scholarly article | Q13442814 |
P50 | author | Alexandra Kadner | Q88523559 |
Albert S Berrebi | Q89248111 | ||
P2860 | cites work | Gap detection by the chinchilla | Q23912114 |
Superior paraolivary nucleus of the rat is a GABAergic nucleus | Q24630123 | ||
Physiological response properties of neurons in the superior paraolivary nucleus of the rat | Q28213043 | ||
Cytology of periolivary cells and the organization of their projections in the cat | Q28265364 | ||
Neurotransmitter-specific uptake and retrograde transport of [3H]glycine from the inferior colliculus by ipsilateral projections of the superior olivary complex and nuclei of the lateral lemniscus | Q28269700 | ||
Subcortical neural coding mechanisms for auditory temporal processing. | Q30328557 | ||
Periodicity coding in the auditory system. | Q30352427 | ||
Neuronal mechanisms underlying the perception of pitch and harmony. | Q30353721 | ||
The medial nucleus of the trapezoid body in the gerbil is more than a relay: comparison of pre- and postsynaptic activity | Q30473467 | ||
Auditory gap detection, perceptual channels, and temporal resolution in speech perception | Q33672997 | ||
The evolution of temporal processing in the medial superior olive, an auditory brainstem structure | Q33896634 | ||
The projections of principal cells of the medial nucleus of the trapezoid body in the cat. | Q34200161 | ||
Anatomy and physiology of principal cells of the medial nucleus of the trapezoid body (MNTB) of the cat. | Q34472879 | ||
Dissecting the circuitry of the auditory system. | Q35032120 | ||
Human auditory brainstem response to temporal gaps in noise. | Q50490535 | ||
Relationships among age-related differences in gap detection and word recognition. | Q50497100 | ||
Temporal and speech processing deficits in auditory neuropathy. | Q50498676 | ||
Psychoacoustic abilities of subjects with unilateral and bilateral cochlear hearing impairments and their relationship to the ability to understand speech. | Q50560244 | ||
Relations among temporal acuity, hearing loss, and the perception of speech distorted by noise and reverberation. | Q50574408 | ||
Gap detection in hearing-impaired chinchillas. | Q50595096 | ||
Psychoacoustic and phonetic temporal processing in normal and hearing-impaired listeners. | Q50595593 | ||
Neural encoding of amplitude modulation within the auditory midbrain of squirrel monkeys. | Q52366807 | ||
A signal detection theory analysis of gap detection in the rat | Q57790700 | ||
Neural correlates of behavioral gap detection in the inferior colliculus of the young CBA mouse | Q59297798 | ||
Temporal processing from the auditory nerve to the medial nucleus of the trapezoid body in the rat | Q61846824 | ||
Differential regulation of synaptic GABAA receptors by cAMP-dependent protein kinase in mouse cerebellar and olfactory bulb neurones. | Q65001357 | ||
Ultrastructural characterization of gerbil olivocochlear neurons based on differential uptake of 3H-D-aspartic acid and a wheatgerm agglutinin-horseradish peroxidase conjugate from the cochlea | Q67934515 | ||
Parameters affecting gap detection in the rat | Q70516958 | ||
Ascending auditory projections to the inferior colliculus in the adult gerbil, Meriones unguiculatus | Q71709728 | ||
Effects of bilateral auditory cortical lesions on gap-detection thresholds in the ferret (Mustela putorius) | Q71721132 | ||
Envelope coding in the lateral superior olive. I. Sensitivity to interaural time differences | Q71870831 | ||
Detection of gaps in sinusoids by frog auditory nerve fibers: importance in AM coding | Q72818874 | ||
Anisotropic organization of the rat superior paraolivary nucleus | Q72988825 | ||
Neural responses in primary auditory cortex mimic psychophysical, across-frequency-channel, gap-detection thresholds | Q74296384 | ||
Measurements of middle-ear function in the Mongolian gerbil, a specialized mammalian ear | Q77206930 | ||
Neural processing of amplitude-modulated sounds. | Q35715238 | ||
Identification of language-impaired children on the basis of rapid perception and production skills | Q38493480 | ||
Neural processing and representation of periodicity pitch. | Q38553970 | ||
Sensitivity to interaural temporal disparities of low- and high-frequency neurons in the superior olivary complex. II. Coincidence detection | Q38556074 | ||
Sensitivity to interaural temporal disparities of low- and high-frequency neurons in the superior olivary complex. I. Heterogeneity of responses | Q38556076 | ||
Thalamocortical transformation of responses to complex auditory stimuli | Q38584113 | ||
Gap detection in chinchillas with temporary high-frequency hearing loss | Q38590870 | ||
Stimulus properties influencing the responses of inferior colliculus neurons to amplitude-modulated sounds | Q38593243 | ||
Temporal analysis in normal and impaired hearing | Q40821515 | ||
Origin of ascending projections to inferior colliculus in the mustache bat, Pteronotus parnellii | Q41622893 | ||
Auditory temporal processing: responses to sinusoidally amplitude-modulated tones in the inferior colliculus | Q43798722 | ||
Projection from the inferior colliculus to the superior olivary complex in the albino rat. | Q43996176 | ||
GABA and glycine co-release optimizes functional inhibition in rat brainstem motoneurons in vitro | Q43996786 | ||
Auditory response properties in the superior paraolivary nucleus of the gerbil | Q44010654 | ||
Unbiased stereological estimates of neuron number in subcortical auditory nuclei of the rat. | Q44063755 | ||
Intracellular recordings from neurobiotin-labeled cells in brain slices of the rat medial nucleus of the trapezoid body | Q44171498 | ||
Afferent projections to the central nucleus of the inferior colliculus in the rat | Q44418023 | ||
Major differences in inhibitory synaptic transmission onto two neocortical interneuron subclasses. | Q44628448 | ||
The relationship between auditory temporal analysis and receptive language development: evidence from studies of developmental language disorder | Q44719576 | ||
Processing of amplitude modulated sounds in the medial geniculate body of squirrel monkeys | Q44804816 | ||
Neurons in the medial nucleus of the trapezoid body and superior paraolivary nucleus of the rat may play a role in sound duration coding | Q44915389 | ||
Distinct roles for glycine and GABA in shaping the response properties of neurons in the superior paraolivary nucleus of the rat. | Q44924980 | ||
Neuronal responses to amplitude-modulated and pure-tone stimuli in the guinea pig inferior colliculus, and their modification by broadband noise. | Q46235386 | ||
GABA and glycine immunoreactivity in the guinea pig superior olivary complex | Q46312307 | ||
Superior paraolivary nucleus in the pigmented guinea pig: Separate classes of neurons project to the inferior colliculus and the cochlear nucleus | Q46583293 | ||
Impaired gap encoding in aged mouse inferior colliculus at moderate but not high stimulus levels. | Q48130055 | ||
Decreased Temporal Precision of Auditory Signaling inKcna1-Null Mice: An Electrophysiological StudyIn Vivo | Q48177075 | ||
Neural correlates of gap detection in three auditory cortical fields in the Cat. | Q48213901 | ||
Coding of sound envelopes by inhibitory rebound in neurons of the superior olivary complex in the unanesthetized rabbit | Q48270319 | ||
Development of glycinergic synaptic transmission to rat brain stem motoneurons | Q48348839 | ||
Principal cells of the rat medial nucleus of the trapezoid body: an intracellular in vivo study of their physiology and morphology. | Q48381661 | ||
Responses of neurons in the rat's ventral nucleus of the lateral lemniscus to amplitude-modulated tones | Q48439141 | ||
Responses of neurons in the ventral nucleus of the lateral lemniscus to sinusoidally amplitude modulated tones | Q48450880 | ||
Gap detection threshold in the rat before and after auditory cortex ablation | Q48475930 | ||
Electrophysiological characterization of the superior paraolivary nucleus in the Mongolian gerbil | Q48475957 | ||
Age-related alterations in the neural coding of envelope periodicities | Q48521040 | ||
Envelope coding in the lateral superior olive. III. Comparison with afferent pathways | Q48531193 | ||
The coding of spatial location by single units in the lateral superior olive of the cat. I. Spatial receptive fields in azimuth. | Q48685227 | ||
Processing of interaural intensity differences in the LSO: role of interaural threshold differences | Q48693119 | ||
Speech recognition in noise and presbycusis: relations to possible neural mechanisms | Q48744854 | ||
Auditory evoked potentials in aged gerbils: responses elicited by noises separated by a silent gap. | Q48853770 | ||
Sources of GABAergic input to the inferior colliculus of the rat. | Q48941451 | ||
Response of binaural neurons of dog superior olivary complex to dichotic tonal stimuli: some physiological mechanisms of sound localization | Q49010118 | ||
Effect of noise exposure on gap detection in rats. | Q50475205 | ||
Gap detection in Mongolian gerbils (Meriones unguiculatus). | Q50484787 | ||
Word recognition in competing babble and the effects of age, temporal processing, and absolute sensitivity. | Q50486888 | ||
Behavioral and neural measures of auditory temporal acuity in aging humans and mice. | Q50487929 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 868-887 | |
P577 | publication date | 2007-11-17 | |
P1433 | published in | Neuroscience | Q15708571 |
P1476 | title | Encoding of temporal features of auditory stimuli in the medial nucleus of the trapezoid body and superior paraolivary nucleus of the rat. | |
P478 | volume | 151 |
Q46815450 | Age-related changes in neural gap detection thresholds in the rat auditory cortex |
Q48440171 | Ageing affects dual encoding of periodicity and envelope shape in rat inferior colliculus neurons. |
Q30389650 | Auditory deficits of Kcna1 deletion are similar to those of a monaural hearing impairment. |
Q48128909 | Cellular Computations Underlying Detection of Gaps in Sounds and Lateralizing Sound Sources. |
Q35858843 | Cerebellar Nuclear Neurons Use Time and Rate Coding to Transmit Purkinje Neuron Pauses |
Q30476543 | Connections of the Superior Paraolivary Nucleus of the Rat: II. Reciprocal Connections with the Tectal Longitudinal Column |
Q30479450 | Connections of the superior paraolivary nucleus of the rat: projections to the inferior colliculus |
Q30454069 | Deficits in responding to brief noise offsets in Kcna1 -/- mice reveal a contribution of this gene to precise temporal processing seen previously only for stimulus onsets |
Q35435880 | Detailed Characterization of Local Field Potential Oscillations and Their Relationship to Spike Timing in the Antennal Lobe of the Moth Manduca sexta |
Q30428679 | Development of glycinergic innervation to the murine LSO and SPN in the presence and absence of the MNTB |
Q30437613 | Development of on-off spiking in superior paraolivary nucleus neurons of the mouse |
Q30387213 | Diverse cortical codes for scene segmentation in primate auditory cortex. |
Q30459205 | Effects of ketamine on response properties of neurons in the superior paraolivary nucleus of the mouse |
Q30357535 | Forward masking in the medial nucleus of the trapezoid body of the rat. |
Q45031860 | Forward masking in the superior paraolivary nucleus of the rat. |
Q30462065 | Fragile X mental retardation protein is required for rapid experience-dependent regulation of the potassium channel Kv3.1b |
Q30438318 | Glycinergic inhibition tunes coincidence detection in the auditory brainstem |
Q37762332 | Going native: voltage-gated potassium channels controlling neuronal excitability. |
Q30419444 | Inhibitory projections from the ventral nucleus of the lateral lemniscus and superior paraolivary nucleus create directional selectivity of frequency modulations in the inferior colliculus: a comparison of bats with other mammals. |
Q57888948 | Model cortical responses for the detection of perceptual onsets and beat tracking in singing |
Q51040056 | Modeling Responses in the Superior Paraolivary Nucleus: Implications for Forward Masking in the Inferior Colliculus. |
Q91121466 | Neural Mechanisms of Binaural Processing in the Auditory Brainstem |
Q30439483 | Neuronal adaptation translates stimulus gaps into a population code |
Q30435644 | Nitric oxide signaling modulates synaptic inhibition in the superior paraolivary nucleus (SPN) via cGMP-dependent suppression of KCC2. |
Q30853993 | Octopus Cells in the Posteroventral Cochlear Nucleus Provide the Main Excitatory Input to the Superior Paraolivary Nucleus |
Q30452181 | Sound rhythms are encoded by postinhibitory rebound spiking in the superior paraolivary nucleus |
Q28581190 | Specific and rapid effects of acoustic stimulation on the tonotopic distribution of Kv3.1b potassium channels in the adult rat |
Q30393024 | Structural Changes and Lack of HCN1 Channels in the Binaural Auditory Brainstem of the Naked Mole-Rat (Heterocephalus glaber). |
Q50208366 | Subcortical pathways: Towards a better understanding of auditory disorders. |
Q58600120 | The Calyx of Held: A Hypothesis on the Need for Reliable Timing in an Intensity-Difference Encoder |
Q30375110 | The superior paraolivary nucleus shapes temporal response properties of neurons in the inferior colliculus |
Q30437927 | Tonotopic organization of the superior olivary nucleus in the chicken auditory brainstem |
Q30375371 | Understanding pitch perception as a hierarchical process with top-down modulation. |
Q30414404 | Yes, there is a medial nucleus of the trapezoid body in humans. |
Search more.