363 results found
    1. Neuroscience

    Microsecond interaural time difference discrimination restored by cochlear implants after neonatal deafness

    Nicole Rosskothen-Kuhl et al.
    Early deaf human CI users are often insensitive to sub-millisecond interaural time differences (ITDs); however, with synchronized CIs, early deafened rats learned to lateralize small ITDs near 50 µs.
    1. Neuroscience

    Population rate-coding predicts correctly that human sound localization depends on sound intensity

    Antje Ihlefeld et al.
    Softer sound appears closer to midline than louder sound, conflicting with a labelled-line representation of auditory space and supporting the idea that humans use rate coding when calculating sound directionality.
    1. Neuroscience

    Decoding neural responses to temporal cues for sound localization

    Dan FM Goodman et al.
    Computer simulations of interaural time difference decoders show that heterogeneous tuning of binaural neurons leads to accurate sound localization in natural environments.
    1. Neuroscience

    Natural ITD statistics predict human auditory spatial perception

    Rodrigo Pavão et al.
    Human brain has incorporated natural statistics of spatial cues to the neural code supporting perception of sound location.
    1. Developmental Biology
    2. Neuroscience

    Conserved and divergent development of brainstem vestibular and auditory nuclei

    Marcela Lipovsek, Richard JT Wingate
    The development of brainstem auditory nuclei echoes the divergent evolutionary history of amniote auditory systems.
    1. Neuroscience

    Spatial cue reliability drives frequency tuning in the barn Owl's midbrain

    Fanny Cazettes et al.
    Space-specific neurons in the owl's auditory midbrain are selective for the frequencies that yield the most reliable sound localization cues.
    1. Neuroscience

    Principal cells of the brainstem’s interaural sound level detector are temporal differentiators rather than integrators

    Tom P Franken et al.
    Principal neurons of the brainstem nucleus comparing sound level at the two ears do not have the slow response properties previously attributed to them, but are instead specialized for fast weighing of excitation and inhibition.
    1. Computational and Systems Biology
    2. Neuroscience

    Neural tuning matches frequency-dependent time differences between the ears

    Victor Benichoux et al.
    Complex properties of space-sensitive auditory neurons in cats mirror the complexity of acoustical environments.
    1. Neuroscience

    How spatial release from masking may fail to function in a highly directional auditory system

    Norman Lee, Andrew C Mason
    The auditory periphery of Ormia ochracea does not allow for spatial release from masking.
    1. Neuroscience

    Dynamic representation of partially occluded objects in primate prefrontal and visual cortex

    Amber M Fyall et al.
    Complementary neural codes in frontal and visual cortex support a role for feedback signals in the representation and recognition of partially occluded objects.

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