Stephan Getzmann. Eur J Neurosci 2011
Times Cited: 21
Times Cited: 21
Times Cited
Times Co-cited
Similarity
Cortical response to auditory motion suggests an asymmetry in the reliance on inter-hemispheric connections between the left and right auditory cortices.
Katrin Krumbholz, Nicola Hewson-Stoate, Marc Schönwiesner. J Neurophysiol 2007
Katrin Krumbholz, Nicola Hewson-Stoate, Marc Schönwiesner. J Neurophysiol 2007
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Effects of natural versus artificial spatial cues on electrophysiological correlates of auditory motion.
Stephan Getzmann, Jörg Lewald. Hear Res 2010
Stephan Getzmann, Jörg Lewald. Hear Res 2010
52
Right parietal cortex is involved in the perception of sound movement in humans.
T D Griffiths, G Rees, A Rees, G G Green, C Witton, D Rowe, C Büchel, R Turner, R S Frackowiak. Nat Neurosci 1998
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Cortical processing of change in sound location: smooth motion versus discontinuous displacement.
Stephan Getzmann, Jörg Lewald. Brain Res 2012
Stephan Getzmann, Jörg Lewald. Brain Res 2012
55
Perception of sound-source motion by the human brain.
Jason D Warren, Brandon A Zielinski, Gary G R Green, Josef P Rauschecker, Timothy D Griffiths. Neuron 2002
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A movement-sensitive area in auditory cortex.
F Baumgart, B Gaschler-Markefski, M G Woldorff, H J Heinze, H Scheich. Nature 1999
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Effect of auditory motion velocity on reaction time and cortical processes.
Stephan Getzmann. Neuropsychologia 2009
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42
Segregated processing of auditory motion and auditory location: an ERP mapping study.
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Hierarchical processing of sound location and motion in the human brainstem and planum temporale.
Katrin Krumbholz, Marc Schönwiesner, Rudolf Rübsamen, Karl Zilles, Gereon R Fink, D Yves von Cramon. Eur J Neurosci 2005
Katrin Krumbholz, Marc Schönwiesner, Rudolf Rübsamen, Karl Zilles, Gereon R Fink, D Yves von Cramon. Eur J Neurosci 2005
38
The effect of spatial adaptation on auditory motion processing.
Stephan Getzmann, Jörg Lewald. Hear Res 2011
Stephan Getzmann, Jörg Lewald. Hear Res 2011
53
Shared cortical systems for processing of horizontal and vertical sound motion.
Stephan Getzmann, Jörg Lewald. J Neurophysiol 2010
Stephan Getzmann, Jörg Lewald. J Neurophysiol 2010
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Detection and discrimination of simulated motion of auditory targets in the horizontal plane.
D W Grantham. J Acoust Soc Am 1986
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33
Polymodal motion processing in posterior parietal and premotor cortex: a human fMRI study strongly implies equivalencies between humans and monkeys.
F Bremmer, A Schlack, N J Shah, O Zafiris, M Kubischik, K Hoffmann, K Zilles, G R Fink. Neuron 2001
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EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis.
Arnaud Delorme, Scott Makeig. J Neurosci Methods 2004
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Responses of neurons in the inferior colliculus to dynamic interaural phase cues: evidence for a mechanism of binaural adaptation.
D McAlpine, D Jiang, T M Shackleton, A R Palmer. J Neurophysiol 2000
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Evidence for a sound movement area in the human cerebral cortex.
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Encoding of sound-source location and movement: activity of single neurons and interactions between adjacent neurons in the monkey auditory cortex.
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A comparison of visual and auditory motion processing in human cerebral cortex.
J W Lewis, M S Beauchamp, E A DeYoe. Cereb Cortex 2000
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Perception of stationary and moving sound following unilateral cortectomy.
Jörg Lewald, Sören Peters, Michael C Corballis, Markus Hausmann. Neuropsychologia 2009
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Human cortical representation of virtual auditory space: differences between sound azimuth and elevation.
Nobuya Fujiki, Klaus A J Riederer, Veikko Jousmäki, Jyrki P Mäkelä, Riitta Hari. Eur J Neurosci 2002
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23
Spatial processing in human auditory cortex: the effects of 3D, ITD, and ILD stimulation techniques.
Kalle J Palomäki, Hannu Tiitinen, Ville Mäkinen, Patrick J C May, Paavo Alku. Brain Res Cogn Brain Res 2005
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Evidence for opponent-channel coding of interaural time differences in human auditory cortex.
David A Magezi, Katrin Krumbholz. J Neurophysiol 2010
David A Magezi, Katrin Krumbholz. J Neurophysiol 2010
23
Motion-onset auditory-evoked potentials critically depend on history.
Ramona Grzeschik, Martin Böckmann-Barthel, Roland Mühler, Michael B Hoffmann. Exp Brain Res 2010
Ramona Grzeschik, Martin Böckmann-Barthel, Roland Mühler, Michael B Hoffmann. Exp Brain Res 2010
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Effect of attention on cortical processing of sound motion: an EEG study.
Jens Kreitewolf, Jörg Lewald, Stephan Getzmann. Neuroimage 2011
Jens Kreitewolf, Jörg Lewald, Stephan Getzmann. Neuroimage 2011
41
An event-related fMRI study of auditory motion perception: no evidence for a specialized cortical system.
Kevin R Smith, Kourosh Saberi, Gregory Hickok. Brain Res 2007
Kevin R Smith, Kourosh Saberi, Gregory Hickok. Brain Res 2007
23
Responses of inferior colliculus neurons to time-varying interaural phase disparity: effects of shifting the locus of virtual motion.
M W Spitzer, M N Semple. J Neurophysiol 1993
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Specific activation of the V5 brain area by auditory motion processing: an fMRI study.
Colline Poirier, Olivier Collignon, Anne G Devolder, Laurent Renier, Annick Vanlierde, Dai Tranduy, Christian Scheiber. Brain Res Cogn Brain Res 2005
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Mechanisms of sound localization in mammals.
Benedikt Grothe, Michael Pecka, David McAlpine. Physiol Rev 2010
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A new method for off-line removal of ocular artifact.
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Neuromagnetic recordings reveal the temporal dynamics of auditory spatial processing in the human cortex.
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Interaural time and level differences: integrated or separated processing?
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Human brain activation during passive listening to sounds from different locations: an fMRI and MEG study.
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Standardized low-resolution brain electromagnetic tomography (sLORETA): technical details.
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Dynamics of a temporo-fronto-parietal network during sustained spatial or spectral auditory processing.
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Sound motion evoked magnetic fields.
Jing Xiang, Sylvester Chuang, Daniel Wilson, Hiroshi Otsubo, Elizabeth Pang, Stephanie Holowka, Rohit Sharma, Ayako Ochi, Shiro Chitoku. Clin Neurophysiol 2002
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Minimum audible movement angle in the horizontal plane as a function of stimulus frequency and bandwidth, source azimuth, and velocity.
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Processing of auditory motion in inferior parietal lobule: evidence from transcranial magnetic stimulation.
Jörg Lewald, Mario Staedtgen, Roland Sparing, Ingo G Meister. Neuropsychologia 2011
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Human cortical auditory motion areas are not motion selective.
Kevin R Smith, Kayoko Okada, Kourosh Saberi, Gregory Hickok. Neuroreport 2004
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Effects of velocity and motion-onset delay on detection and discrimination of sound motion.
Stephan Getzmann. Hear Res 2008
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Neurons in cat primary auditory cortex sensitive to correlates of auditory motion in three-dimensional space.
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Nonparametric statistical testing of EEG- and MEG-data.
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A common cortical substrate activated by horizontal and vertical sound movement in the human brain.
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Auditory cortex neurons sensitive to correlates of auditory motion: underlying mechanisms.
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The auditory motion aftereffect: its tuning and specificity in the spatial and frequency domains.
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Auditory cortical neurons in the cat sensitive to the direction of sound source movement.
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Cortical motion deafness.
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Representation of interaural temporal information from left and right auditory space in the human planum temporale and inferior parietal lobe.
Katrin Krumbholz, Marc Schönwiesner, D Yves von Cramon, Rudolf Rübsamen, Nadim J Shah, Karl Zilles, Gereon R Fink. Cereb Cortex 2005
Katrin Krumbholz, Marc Schönwiesner, D Yves von Cramon, Rudolf Rübsamen, Nadim J Shah, Karl Zilles, Gereon R Fink. Cereb Cortex 2005
19
Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.