Binaural unmasking of frequency-following responses in rat amygdala.
@article{Du2009BinauralUO,
title={Binaural unmasking of frequency-following responses in rat amygdala.},
author={Yinjuan Du and Qiang Huang and Xihong Wu and Gary C. Galbraith and Liang Li},
journal={Journal of neurophysiology},
year={2009},
volume={101 3},
pages={
1647-59
}
}Survival in natural environments for small animals such as rats often depends on precise neural coding of life-threatening acoustic signals, and binaural unmasking of species-specific pain calls is especially critical. This study investigated how species-specific tail-pain chatter is represented in the rat amygdala, which receives afferents from both auditory thalamus and auditory association cortex, and whether the amygdaloid representation of the chatter can be binaurally unmasked. The…
16 Citations
Two crossed axonal projections contribute to binaural unmasking of frequency‐following responses in rat inferior colliculus
- BiologyThe European journal of neuroscience
- 2009
The results show that binaural hearing can improve IC FFRs against noise masking, and both inhibitory projections from the contralateral DNLL and excitatory projection from thecontralateral IC modulate IC F FRs and play a role in forming binaurally unmasking of IC FFFs.
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Neural Correlates of the Binaural Masking Level Difference in Human Frequency-Following Responses
- PhysicsJournal of the Association for Research in Otolaryngology
- 2016
Data indicate a role for sustained phase-locked neural activity in B MLDs of humans and are the first to show predictive relationships between behavioral BMLDs and human brainstem responses.
Perceived target–masker separation unmasks responses of lateral amygdala to the emotionally conditioned target sounds in awake rats
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- 2012
Auditory midbrain representation of a break in interaural correlation.
- PhysicsJournal of neurophysiology
- 2015
Although introduction of a BIC does not affect monaural inputs, it causes a temporary reduction in sustained responses of IC neuron populations to the noise, and this BIC-induced FFR reduction is not based on a simple linear summation of noise signals.
Differentially Organized Top-Down Modulation of Prepulse Inhibition of Startle
- Psychology, BiologyThe Journal of Neuroscience
- 2011
The results show that, under the noise-masking condition, PPI was enhanced by fear conditioning of the prepulse in a prepulse-specific manner, and the conditioning-induced PPI enhancement was further increased by perceptual separation between the conditioned prepulse and the noise masker.
Human Frequency Following Response Correlates of Spatial Release From Masking.
- PhysicsJournal of speech, language, and hearing research : JSLHR
- 2019
The enhanced representation of the target stimulus in the separated condition suggests that the temporal pattern of phase-locked brainstem neural activity generating the FFR may contain information relevant to the binaural processes underlying SRM but only in challenging listening environments.
Spatial hearing processing: electrophysiological documentation at subcortical and cortical levels
- BiologyThe International journal of neuroscience
- 2019
The findings suggest that SRM can be objectively recorded concurrently in both the brainstem and auditory cortex, and it is speculated that the central auditory system can suppress background noise based on spatial information commencing from the headstem and that this capability is remarkable in more difficulty listing situations.
Neuronal connectivity and interactions between the auditory and limbic systems. Effects of noise and tinnitus
- Biology, PsychologyHearing Research
- 2012
Auditory frequency-following response: A neurophysiological measure for studying the “cocktail-party problem”
- BiologyNeuroscience & Biobehavioral Reviews
- 2011
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