inferior colliculus

Sound Encoding in the Auditory Midbrain

While individual neurons in the auditory midbrain may not accurately convey information about sound features, the collective activity of these neurons accurately represents sounds.

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Surprising Role of Auditory Neurons in Learning Revealed by Study in Mice

These findings suggest that the auditory cortex may transmit significant non-auditory signals relevant for learning-related plasticity.

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Insights Into Sound Processing in the Brain

The central auditory system is classically thought of as an ascending system, where acoustic information is processed across a step-by-step hierarchy of increasingly complex circuits. However, this model is simplistic because we know that higher order brain regions such as the auditory cortex also send descending projections back to “lower” circuits.

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Clues to How the Auditory Cortex Controls Subcortical Circuits

Our results may provide broadly generalizable insight into how the mammalian brain dynamically processes incoming sensory information.

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Evidence of Brain Tissue Damage From Blast Overpressure

Our results indicate that a single unilateral blast significantly impairs the structural and functional integrity at all levels of the central auditory neuraxis, or the auditory pathway in the higher brain centers. Overall, it is evident that the structural integrity of brain tissue is compromised at all levels.

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Mass Spectrometry Imaging Reveals Effect of Blasts on Neurotransmitter Levels in the Chinchilla Model

To date there are no clear, definitive management recommendations for tinnitus, whether non-pharmacological or pharmacological. This is mainly due to a poor understanding of the pathomechanism (causes) of tinnitus. An imbalance in the excitation and inhibition of neurotransmitters is implicated, but more research is warranted.

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A Newly Identified Neuron in a Brain Region Tied to Hearing

My lab at the University of Michigan identified a novel neuron type called VIP neurons. VIP neurons make a small protein called vasoactive intestinal peptide. Despite its name, previous studies have shown that VIP is made by specific types of neurons in several other brain regions.

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