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    1. Neuroscience

    Intercollicular commissural connections refine the representation of sound frequency and level in the auditory midbrain

    Llwyd David Orton, Adrian Rees
    Deactivation of one side of the auditory midbrain while recording in the other shows that the two sides cooperate in processing frequency and in enhancing the encoding of sound level.
    1. Neuroscience

    The topography of frequency and time representation in primate auditory cortices

    Simon Baumann et al.
    fMRI data from macaques suggest that sounds with similar temporal characteristics activate neighbouring regions of auditory cortex, giving rise to a topographic map broadly analogous to that for sound frequencies.
    1. Neuroscience

    Vocalization–whisking coordination and multisensory integration of social signals in rat auditory cortex

    Rajnish P Rao et al.
    Snout-to-snout contact modulates the response of rat auditory cortex to calls from other animals, indicating that the multisensory nature of social interaction is directly represented in the rat brain.
    1. Neuroscience

    Transformation of a temporal speech cue to a spatial neural code in human auditory cortex

    Neal P Fox et al.
    The human brain has a spatial code for representing temporal phonetic distinctions in speech.
    1. Neuroscience

    Context-dependent signaling of coincident auditory and visual events in primary visual cortex

    Thomas Deneux et al.
    Abrupt sounds boost coincident visual cortex responses which could help localization of sudden audio-visual events.
    1. Neuroscience

    Causal links between parietal alpha activity and spatial auditory attention

    Yuqi Deng et al.
    Stimulating one side of parietal cortex using an appropriate frequency of alternating current interferes with attention to a sound stream from a location on the opposite side of a space.
    1. Neuroscience

    Vestigial auriculomotor activity indicates the direction of auditory attention in humans

    Daniel J Strauss et al.
    Recordings of ear muscles in humans show that ears attempt to pivot in the direction that requires attention.
    1. Neuroscience

    Learning-related population dynamics in the auditory thalamus

    Ariel Gilad et al.
    The auditory thalamus encodes higher-order information that emerges while learning an auditory discrimination task.
    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

    Sound exposure dynamically induces dopamine synthesis in cholinergic LOC efferents for feedback to auditory nerve fibers

    Jingjing Sherry Wu et al.
    Based on the animal’s recent history of sound exposure, cholinergic auditory brainstem neurons dynamically regulate dopamine synthesis for inhibitory feedback to the inner ear.