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International Journal of Neuroscience Volume 22, 1983 - Issue 1-2
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Original Article

Evoked Responses to Frequency Shifted Tones: Tonotopic and Contextual Determinants

Charles D. Yingling Langley Porter Psychiatric Institute, University of California, San Francisco
&
Gail E. Nethercut Langley Porter Psychiatric Institute, University of California, San Francisco
Pages 107-118 | Received 05 Jul 1983, Published online: 07 Jul 2009

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Eylem Saraç Kaya, Meral Didem Türkyılmaz & Mehmet Yaralı. (2023) The evaluation of cochlear implant users’ acoustic change detection ability. Hearing, Balance and Communication 21:2, pages 130-138.
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M. K. Ganapathy, Vijay Kumar Narne, Mohan Kumar Kalaiah & P. Manjula. (2013) Effect of pre-transition stimulus duration on acoustic change complex. International Journal of Audiology 52:5, pages 350-359.
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Articles from other publishers (23)

Ivonne Weyers & Jutta L. Mueller. (2022) A Special Role of Syllables, But Not Vowels or Consonants, for Nonadjacent Dependency Learning. Journal of Cognitive Neuroscience 34:8, pages 1467-1487.
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Marcus O Harrington, Jennifer E Ashton, Hong-Viet V Ngo & Scott A Cairney. (2021) Phase-locked auditory stimulation of theta oscillations during rapid eye movement sleep. Sleep 44:4.
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Prawin Kumar, Niraj Kumar Singh, Himanshu Kumar Sanju & Ganapathy Mechiyanda Kaverappa. (2020) Feasibility of objective assessment of difference limen for intensity using acoustic change complex in children with central auditory processing disorder. International Journal of Pediatric Otorhinolaryngology 137, pages 110189.
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Prawin Kumar, Himanshu Kumar Sanju, Reesha Oovattil Hussain, Mechiyanda Kaverappa Ganapathy & Niraj Kumar Singh. (2020) Utility of Acoustic Change Complex as an Objective Tool to Evaluate Difference Limen for Intensity in Cochlear Hearing Loss and Auditory Neuropathy Spectrum Disorder. American Journal of Audiology 29:3, pages 375-383.
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Kazuhiro Noda, Tadashi Kitahara & Katsumi Doi. (2018) Sound Change Integration Error: An Explanatory Model of Tinnitus. Frontiers in Neuroscience 12.
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Alessandro Presacco & John C. Middlebrooks. (2018) Tone-Evoked Acoustic Change Complex (ACC) Recorded in a Sedated Animal Model. Journal of the Association for Research in Otolaryngology 19:4, pages 451-466.
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Annekathrin Weise, Erich Schröger & János Horváth. (2018) The detection of higher‐order acoustic transitions is reflected in the N1 ERP. Psychophysiology 55:7.
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Annekathrin Weise, Erich Schröger, Balázs Fehér, Tímea Folyi & János Horváth. (2012) Auditory event-related potentials reflect dedicated change detection activity for higher-order acoustic transitions. Biological Psychology 91:1, pages 142-149.
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Brett A. Martin, Arthur Boothroyd, Dassan Ali & Tiffany Leach-Berth. (2010) Stimulus Presentation Strategies for Eliciting the Acoustic Change Complex: Increasing Efficiency. Ear & Hearing 31:3, pages 356-366.
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Frank Michael Digeser, Torsten Wohlberedt & Ulrich Hoppe. (2009) Contribution of Spectrotemporal Features on Auditory Event-Related Potentials Elicited by Consonant-Vowel Syllables. Ear & Hearing 30:6, pages 704-712.
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Laura C. Amann, Tobias B. Halene, Richard S. Ehrlichman, Stephen N. Luminais, Nan Ma, Ted Abel & Steven J. Siegel. (2009) Chronic ketamine impairs fear conditioning and produces long-lasting reductions in auditory evoked potentials. Neurobiology of Disease 35:2, pages 311-317.
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Hillel Pratt, Arnold Starr, Henry J. Michalewski, Andrew Dimitrijevic, Naomi Bleich & Nomi Mittelman. (2009) Auditory-evoked potentials to frequency increase and decrease of high- and low-frequency tones. Clinical Neurophysiology 120:2, pages 360-373.
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Carolyn J. Brown, Christine Etler, Shuman He, Sara O'Brien, Sheryl Erenberg, Jae-Ryong Kim, Aayesha N. Dhuldhoya & Paul J. Abbas. (2008) The Electrically Evoked Auditory Change Complex: Preliminary Results from Nucleus Cochlear Implant Users. Ear & Hearing 29:5, pages 704-717.
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Kelly C. Harris, John H. Mills, Ning-Ji He & Judy R. Dubno. (2008) Age-related differences in sensitivity to small changes in frequency assessed with cortical evoked potentials. Hearing Research 243:1-2, pages 47-56.
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Andrew Dimitrijevic, Henry J. Michalewski, Fan-Gang Zeng, Hillel Pratt & Arnold Starr. (2008) Frequency changes in a continuous tone: Auditory cortical potentials. Clinical Neurophysiology 119:9, pages 2111-2124.
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Richard S. Ehrlichman, Christina R. Maxwell, Sonalee Majumdar & Steven J. Siegel. (2008) Deviance-elicited Changes in Event-related Potentials are Attenuated by Ketamine in Mice. Journal of Cognitive Neuroscience 20:8, pages 1403-1414.
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Brett A. Martin, Kelly L. Tremblay & Peggy Korczak. (2008) Speech Evoked Potentials: From the Laboratory to the Clinic. Ear & Hearing 29:3, pages 285-313.
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K. L. Tremblay, L. Friesen, B. A. Martin & R. Wright. (2003) Test-Retest Reliability of Cortical Evoked Potentials Using Naturally Produced Speech Sounds. Ear and Hearing 24:3, pages 225-232.
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Brett A. Martin & Arthur Boothroyd. (2000) Cortical, auditory, evoked potentials in response to changes of spectrum and amplitude. The Journal of the Acoustical Society of America 107:4, pages 2155-2161.
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Brett A. Martin & Arthur Boothroyd. (1999) Cortical, Auditory, Event-Related Potentials in Response to Periodic and Aperiodic Stimuli with the Same Spectral Envelope. Ear and Hearing 20:1, pages 33-44.
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J. J. Rotteveel. 1990. Evoked Potential Manual. Evoked Potential Manual 79 114 .
Pekcan Ungan, Babür Şahinoǧlu & Rezzan Utkuçal. (1989) Human laterality reversal auditory evoked potentials: stimulation by reversing the interaural delay of dichotically presented continuous click trains. Electroencephalography and Clinical Neurophysiology 73:4, pages 306-321.
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WALTON T. ROTH, JOSEPH J. TECCE, ADOLF PFEFFERBAUM, MARGARET ROSENBLOOM & ENOCH CALLAWAY. (1984) ERPs and Psychopathology I. Behavioral Process Issues. Annals of the New York Academy of Sciences 425:1 Brain and Inf, pages 496-522.
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