Human primary auditory cortex follows the shape of Heschl's gyrus.
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 cortexEffects of Aging and Adult-Onset Hearing Loss on Cortical Auditory RegionsUsing neuroimaging to understand the cortical mechanisms of auditory selective attentionHigh-Resolution Mapping of Myeloarchitecture In Vivo: Localization of Auditory Areas in the Human Brain.Representation of pitch chroma by multi-peak spectral tuning in human auditory cortex.Population receptive field estimates of human auditory cortexTopographical functional connectivity patterns exist in the congenitally, prelingually deafVowels and Consonants in the Brain: Evidence from Magnetoencephalographic Studies on the N1m in Normal-Hearing Listeners.Distinct Cortical Pathways for Music and Speech Revealed by Hypothesis-Free Voxel Decomposition.When Is the Brain Dead? Living-Like Electrophysiological Responses and Photon Emissions from Applications of Neurotransmitters in Fixed Post-Mortem Human BrainsDisproportionate Cochlear Length in Genus Homo Shows a High Phylogenetic Signal during Apes' Hearing Evolution.Auditory neuroimaging with fMRI and PET.Spontaneous high-gamma band activity reflects functional organization of auditory cortex in the awake macaqueCortical pitch regions in humans respond primarily to resolved harmonics and are located in specific tonotopic regions of anterior auditory cortexNeural decoding of discriminative auditory object features depends on their socio-affective valence.Tonotopic maps in human auditory cortex using arterial spin labeling.A genome-wide search for quantitative trait loci affecting the cortical surface area and thickness of Heschl's gyrus.Monaural and binaural contributions to interaural-level-difference sensitivity in human auditory cortexAreas activated during naturalistic reading comprehension overlap topological visual, auditory, and somatotomotor maps.Functional Topography of Human Auditory CortexIntracerebral evidence of rhythm transform in the human auditory cortex.Specific Regional and Age-Related Small Noncoding RNA Expression Patterns Within Superior Temporal Gyrus of Typical Human Brains Are Less Distinct in Autism Brains.Parcellation of Human and Monkey Core Auditory Cortex with fMRI Pattern Classification and Objective Detection of Tonotopic Gradient ReversalsLocalizing 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 fMRITuning in to sound: frequency-selective attentional filter in human primary auditory cortex.Descriptive anatomy of Heschl's gyri in 430 healthy volunteers, including 198 left-handers.Spectral organization of the human lateral superior temporal gyrus revealed by intracranial recordings.Sensory-motor integration during speech production localizes to both left and right plana temporale.Cortical response variation with different sound pressure levels: a combined event-related potentials and FMRI study.Speech and music shape the listening brain: evidence for shared domain-general mechanisms.Thalamic and cortical pathways supporting auditory processing.Enhanced peripheral visual processing in congenitally deaf humans is supported by multiple brain regions, including primary auditory cortex.Auditory-cortex short-term plasticity induced by selective attention.Processing of natural sounds: characterization of multipeak spectral tuning in human auditory cortex.Altered cross-modal processing in the primary auditory cortex of congenitally deaf adults: a visual-somatosensory fMRI study with a double-flash illusionSpatial organization of frequency preference and selectivity in the human inferior colliculus.Orthogonal acoustic dimensions define auditory field maps in human cortex.
P2860
Q21558379-C8039C1A-F3F8-458B-8E97-9A7805D562D3Q21558395-907F923A-2BF2-4E50-A879-8D75BEB7EB3EQ21558396-D2815308-BBFC-4092-91B3-4A3073E3F11CQ26744757-11FB0456-BC72-4373-A9F3-8AD6CE10A019Q26824258-36E84E79-70D9-4F56-9481-94374F6431FAQ27302950-86E56527-C316-40C7-8205-A9AD827DA191Q27307071-43771037-1B17-459F-A316-69B3E7DF96B4Q27307104-9779B4AE-A944-40DB-9A71-083FEBAF4812Q27331866-1198402D-E195-4A33-8C8A-0BAACCB946F4Q28075522-65152BCA-1012-4F5E-88B4-E341B9E627F4Q28271288-21D56F0C-ECCF-44CB-B1B4-93EC8295CB8FQ28554649-690B0E8F-6131-4FD0-909D-3C4421B79725Q28648277-F3A5FD0C-BAC4-4962-8F59-45ED1C2C9006Q28660586-5DD63D32-DAF1-4AA3-B735-130808F13035Q28728605-CA9A4D45-A439-45AF-8240-D93F27E7E6DEQ30356780-5CD348CC-565E-4268-B269-B18F99BF7FEBQ30357850-7B5F9DBD-828D-479C-8977-42E6C8B16891Q30361560-0AD1AC23-68EE-4D23-83D6-874357645CFBQ30365781-0E22E528-162B-4407-BFA4-1E19E594EA1CQ30372375-88775D49-F4EA-4E25-81BE-23C19573B08EQ30377079-DD70FC61-0D42-4D62-9F9D-19C97A1EE86EQ30378152-C26EF3A3-A570-489D-84F1-9BE111B02DDFQ30396611-D403B55C-0C52-4181-A04F-28F4ACFADB38Q30396876-219A4832-B733-4F93-842A-397E65C87190Q30402260-E4252708-5D6D-471E-B05E-9AFECE9136B5Q30410506-06A8769E-13F9-4DA7-A66B-ED0FCF74C504Q30412282-4AB370C8-F1C7-46E3-A1E4-9BA9298472E8Q30416972-C9C0AF12-F9B8-4E1E-821D-1AD98AFAB391Q30417414-753C090B-240B-4EE2-9DB1-3DC8738AB8A2Q30419665-521B2D13-F483-4044-855D-D46465CC2168Q30428550-36A91855-6E5C-4347-98B9-C1E738A4021EQ30429020-968015C3-F05B-48BB-9E11-437C9B8F6CF4Q30431853-66B804B5-703B-428F-A089-AD0EDF3CFD17Q30435558-4B7A84D0-A497-4A3C-A5BD-19CA377983F7Q30440288-CDDC19ED-4A10-43E1-B920-1CE727857D4BQ30442916-DBAB8442-537B-4A65-A5A3-98CF49A5D26AQ30444304-E6C89760-19D5-4C2A-A6FE-D29341907F7FQ30450308-CE83D900-2FA3-4F3F-9844-43BEEC073518Q30451987-55225E80-A251-488E-8AA5-4A87BE54C38DQ30453633-11369C5C-EFAF-476C-A8AA-C508A580A6E3
P2860
Human primary auditory cortex follows the shape of Heschl's gyrus.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh
2011年學術文章
@zh-hant
name
Human primary auditory cortex follows the shape of Heschl's gyrus.
@en
Human primary auditory cortex follows the shape of Heschl's gyrus.
@nl
type
label
Human primary auditory cortex follows the shape of Heschl's gyrus.
@en
Human primary auditory cortex follows the shape of Heschl's gyrus.
@nl
prefLabel
Human primary auditory cortex follows the shape of Heschl's gyrus.
@en
Human primary auditory cortex follows the shape of Heschl's gyrus.
@nl
P50
P1476
Human primary auditory cortex follows the shape of Heschl's gyrus
@en
P2093
Melissa Saenz
P304
14067-14075
P356
10.1523/JNEUROSCI.2000-11.2011
P407
P577
2011-10-01T00:00:00Z