Spontaneous otoacoustic emissions in a nonhuman primate. I. Basic features and relations to other emissions
暂无分享,去创建一个
G. K. Martin | B. L. Lonsbury-Martin | B. Lonsbury-Martin | G. Martin | R. Probst | A. Coats | R. Probst | A. C. Coats | Alfred C. Coats | Glen K. Martin
[1] R R Coles,et al. A family with high-tone objective tinnitus , 1971, The Journal of Laryngology & Otology.
[2] E. Zwicker,et al. Acoustical responses and suppression-period patterns in guinea pigs , 1981, Hearing Research.
[3] W. Saunders,et al. Structural Pattern of the Organ of Corti. , 1967 .
[4] G. K. Martin,et al. Spontaneous, click-, and toneburst-evoked otoacoustic emissions from normal ears , 1986, Hearing Research.
[5] David T. Kemp,et al. Ear canal acoustic and round window electrical correlates of 2f 1- f 2 distortion generated in the cochlea , 1984, Hearing Research.
[6] E Zwicker,et al. Interrelation of different oto-acoustic emissions. , 1984, The Journal of the Acoustical Society of America.
[7] W. W. Clark,et al. The behavior of acoustic distortion products in the ear canals of chinchillas with normal or damaged ears. , 1982, The Journal of the Acoustical Society of America.
[8] Joe C. Adams,et al. Stimulated acoustic emissions in the ear canal of the gerbil , 1981, Hearing Research.
[9] G. Long,et al. Changes in Spontaneous and Evoked Otoacoustic Emissions and Corresponding Psychoacoustic Threshold Microstructures Induced by Aspirin Consumption , 1986 .
[10] G. Long. The microstructure of quiet and masked thresholds , 1984, Hearing Research.
[11] James D. Miller. Audibility curve of the chinchilla , 1970 .
[12] D. Kemp,et al. A Comparison of Mechanical Nonlinearities in the Cochleae of Man and Gerbil from Ear Canal Measurements , 1938 .
[13] D T Kemp,et al. Acoustic emission cochleography--practical aspects. , 1986, Scandinavian audiology. Supplementum.
[14] G. K. Martin,et al. Spontaneous otoacoustic emissions in the nonhuman primate: A survey , 1985, Hearing Research.
[15] Effects of moderately intense sound on auditory sensitivity in rhesus monkeys: behavioral and neural observations. , 1981, Journal of neurophysiology.
[16] J. P. Wilson,et al. Evidence for a cochlear origin for acoustic re-emissions, threshold fine-structure and tonal tinnitus , 1980, Hearing Research.
[17] G. K. Martin,et al. Spontaneous otoacoustic emissions in a nonhuman primate. II. Cochlear anatomy , 1988, Hearing Research.
[18] D T Kemp,et al. Physiologically active cochlear micromechanics--one source of tinnitus. , 1981, Ciba Foundation symposium.
[19] B. Lonsbury-Martin,et al. Acoustic distortion products in rabbit ear canal. I. Basic features and physiological vulnerability , 1987, Hearing Research.
[20] R Probst,et al. Otoacoustic emissions in ears with hearing loss. , 1987, American journal of otolaryngology.
[21] W M Rabinowitz,et al. Interaction of spontaneous oto-acoustic emissions and external sounds. , 1984, The Journal of the Acoustical Society of America.
[22] P M Zurek,et al. Spontaneous narrowband acoustic signals emitted by human ears. , 1981, The Journal of the Acoustical Society of America.
[23] B. Lonsbury-Martin,et al. Pure tone thresholds for the rhesus monkey , 1978, Hearing Research.
[24] E. Evans,et al. Animal models of tinnitus. , 1981, Ciba Foundation symposium.
[25] W. W. Clark,et al. Spontaneous otoacoustic emissions in chinchilla ear canals: Correlation with histopathology and suppression by external tones , 1984, Hearing Research.
[26] David T. Kemp,et al. Suppressibility of the 2 f 1- f 2 stimulated acoustic emissions in gerbil and man , 1984, Hearing Research.
[27] D. Lim. Cochlear micromechanics in understanding otoacoustic emission. , 1986, Scandinavian audiology. Supplementum.
[28] S. D. Anderson. Some ECMR properties in relation to other signals from the auditory periphery , 1980, Hearing Research.
[29] Cochlear nonlinearities inferred from two-tone distortion products in the ear canal of the alligator lizard , 1984, Hearing Research.
[30] M. Ruggero,et al. Spontaneous otoacoustic emissions in a dog , 1984, Hearing Research.
[31] D McFadden,et al. Partial dissociation of spontaneous otoacoustic emissions and distortion products during aspirin use in humans. , 1988, The Journal of the Acoustical Society of America.
[32] Evoked acoustic emissions from the human ear. I. Equipment and response parameters. , 1982, Scandinavian audiology.
[33] J. P. Wilson,et al. “A Family with High-Tonal Objective Tinnitus” - An Update , 1938 .
[34] D. McFadden,et al. Aspirin abolishes spontaneous oto-acoustic emissions. , 1984, The Journal of the Acoustical Society of America.
[35] C. Wier,et al. Spontaneous narrow-band oto-acoustic signals emitted by human ears: a replication. , 1984, The Journal of the Acoustical Society of America.
[36] D. T. Kemp,et al. Otoacoustic emissions, travelling waves and cochlear mechanisms , 1986, Hearing Research.
[37] J. E. Hawkins,et al. A direct approach to cochlear anatomy and pathology in man. , 1967, Archives of otolaryngology.
[38] E. Zwicker. Delayed evoked oto-acoustic emissions and their suppression by Gaussian-shaped pressure impulses , 1983, Hearing Research.
[39] E. M. Burns,et al. Interactions among spontaneous otoacoustic emissions. I. Distortion products and linked emissions , 1984, Hearing Research.
[40] D. Kemp. Stimulated acoustic emissions from within the human auditory system. , 1978, The Journal of the Acoustical Society of America.
[41] G. K. Martin,et al. Acoustic distortion products in rabbit ear canal. II. Sites of origin revealed by suppression contours and pure-tone exposures , 1987, Hearing Research.
[42] D. T. Kemp,et al. An Integrated View of Cochlear Mechanical Nonlinearities Observable from the Ear Canal , 1983 .
[43] E. M. Burns,et al. Incidence of spontaneous otoacoustic emissions in children and infants. , 1985, The Journal of the Acoustical Society of America.
[44] G. Bredberg,et al. Cellular pattern and nerve supply of the human organ of Corti. , 1968, Acta oto-laryngologica.
[45] Alexander Joseph. Book reviewDischarge patterns of single fibers in the cat's auditory nerve: Nelson Yuan-Sheng Kiang, with the assistance of Takeshi Watanabe, Eleanor C. Thomas and Louise F. Clark: Research Monograph no. 35. Cambridge, Mass., The M.I.T. Press, 1965 , 1967 .
[46] M. Vater,et al. Evoked acoustic emissions and cochlear microphonics in the mustache bat, Pteronotus parnellii , 1985, Hearing Research.
[47] B L Lonsbury-Martin,et al. Repeated TTS exposures in monkeys: alterations in hearing, cochlear structure, and single-unit thresholds. , 1987, The Journal of the Acoustical Society of America.
[48] W. W. Clark,et al. Narrow-band acoustic signals emitted by chinchilla ears after noise exposure , 1981 .
[49] Kemp Dt,et al. The evoked cochlear mechanical response and the auditory microstructure - evidence for a new element in cochlear mechanics. , 1979 .
[50] E. Schloth. Relation between spectral composition of spontaneous otoacoustic emissions and finestructure of threschold in quiet , 1983 .
[51] H. Wit,et al. Frequency analysis of stimulated cochlear acoustic emissions in monkey ears , 1982, Hearing Research.
[52] D. Mountain,et al. Changes in endolymphatic potential and crossed olivocochlear bundle stimulation alter cochlear mechanics. , 1980, Science.
[53] J. E. Hawkins,et al. LI Light Microscopic Observations of the Inner Ear in Man and Monkey , 1968, Annals of Otology, Rhinology and Laryngology.