Tonotopic organization in human auditory cortex revealed by progressions of frequency sensitivity. - Wikidata - awgldk - TriplyDB

Tonotopic organization in human auditory cortex revealed by progressions of frequency sensitivity.

Tonotopic organization in human auditory cortex revealed by progressions of frequency sensitivity.

http://www.wikidata.org/entity/Q34276321

about

A unified framework for the organization of the primate auditory cortex.An anatomical and functional topography of human auditory cortical areas.Merging functional and structural properties of the monkey auditory cortex Consistency and variability in functional localisers Population receptive field estimates of human auditory cortex Topographical functional connectivity patterns exist in the congenitally, prelingually deaf Extensive cochleotopic mapping of human auditory cortical fields obtained with phase-encoding FMRI.Vowels and Consonants in the Brain: Evidence from Magnetoencephalographic Studies on the N1m in Normal-Hearing Listeners.Auditory neuroimaging with fMRI and PET.Integration of auditory and vibrotactile stimuli: effects of frequency.Cortical representations of pitch in monkeys and humans.Cortical pitch regions in humans respond primarily to resolved harmonics and are located in specific tonotopic regions of anterior auditory cortex Tonotopic maps in human auditory cortex using arterial spin labeling.Divergent Human Cortical Regions for Processing Distinct Acoustic-Semantic Categories of Natural Sounds: Animal Action Sounds vs. Vocalizations.Frequency Selectivity of Voxel-by-Voxel Functional Connectivity in Human Auditory Cortex Human Superior Temporal Gyrus Organization of Spectrotemporal Modulation Tuning Derived from Speech Stimuli Areas activated during naturalistic reading comprehension overlap topological visual, auditory, and somatotomotor maps.Functional Topography of Human Auditory Cortex Functional imaging of auditory cortex in adult cats using high-field fMRI.Auditory object perception: A neurobiological model and prospective review.Parcellation of Human and Monkey Core Auditory Cortex with fMRI Pattern Classification and Objective Detection of Tonotopic Gradient Reversals Localizing the human primary auditory cortex in vivo using structural MRI.Representation of Sound Objects within Early-Stage Auditory Areas: A Repetition Effect Study Using 7T fMRI Parcellation of the primary cerebral cortices based on local connectivity profiles Spectral organization of the human lateral superior temporal gyrus revealed by intracranial recordings.Auditory and tactile gap discrimination by observers with normal and impaired hearing Psychophysics and neuronal bases of sound localization in humans.Decoding speech for understanding and treating aphasia Estimating neural response functions from fMRI Processing of natural sounds: characterization of multipeak spectral tuning in human auditory cortex.Evidence for pitch chroma mapping in human auditory cortex Color and texture associations in voice-induced synesthesia.Integrated MEG/fMRI model validated using real auditory data Silent lipreading and covert speech production suppress processing of non-linguistic sounds in auditory cortex How challenges in auditory fMRI led to general advancements for the field.Auditory evoked magnetic fields in individuals with tinnitus.Spatial organization of frequency preference and selectivity in the human inferior colliculus.Orthogonal acoustic dimensions define auditory field maps in human cortex.In vivo functional and myeloarchitectonic mapping of human primary auditory areas Sensitivity to temporal modulation rate and spectral bandwidth in the human auditory system: fMRI evidence

P2860

Q21558379-8D0B7835-EEF3-4B7A-B72E-3D0F8758ABA4 Q21558395-026436E5-67B6-417C-B4F8-CE0CB4CF7A8C Q21558396-1F6E6197-053C-4BC3-B729-FE37E54A1788 Q23891111-2E07E501-82FC-4F3B-AA68-9E4B025CC850 Q27307104-20C76F4B-AD41-4314-B681-9A6A6967C3B1 Q27331866-DC00DA86-FF9B-4827-A70E-43A5F0253997 Q27349816-4DD0CB06-34BE-47D7-AEA9-6F4F0597B785 Q28075522-36DC19BB-5A7F-4149-86B3-B2A5A55E8BC2 Q28660586-A8C67B8D-5A75-43D1-9C4A-943B24DCE805 Q28751702-FD2F2958-166A-4762-80EA-350EB7F9E4D3 Q30355500-1114EE96-C733-451A-AACD-08FACA220252 Q30356780-1619AFA7-11A9-4DC0-A8D1-0CAE61C643D1 Q30361560-DE284344-8B48-4EC5-8037-83112257D787 Q30365329-99DEACCA-DECD-40DC-B030-474D14381571 Q30366660-CD3126E9-A91C-402A-874E-9BCCDBE28302 Q30376752-216C45E6-99A6-4E4F-93C8-3899A761860D Q30377079-743BECA9-DF55-42D0-BBFF-AA386E1E03D4 Q30378152-6D071772-4C0C-4BE8-8684-3758B89A820E Q30390737-861DE0BD-C0D6-4F8D-A039-38B9CC66BDFB Q30401625-F850B0D7-EE1C-437D-A352-C382997C8196 Q30402260-D46CE694-897A-4CA5-A012-200BD046C7AE Q30410506-1EF8BF5A-9F1E-4006-9116-5AF5376B8371 Q30412282-B6B29786-389E-4E09-B9E2-0D4C314F2A17 Q30412321-65BC6EF2-5FC1-41D0-9C4E-DF644883611C Q30419665-ACF7F896-920B-4C48-A06C-A15453DB777A Q30419756-C8F3829D-63E1-4388-B66E-D42F901A6328 Q30421745-E8294A3E-BB0C-4BE1-8F9F-0161ADDF2E21 Q30437286-A96C14CA-2EDF-41A6-8E49-0DE9402E703E Q30438275-3809C207-D799-4DF3-8A14-4010B3D55EDF Q30444304-F1B76281-EE5D-4B2C-8438-522CCEE1A5BE Q30448244-77C9379A-48E7-4378-A489-153F2D72759C Q30449421-36F4A38E-F184-4813-8398-6DFF573AE642 Q30449729-D23169FD-C355-4033-B6EA-1247DFB51986 Q30450715-A74AA96C-5936-42DE-BD9C-E0D394A0F27A Q30450757-E0F6813D-B903-4919-8E80-92551072E3FE Q30451435-6B6C6DDF-A12E-4B1F-9296-0E97025B4C77 Q30451987-4970EA97-356A-4416-8220-057E04CC0296 Q30453633-638D3FB7-799E-4940-A244-97EAB5092964 Q30454641-C107B152-6244-41FD-9263-B8A977B8A723 Q30455461-E6183CF6-0D64-4A04-B490-5C585F07C4F6

P2860

Tonotopic organization in human auditory cortex revealed by progressions of frequency sensitivity.

http://www.wikidata.org/entity/Q34276321

description

2003 nî lūn-bûn

@nan

2003 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

@hyw

2003 թվականի նոյեմբերին հրատարակված գիտական հոդված

@hy

2003年の論文

@ja

2003年論文

@yue

2003年論文

@zh-hant

2003年論文

@zh-hk

2003年論文

@zh-mo

2003年論文

@zh-tw

2003年论文

@wuu

name

Tonotopic organization in huma ...... ions of frequency sensitivity.

@ast

Tonotopic organization in huma ...... ions of frequency sensitivity.

@en

Tonotopic organization in huma ...... ions of frequency sensitivity.

@nl

type

label

Tonotopic organization in huma ...... ions of frequency sensitivity.

@ast

Tonotopic organization in huma ...... ions of frequency sensitivity.

@en

Tonotopic organization in huma ...... ions of frequency sensitivity.

@nl

prefLabel

Tonotopic organization in huma ...... ions of frequency sensitivity.

@ast

Tonotopic organization in huma ...... ions of frequency sensitivity.

@en

Tonotopic organization in huma ...... ions of frequency sensitivity.

@nl

P1433

Q34276321-E59D4597-AD84-4756-B9B1-85BD79AACD08

P1476

Q34276321-6E98B39A-B907-4255-BEDC-0DF97A30AF31

P2093

Q34276321-1689CAEA-3CDB-4732-97CC-D88BA0DC69DC

Q34276321-272D446E-43FE-4645-AD5F-38813CDFAEFA

Q34276321-AC99E59A-8977-43B4-B125-0010937A7CD7

Q34276321-C3E68538-F582-4AC7-A09A-EC656BBCD3AF

P2860

Q34276321-123C2A57-B134-4759-9050-F0B50E5CFDDD

Q34276321-14BB3F66-B951-445B-A720-9B292D45FE28

Q34276321-1708021D-03E2-4C44-B6A8-658A918FE7FD

Q34276321-18D62467-DC0D-4178-83B1-9E492B46699B

Q34276321-260B52B5-72E6-4F9C-B8B2-9F4D27CD2A32

Q34276321-2683C663-F15D-41F8-8B02-E384D49D08F4

Q34276321-2DC8FA0C-2B86-4D51-8708-81A5A755DD96

Q34276321-436D6B5A-3E97-4590-902E-16B649AFED0E

Q34276321-4842F59E-7FF4-4AAE-A0BB-C5166989E762

Q34276321-51E4E680-0E65-4FD0-A0A4-6ABC17D1DBB9

P304

Q34276321-A1055D6E-A066-47E0-B192-E8EFC1E549C1

P31

Q34276321-C0B8AE9E-B3E1-4311-87BF-9EF45E18ED3C

P356

Q34276321-E18BD063-EDDD-42FC-A2AC-B748FD2B66C7

P407

Q34276321-99B8182E-7C0F-4BF6-A3BF-0876F54F6EBB

P433

Q34276321-3A68F86A-AAA7-42C4-9DAB-8308DF497831

P478

Q34276321-4BBB32E4-7B4E-4983-9977-52FF647A7A2C

P50

Q34276321-BE6D67E4-F359-4216-9D15-149D74E65275

Q34276321-C62EA14E-2480-43EB-BBC5-CE8DB511BF86

P577

Q34276321-39291D04-4205-46CF-A72D-2CB51C24973B

P5875

Q34276321-6F9BCF72-B32C-4802-8ACB-3626E4E4FC88

P698

Q34276321-66E37011-76AF-49A1-9131-55FBD9686F67

P356

P1433

Journal of Neurophysiology

P1476

Tonotopic organization in huma ...... ions of frequency sensitivity.

@en

P2093

Bruce R Rosen

http://www.w3.org/2001/XMLSchema#string

Jennifer R Melcher

http://www.w3.org/2001/XMLSchema#string

Patrick J Ledden

http://www.w3.org/2001/XMLSchema#string

Thomas M Talavage

http://www.w3.org/2001/XMLSchema#string

P2860

Borders of multiple visual areas in humans revealed by functional magnetic resonance imaging

Dynamic magnetic resonance imaging of human brain activity during primary sensory stimulation

Cortical Surface-Based Analysis

Intrinsic signal changes accompanying sensory stimulation: functional brain mapping with magnetic resonance imaging

Cortical surface-based analysis. II: Inflation, flattening, and a surface-based coordinate system

Brain magnetic resonance imaging with contrast dependent on blood oxygenation

Reorganization of auditory cortex in tinnitus

Magnetic localization of neuronal activity in the human brain.

Representation of the cochlear partition of the superior temporal plane of the macaque monkey.

Tonotopic organization in human auditory cortex revealed by positron emission tomography.

P304

1282-1296

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1152/JN.01125.2002

http://www.w3.org/2001/XMLSchema#string

P407

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

91

http://www.w3.org/2001/XMLSchema#string

P50

Martin I. Sereno

P577

2003-11-12T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

6852757

http://www.w3.org/2001/XMLSchema#string

P698

14614108

http://www.w3.org/2001/XMLSchema#string