Citation Relationships

Briley PM, Kitterick PT, Summerfield AQ (2013) Evidence for opponent process analysis of sound source location in humans. J Assoc Res Otolaryngol 14:83-101 [PubMed]

   Opponent-channel model of the cortical representation of auditory space (Briley et al., 2012)

References and models cited by this paper

References and models that cite this paper

Bell AJ, Sejnowski TJ (1995) An information-maximization approach to blind separation and blind deconvolution. Neural Comput 7:1129-59 [PubMed]

Briley PM, Breakey C, Krumbholz K (2012) Evidence for Pitch Chroma Mapping in Human Auditory Cortex. Cereb Cortex :

Brugge JF, Dubrovsky NA, Aitkin LM, Anderson DJ (1969) Sensitivity of single neurons in auditory cortex of cat to binaural tonal stimulation; effects of varying interaural time and intensity. J Neurophysiol 32:1005-24 [Journal] [PubMed]

Carr CE, Konishi M (1990) A circuit for detection of interaural time differences in the brain stem of the barn owl. J Neurosci 10:3227-46 [PubMed]

Clarke S, Bellmann A, Meuli RA, Assal G, Steck AJ (2000) Auditory agnosia and auditory spatial deficits following left hemispheric lesions: evidence for distinct processing pathways. Neuropsychologia 38:797-807 [PubMed]

Delorme A, Makeig S (2004) EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis. J Neurosci Methods 134:9-21 [Journal] [PubMed]

Gatehouse S, Noble W (2004) The Speech, Spatial and Qualities of Hearing Scale (SSQ). Int J Audiol 43:85-99 [PubMed]

Getzmann S (2009) Effect of auditory motion velocity on reaction time and cortical processes. Neuropsychologia 47:2625-33 [Journal] [PubMed]

Grantham DW (1995) Spatial hearing and related phenomena Hearing, Moore BC, ed. pp.297

Grill-Spector K, Henson R, Martin A (2006) Repetition and the brain: neural models of stimulus-specific effects. Trends Cogn Sci 10:14-23 [Journal] [PubMed]

Grothe B, Park TJ (1995) Time can be traded for intensity in the lower auditory system. Naturwissenschaften 82:521-3 [PubMed]

Grothe B, Pecka M, McAlpine D (2010) Mechanisms of sound localization in mammals. Physiol Rev 90:983-1012 [Journal] [PubMed]

Hall DA, Haggard MP, Akeroyd MA, Summerfield AQ, Palmer AR, Elliott MR, Bowtell RW (2000) Modulation and task effects in auditory processing measured using fMRI. Hum Brain Mapp 10:107-19 [PubMed]


Hewson-Stoate N, Schönwiesner M, Krumbholz K (2006) Vowel processing evokes a large sustained response anterior to primary auditory cortex. Eur J Neurosci 24:2661-71 [Journal] [PubMed]

Irvine DRF (1992) Physiology of the auditory brainstem The mammalian auditory pathway: neurophysiology, Popper A:Fay R, ed. pp.153

JEFFRESS LA (1948) A place theory of sound localization. J Comp Physiol Psychol 41:35-9 [PubMed]

Johnson BW, Hautus MJ (2010) Processing of binaural spatial information in human auditory cortex: neuromagnetic responses to interaural timing and level differences. Neuropsychologia 48:2610-9 [Journal] [PubMed]

Key AP, Dove GO, Maguire MJ (2005) Linking brainwaves to the brain: an ERP primer. Dev Neuropsychol 27:183-215 [Journal] [PubMed]

Kitterick PT, Lovett RE, Goman AM, Summerfield AQ (2011) The AB-York crescent of sound: an apparatus for assessing spatial-listening skills in children and adults. Cochlear Implants Int 12:164-9 [Journal] [PubMed]

Knudsen EI (1982) Auditory and visual maps of space in the optic tectum of the owl. J Neurosci 2:1177-94 [PubMed]

Konishi M (2003) Coding of auditory space. Annu Rev Neurosci 26:31-55 [Journal] [PubMed]

Krumbholz K, Hewson-Stoate N, Schönwiesner M (2007) Cortical response to auditory motion suggests an asymmetry in the reliance on inter-hemispheric connections between the left and right auditory cortices. J Neurophysiol 97:1649-55 [Journal] [PubMed]

Krumbholz K, Schönwiesner M, von Cramon DY, Rübsamen R, Shah NJ, Zilles K, Fink GR (2005) Representation of interaural temporal information from left and right auditory space in the human planum temporale and inferior parietal lobe. Cereb Cortex 15:317-24 [Journal] [PubMed]

Lee TW, Girolami M, Sejnowski TJ (1999) Independent component analysis using an extended infomax algorithm for mixed subgaussian and supergaussian sources. Neural Comput 11:417-41 [PubMed]

Litovsky RY, Macmillan NA (1994) Sound localization precision under conditions of the precedence effect: effects of azimuth and standard stimuli. J Acoust Soc Am 96:752-8 [PubMed]

Magezi DA, Krumbholz K (2010) Evidence for opponent-channel coding of interaural time differences in human auditory cortex. J Neurophysiol 104:1997-2007 [Journal] [PubMed]

Makeig S, Jung TP, Bell AJ, Ghahremani D, Sejnowski TJ (1997) Blind separation of auditory event-related brain responses into independent components. Proc Natl Acad Sci U S A 94:10979-84 [PubMed]

Makela JP, Ahonen A, Hari R, Ilmoniemi R, Kajola M, Knuutila J, Lounasmaa OV, Mcevoy L, Salme (1993) Functional differences between auditory cortices of the two hemispheres revealed by whole-head neuromagnetic recording Hum Brain Mapp 1:48-56

McAlpine D (2005) Creating a sense of auditory space. J Physiol 566:21-8 [Journal] [PubMed]

McAlpine D, Grothe B (2003) Sound localization and delay lines--do mammals fit the model? Trends Neurosci 26:347-50 [Journal] [PubMed]

McAlpine D, Jiang D, Palmer AR (2001) A neural code for low-frequency sound localization in mammals. Nat Neurosci 4:396-401 [Journal] [PubMed]

Middlebrooks JC, Green DM (1991) Sound localization by human listeners. Annu Rev Psychol 42:135-59 [Journal] [PubMed]

Morey RD (2005) Confidence intervals from normalized data: a correction to Cousineau (2005) Tutor Quant Methods Psychol 4:61-64

Morosan P, Rademacher J, Schleicher A, Amunts K, Schormann T, Zilles K (2001) Human primary auditory cortex: cytoarchitectonic subdivisions and mapping into a spatial reference system. Neuroimage 13:684-701 [Journal] [PubMed]

Näätänen R, Paavilainen P, Rinne T, Alho K (2007) The mismatch negativity (MMN) in basic research of central auditory processing: a review. Clin Neurophysiol 118:2544-90 [Journal] [PubMed]

Näätänen R, Picton T (1987) The N1 wave of the human electric and magnetic response to sound: a review and an analysis of the component structure. Psychophysiology 24:375-425 [PubMed]

Nunez PL, Srinivasan R (2006) Electric fields of the brain: the neurophysics of EEG 2nd ed.

Pantev C, Ross B, Berg P, Elbert T, Rockstroh B (2006) Study of the human auditory cortices using a whole-head magnetometer: left vs. right hemisphere and ipsilateral vs. contralateral stimulation. Audiol Neurootol 3:183-90

Phillips DP, Brugge JF (1985) Progress in neurophysiology of sound localization. Annu Rev Psychol 36:245-74 [Journal] [PubMed]

Phillips DP, Carmichael ME, Hall SE (2006) Interaction in the perceptual processing of interaural time and level differences. Hear Res 211:96-102 [Journal] [PubMed]

Phillips DP, Hall SE (2005) Psychophysical evidence for adaptation of central auditory processors for interaural differences in time and level. Hear Res 202:188-99 [Journal] [PubMed]

Phillips DP, Irvine DR (1981) Responses of single neurons in physiologically defined area AI of cat cerebral cortex: sensitivity to interaural intensity differences. Hear Res 4:299-307 [PubMed]

Pollak GD (1988) Time is traded for intensity in the bat's auditory system. Hear Res 36:107-24 [PubMed]

Recanzone GH, Guard DC, Phan ML, Su TK (2000) Correlation between the activity of single auditory cortical neurons and sound-localization behavior in the macaque monkey. J Neurophysiol 83:2723-39 [Journal] [PubMed]

ROSENZWEIG MR (1951) Representations of the two ears at the auditory cortex. Am J Physiol 167:147-58 [Journal] [PubMed]

Salminen NH, May PJ, Alku P, Tiitinen H (2009) A population rate code of auditory space in the human cortex. PLoS One 4:e7600 [Journal] [PubMed]

Salminen NH, Tiitinen H, Miettinen I, Alku P, May PJ (2010) Asymmetrical representation of auditory space in human cortex. Brain Res 1306:93-9 [Journal] [PubMed]

Salminen NH, Tiitinen H, Yrttiaho S, May PJ (2010) The neural code for interaural time difference in human auditory cortex. J Acoust Soc Am 127:EL60-5 [Journal] [PubMed]

Scheffler K, Bilecen D, Schmid N, Tschopp K, Seelig J (1998) Auditory cortical responses in hearing subjects and unilateral deaf patients as detected by functional magnetic resonance imaging. Cereb Cortex 8:156-63 [PubMed]

Scherg M (1990) Fundamentals of dipole source potential analysis. Auditory evoked potentials and fields: advances in audiology, Grandori F:Hoke M:Romani G, ed. pp.40

Schröger E (1996) Interaural time and level differences: integrated or separated processing? Hear Res 96:191-8 [PubMed]

Spierer L, Bellmann-Thiran A, Maeder P, Murray MM, Clarke S (2009) Hemispheric competence for auditory spatial representation. Brain 132:1953-66 [Journal] [PubMed]

Stecker GC, Harrington IA, Middlebrooks JC (2005) Location coding by opponent neural populations in the auditory cortex. PLoS Biol 3:e78 [Journal] [PubMed]

Sullivan WE, Konishi M (1986) Neural map of interaural phase difference in the owl's brainstem. Proc Natl Acad Sci U S A 83:8400-4 [PubMed]

Teder-Sälejärvi WA, Hillyard SA (1998) The gradient of spatial auditory attention in free field: an event-related potential study. Percept Psychophys 60:1228-42 [PubMed]

Teder-Sälejärvi WA, Hillyard SA, Röder B, Neville HJ (1999) Spatial attention to central and peripheral auditory stimuli as indexed by event-related potentials. Brain Res Cogn Brain Res 8:213-27 [PubMed]

Tsuchitani C, Johnson DH (1991) Binaural cues and signal processing in the superior olivary complex Neurobiology of hearing: the central auditory system, Altschuler RA:Bobbin RP:Clopton BM:Hoffman DW, ed. pp.163

Ungan P, Yagcioglu S, Goksoy C (2001) Differences between the N1 waves of the responses to interaural time and intensity disparities: scalp topography and dipole sources. Clin Neurophysiol 112:485-98 [PubMed]

van_Bergeijk WA (1962) Variation on a theme of Bekesy: a model of binaural interaction J Acoust Soc Am, Variation on a theme of Bekesy: a model of binaural interaction, ed. pp.1431

von_Bekesy G (1930) Zur theorie des hörens. Über das richtung- shören bei einer zeitdifferenz oder lautstarkenungleichheit der beiderseitigen schalleinwirkungen Phys Z 31:824-835-857-868

Webster DB, Popper AN, Fay RR (1992) The Mammalian Auditory Pathway: Neuroanatomy, Webster DB:Popper AN:Fay RR, ed.

Yin TC, Hirsch JA, Chan JC (1985) Responses of neurons in the cat's superior colliculus to acoustic stimuli. II. A model of interaural intensity sensitivity. J Neurophysiol 53:746-58

Zatorre RJ, Penhune VB (2001) Spatial localization after excision of human auditory cortex. J Neurosci 21:6321-8 [PubMed]

Briley PM, Summerfield AQ (2014) Age-related deterioration of the representation of space in human auditory cortex. Neurobiol Aging 35:633-44 [Journal] [PubMed]

   Revised opponent-channel model of auditory space cortical representation (Briley & Summerfield 2013) [Model]

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