Soc. Am. 99, 3087–3098.
8.Dallos, P. (1988). “Cochlear neurobiology: Some key experiments and concepts of the past two decades,” in Auditory Function: Neurobiological Bases of Hearing, edited by G. W. Edelman, W. E. Gall, and M. Cowan (Wiley, New York), pp. 153–188.
9.deBoer, E. (1996) “Modeling the cochlea,” in The Cochlea, edited by P. Dallos, A. N. Popper, and R. R. Fay (Springer, New York), pp. 258–317.
10.Evans, E. F. , and Klinke, R. (1982). “The effects of intracochlear and systemic furosemide on the properties of single cochlear nerve fibers in the cat,” J. Physiol. (London) 331, 409–428.
11.Frank, G. , and Kossl, M. (1995). “The shape of suppression tuning curves reflects basilar membrane specializations in the moustached bat,” Hear. Res. 83, 151–160.
12.Geisler, C. D. , Yates, G. K. , Patuzzi, R. B. , and Johnstone, B. M. (1990). “Saturation of outer hair cell receptor currents causes two-tone suppression,” Hear. Res. 44, 241–256.
13.Geisler, C. D. , and Nuttall, A. L. (1997). “Two-tone suppression of basilar membrane vibrations in the base of the guinea pig cochlea using “low-side” suppressors,” J. Acoust. Soc. Am. 102, 430–440.
14.Gold, T. , and Pumphrey, R. J. (1948). “Hearing. I. The cochlea as a frequency analyzer,” Proc. R. Soc. London, Ser. B 135, 462–491.
15.Gold, T. (1948). “Hearing. II. The physical basis of the action of the cochlea,” Proc. R. Soc. London, Ser. B 135, 492–498.
16.Harris, F. P. (1990). “Distortion-product otoacoustic emissions in humans with high frequency sensorineural hearing loss,” J. Speech Hear. Res. 33, 594–600.
17.Harrison, R. V. (1981). “Rate-versus-intensity functions and related AP responses in normal and pathological guinea pig and human cochleas,” J. Acoust. Soc. Am. 70, 1036–1044.
18.Holley, M. C. (1996). “Outer hair cell motility,” in The Cochlea, edited by P. Dallos, A. N. Popper, and R. R. Fay (Springer, New York), pp. 386–434.
19.Kemp, D. T. (1978). “Stimulated acoustic emissions from within the human auditory system,” J. Acoust. Soc. Am. 64, 1386–1391.
20.Kemp, D. T. (1979). “Evidence of mechanical nonlinearity and frequency selective wave amplification in the cochlea,” Arch. Otorhinolaryngol.224, 37–45.
21.Kimberley, B. P., Brown, D. K., and Allen, J. B. (1997). “Distortion product otoacoustic emissions and sensorineural hearing loss,” in Otoacoustic Emissions: Clinical Applications, edited by M. S. Robinette and T. J. Glattke (Thieme, New York), pp. 181–204.
22.Koppl, C. , and Manley, G. A. (1993). “Distortion product otoacoustic emissions in the bobtail lizard. II. Suppression tuning characteristics,” J. Acoust. Soc. Am. 93, 2834–2844.
23.Kulik, R. (1995). “A synchronous averaging instrument for the measurement of distortion product otoacoustic emissions,” M.A.Sc. thesis, Department of Electrical and Computer Engineering, University of Toronto.
24.Kummer, P. , Janssen, T. , and Arnold, W. (1995). “Suppression tuning characteristics of the distortion product otoacoustic emission in humans,” J. Acoust. Soc. Am. 98, 197–210.
25.Liberman, M. C. , and Dodds, L. W. (1984). “Single-neuron labeling and chronic cochlear pathology. III. Stereocilia damage and alternations of threshold tuning curves,” Hear. Res. 16, 55–74.
26.Liberman, M. C. , and Kiang, N.Y. (1978). “Acoustic trauma in cats. Cochlear pathology and auditory-nerve activity,” Acta. Oto-Laryngol. Suppl. 358, 1–68.
27.Lonsbury-Martin, B. L. , and Martin, G. K. (1990). “The clinical utility of distortion-product otoacoustic emissions.” Ear Hear. 11, 144–154.
28.Martin, G. K. , Probst, R. , Scheinin, S. A. , Coats, A. C. , and Lonsbury-Martin, B. L. (1987). “Acoustic distortion products in rabbits. II. Sites of origin revealed by suppression and pure-tone exposures,” Hear. Res. 28, 191–208.
29.Martin, G. K. , Jassir, D. , Stagner, B. B. , Whitehead, M. L. , and Lonsbury-Martin, B. L. (1998a). “Locus of generation for the vs distortion-product otoacoustic emissions in normal-hearing humans revealed by suppression tuning, onset latencies, and amplitude correlations,” J. Acoust. Soc. Am. 103, 1957–1971.
30.Martin, G. K. , Jassir, D. , Stagner, B. B. , and Lonsbury-Martin, B. K. (1998b). “Effects of loop diuretics on the suppression tuning of distortion-product otoacoustic emissions in rabbits,” J. Acoust. Soc. Am. 104, 972–983.
31.Martin, G. K. , Stagner, B. B. , Jassir, D. , Telischi, F. F. , and Lonsbury-Martin, B. L. (1999). “Suppression and enhancement of distortion-product otoacoustic emissions by interference tones above I. Basic findings in rabbits,” Hear. Res. 136, 105–123.
32.Mills, D. M. , and Rubel, E. W. (1994). “Variation of distortion product otoacoustic emissions with furosemide injection.” Hear. Res. 77, 183–199.
33.Mills, D. M. (1997). “Interpretation of distortion product otoacoustic emission measurements. I. Two stimulus tones,” J. Acoust. Soc. Am. 102, 413–429.
34.Mills, D. M. (1998). “Interpretation of distortion product otoacoustic emission measurements. II. Estimating tuning characteristics using three stimulus tones,” J. Acoust. Soc. Am. 103, 507–523.
35.Nelson, D. A. , and Kimberley, B. P. (1992). “Distortion-product emissions and auditory sensitivity in human ears with normal hearing and cochlear hearing loss,” J. Speech Hear. Res. 35, 1142–1159.
36.Patuzzi, R. B. , Yates, G. K. , and Johnstone, B. M. (1989). “Outer hair cell receptor current and sensorineural hearing loss,” Hear. Res. 42, 47–72.
37.Patuzzi, R. B. (1996). “Cochlear micromechanics and macromechanics,” in The Cochlea, edited by P. Dallos, A. N. Popper, and R. R. Fay (Springer, New York), pp. 186–257.
38.Pienkowski, M. (2000). “Evidence for a relationship between the suppression of distortion product otoacoustic emissions and hearing threshold,” M.Sc. thesis, Department of Physiology, University of Toronto.
39.Plinkert, P. K. , and Zenner, H.-P. (1998). “Suppression of distortion product otoacoustic emissions (DPOAE) near removes DP-gram fine structure—Evidence for a secondary generator,” J. Acoust. Soc. Am. 103, 1527–1531.
40.Probst, R. , Lonsbury-Martin, B. L. , and Martin, G. K. (1991). “A review of otoacoustic emissions,” J. Acoust. Soc. Am. 89, 2027–2067.
41.Probst, R. , and Harris, F. P. (1997). “Otoacoustic emissions,” Adv. Oto-Rhino-Laryngol. 53, 182—204.
42.Rhode, W. S. (1977). “Some observations on two-tone interaction measured with the Mossbauer effect,” in Psychophysics and Physiology of Hearing, edited by E. F. Evans and J. P. Wilson (Academic, London).
43.Robles, L., Ruggero, M. A., and Rich, N. C. (1989). “Nonlinear interaction in the mechanical response of the cochlea to two-tone stimuli,” in Cochlear Mechanisms. Structure, Function and Models, edited by J. D. Wilson and D. T. Kemp (Plenum, New York), pp. 369–375.
44.Ruggero, M. A. , and Rich, N. C. (1991). “Furosemide alters organ of Corti mechanics: Evidence for feedback of outer hair cells upon the basilar membrane,” J. Neurosci. 11, 1057–1067.
45.Ruggero, M. A. , Robles, L. , and Rich, N. C. (1992a). “Two-tone suppression in the basilar membrane of the cochlea: Mechanical basis of auditory-nerve rate suppression,” J. Neurophysiol. 68, 1087–1099.
46.Ruggero, M. A. , Robles, L. , Rich, N. C. , and Recio, A. (1992b). “Basilar membrane responses to two-tone and broadband stimuli,” Philos. Trans. R. Soc. Lond. Biol. Sci. 336, 307–314.
47.Ryan, A. , and Dallos, P. (1975). “Effect of absence of cochlear outer hair cells on behavioral auditory threshold,” Nature (London) 253, 44–46.
48.Sellick, P. M. , Patuzzi, R. B. , and Johnstone, B. M. (1982). “Measurement of basilar membrane motion in the guinea pig using the Mossbauer technique,” J. Acoust. Soc. Am. 72, 131–141.
49.Taschenberger, G. , and Manley, G. A. (1998). “General characteristics and suppression tuning properties of the distortion-product otoacoustic emission in the barn owl,” Hear. Res. 123, 183–200.
50.Ulfendahl, M. (1997). “Mechanical responses of the mammalian cochlea,” Prog. Neurobiol. (Oxford) 53, 331–380.
51.Yates, G. K. (1995). “Cochlear structure and function,” in Hearing, edited by B. C. J. Moore (Academic, San Diego), pp. 41–74.
52.Zurek, P. (1981). “Spontaneous narrowband acoustic signals emitted by human ears,” J. Acoust. Soc. Am. 69, 514–522.
53.Zwicker, E. (1986). “Suppression and difference tones in a nonlinear cochlear preprocessing model with active feedback,” J. Acoust. Soc. Am. 80, 163–176.
Article metrics loading...