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Audiology Volume 14, 1975 - Issue 5-6
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Original Article

Reexamination of Effects of Stimulus Rate and Number on the Middle Components of the Averaged Electroencephalic Response

William H. McFarland Department of Communicative Disorders, University of Wisconsin, Madison, Wisc
,
Michael C. Vivion Department of Communicative Disorders, University of Wisconsin, Madison, Wisc
,
Kenneth E. Wolf Department of Communicative Disorders, University of Wisconsin, Madison, Wisc
&
Robert Goldstein Department of Communicative Disorders, University of Wisconsin, Madison, Wisc
Pages 456-465 | Published online: 07 Jul 2009

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Nina Kraus, D. Ian Smith & Therese McGee. (1987) Rate and Filter Effects on the Developing Middle-Latency Response. Audiology 26:5, pages 257-268.
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Iwao Kadobayashi, Yasuhiko Kira, Akiteru Toyoshimah & Hidetoshi Nishijimac. (1984) A Study of Auditory Middle Latency Responses in Relation to Electrode Combinations and Stimulus Conditions. Audiology 23:5, pages 509-519.
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M. Scherg. (1982) Distortion of the Middle Latency Auditory Response Produced by Analog Filtering. Scandinavian Audiology 11:1, pages 57-60.
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M. C. Vivion, J. E. Hirsch, J. L. Frye-osier & R. Goldstein. (1980) Effects of Stimulus Rise-Fall Time and Equivalent Duration on Middle Components of AER. Scandinavian Audiology 9:4, pages 223-232.
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Kazuoki Kodera, Osamu Yamada, Hitoshi Yamane & Jun-Ichi Suzuki. (1978) Effects of Number and Interstimulus Interval of Tone Pips on Fast Responses. Audiology 17:6, pages 500-510.
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Michael C. Vivion, Robert Goldstein, Kenneth E. Wolf & William H. McFarland. (1977) Middle Components of Human Auditory Averaged Electroencephalic Response: Waveform Variations During Averaging. Audiology 16:1, pages 21-37.
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Articles from other publishers (19)

Fran López‐Caballero, Brian Coffman, Dylan Seebold, Tobias Teichert & Dean F. Salisbury. (2022) Intensity and inter‐stimulus‐interval effects on human middle‐ and long‐latency auditory evoked potentials in an unpredictable auditory context . Psychophysiology 60:4.
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Xiao-Dan Tan, Xian Peng, Changan A. Zhan & Tao Wang. (2016) Comparison of Auditory Middle-Latency Responses From Two Deconvolution Methods at 40 Hz. IEEE Transactions on Biomedical Engineering 63:6, pages 1157-1166.
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Christina R Maxwell, Yuling Liang, Bryanne D Weightman, Stephen J Kanes, Ted Abel, Raquel E Gur, Bruce I Turetsky, Warren B Bilker, Robert H Lenox & Steven J Siegel. (2004) Effects of Chronic Olanzapine and Haloperidol Differ on the Mouse N1 Auditory Evoked Potential. Neuropsychopharmacology 29:4, pages 739-746.
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Toshiaki Onitsuka, Hideaki Ninomiya, Eigo Sato, Tomoya Yamamoto & Nobutada Tashiro. (2003) Differential characteristics of the middle latency auditory evoked magnetic responses to interstimulus intervals. Clinical Neurophysiology 114:8, pages 1513-1520.
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Hillel Pratt, Naomi Mittelman, Naomi Bleich & Menashe Zaaroor. (2002) Band-Pass Specific Contributions of Multiple Generators to the Auditory 40-Hz SteadyState Potentials. Ear and Hearing 23:1, pages 41-48.
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Hideaki Ninomiya, Eigo Sato, Toshiaki Onitsuka, Takaharu Hayashida & Nobutada Tashiro. (2000) Auditory P50 obtained with a repetitive stimulus paradigm shows suppression to high-intensity tones. Psychiatry and Clinical Neurosciences 54:4, pages 493-497.
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Toshiaki Onitsuka, Hideaki Ninomiya, Eigo Sato, Tomoya Yamamoto & Nobutada Tashiro. (2000) The effect of interstimulus intervals and between-block rests on the auditory evoked potential and magnetic field: is the auditory P50 in humans an overlapping potential?. Clinical Neurophysiology 111:2, pages 237-245.
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CHUNG-HO CHEN, HIDEAKI NINOMIYA & TOSHIAKI ONITSUKA. (1997) Influence of reference electrodes, stimulation characteristics and task paradigms on auditory P50. Psychiatry and Clinical Neurosciences 51:3, pages 139-143.
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Hideaki Ninomiya, Toshiaki Onitsuka, Chung-Ho Chen & Naoko Kinukawa. (1997) Possible overlapping potentials of the auditory P50 in humans: factor analysis of middle latency auditory evoked potentials. Electroencephalography and Clinical Neurophysiology/Evoked Potentials Section 104:1, pages 23-30.
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N.A. Shaw. (1995) The temporal relationship between the brainstem and primary cortical auditory evoked potentials. Progress in Neurobiology 47:2, pages 95-103.
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David L. Woods, Claude Alain, Diego Covarrubias & Oren Zaidel. (1995) Middle latency auditory evoked potentials to tones of different frequency. Hearing Research 85:1-2, pages 69-75.
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Anthony T. Cacace, Saty Satya-Murti & Jonathan R. Wolpaw. (1990) Human middle-latency auditory evoked potentials: vertex and temporal components. Electroencephalography and Clinical Neurophysiology/Evoked Potentials Section 77:1, pages 6-18.
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N. Kraus, D.I. Smith & T. McGee. (1988) Midline and temporal lobe MLRs in the guinea pig originate from different generator systems: a conceptual framework for new and existing data. Electroencephalography and Clinical Neurophysiology 70:6, pages 541-558.
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P J Abbas. (1988) Electrophysiology of the auditory system. Clinical Physics and Physiological Measurement 9:1, pages 1-31.
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Barbara Cone-Wesson, Diane Kurtzberg & Herbert G. VaughanJr.Jr.. (1987) Electrophysiologic assessment of auditory pathways in high risk infants. International Journal of Pediatric Otorhinolaryngology 14:2-3, pages 203-214.
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R.J Erwin & J.S Buchwald. (1986) Midlatency auditory evoked responses: Differential recovery cycle characteristics. Electroencephalography and Clinical Neurophysiology 64:5, pages 417-423.
Crossref
Tokuro Suzuki, Minato Hirabayashi & Kiyoko Kobayashi. (2016) Effects of Analog and Digital Filtering on Auditory Middle Latency Responses in Adults and Young Children. Annals of Otology, Rhinology & Laryngology 93:3, pages 267-270.
Crossref
E. Colon, S. Visser, J. de Weerd & A. ZonneveldtA. Zonneveldt, J. L. Blom & J. J. Rotteveel. 1983. Evoked Potential Manual. Evoked Potential Manual 75 161 .
Iwao Kadobayashi, Akiteru Toyoshima & Nobukatsu Kato. (1981) Middle Latency Components of the Auditory Evoked Response: Lateral Differences and Changes by Mental Tasks. Psychiatry and Clinical Neurosciences 35:2, pages 123-128.
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