RT Book, Section SR Print(0) ID 1101680502 T1 The Auditory Central Nervous System T2 Principles of Neural Science, Fifth Edition YR 2014 FD 2014 PB McGraw-Hill Education PP New York, NY SN 978-0-07-139011-8 LK neurology.mhmedical.com/content.aspx?aid=1101680502 RD 2024/03/28 AB Multiple Types of Information Are Present in SoundsThe Neural Representation of Sound Begins in the Cochlear NucleiThe Cochlear Nerve Imposes a Tonotopic Organization on the Cochlear Nuclei and Distributes Acoustic Information into Parallel PathwaysThe Ventral Cochlear Nucleus Extracts Information About the Temporal and Spectral Structure of SoundsThe Dorsal Cochlear Nucleus Integrates Acoustic with Somatosensory Information in Making Use of Spectral Cues for Localizing SoundsThe Superior Olivary Complex of Mammals Contains Separate Circuits for Detecting Interaural Time and Intensity DifferencesThe Medial Superior Olive Generates a Map of Interaural Time DifferencesThe Lateral Superior Olive Detects Interaural Intensity DifferencesEfferent Signals from the Superior Olivary Complex Provide Feedback to the CochleaBrain Stem Pathways Converge in the Inferior ColliculusSound Location Information from the Inferior Colliculus Creates a Spatial Map of Sound in the Superior ColliculusMidbrain Sound-Localization Pathways Are Sensitive to Experience in Early LifeThe Inferior Colliculus Transmits Auditory Information to the Cerebral CortexThe Auditory Cortex Maps Numerous Aspects of SoundAuditory Information Is Processed in Multiple Cortical AreasInsectivorous Bats Have Cortical Areas Specialized for Behaviorally Relevant Features of SoundA Second Sound-Localization Pathway from the Inferior Colliculus Involves the Cerebral Cortex in Gaze ControlAuditory Circuits in the Cerebral Cortex Are Segregated into Separate Processing StreamsThe Cerebral Cortex Modulates Processing in Subcortical Auditory AreasHearing Is Crucial for Vocal Learning and Production in Both Humans and SongbirdsNormal Vocal Behavior Cannot Be Learned in IsolationVocal Learning Is Optimal During a Sensitive PeriodBoth Humans and Songbirds Possess Specialized Neural Networks for VocalizationSongbirds Have Feature Detectors for Learned VocalizationsAn Overall View