Spatiotemporal gating of sensory inputs in thalamus during quiescent and activated states.
about
Regional differences in the coupling between resting cerebral blood flow and metabolism may indicate action preparedness as a default state.Respiratory-related evoked potential measures of respiratory sensory gating.Behavioral states, network states, and sensory response variabilityNeuromodulation of whisking related neural activity in superior colliculus.Neocortex network activation and deactivation states controlled by the thalamus.Neuromodulators produce distinct activated states in neocortex.Imaging the spatio-temporal dynamics of supragranular activity in the rat somatosensory cortex in response to stimulation of the paws.Consistency of angular tuning in the rat vibrissa system.Effects of cortical activation on sensory responses in barrel cortexResponse to intensive upper extremity therapy by individuals with ataxia from stroke.Comprehensive mapping of whisker-evoked responses reveals broad, sharply tuned thalamocortical input to layer 4 of barrel cortex.Modulation of artificial whisking related signals in barrel cortexTrial-to-trial variability in the responses of neurons carries information about stimulus location in the rat whisker thalamus.Cortical reorganization after spinal cord injury: always for good?Gating of tactile information through gamma band during passive arm movement in awake primates.Cortical transformation of wide-field (multiwhisker) sensory responsesComputational role of large receptive fields in the primary somatosensory cortexVibrissa sensation in superior colliculus: wide-field sensitivity and state-dependent cortical feedbackThe Transformation of Adaptation Specificity to Whisker Identity from Brainstem to Thalamus.Vibrissal responses of thalamic cells that project to the septal columns of the barrel cortex and to the second somatosensory area.Influence of subcortical inhibition on barrel cortex receptive fields.Spinal cord injury immediately changes the state of the brain.Cortical up and activated states: implications for sensory information processing.Increased cortical responses to forepaw stimuli immediately after peripheral deafferentation of hindpaw inputs.Midbrain dopaminergic neuron activity across alternating brain states of urethane anaesthetized rat.Spatiotemporal properties of sensory responses in vivo are strongly dependent on network context.Tactile responses of hindpaw, forepaw and whisker neurons in the thalamic ventrobasal complex of anesthetized rats.Adaptation of Thalamic Neurons Provides Information about the Spatiotemporal Context of Stimulus History.Trial-to-trial correlation between thalamic sensory response and global EEG activity.Characterisation and functional mapping of surface potentials in the rat dorsal column nuclei.Correlated input reveals coexisting coding schemes in a sensory cortex.Paying attention. Focus on "State-dependent modulation of time-varying gustatory responses".Spinal direct current stimulation modulates the activity of gracile nucleus and primary somatosensory cortex in anaesthetized rats.Tactile information processing in primate hand somatosensory cortex (S1) during passive arm movement.State-dependent modulation of time-varying gustatory responses.
P2860
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P2860
Spatiotemporal gating of sensory inputs in thalamus during quiescent and activated states.
description
2005 nî lūn-bûn
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2005年の論文
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2005年学术文章
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2005年学术文章
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2005年学术文章
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2005年学术文章
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2005年学术文章
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2005年学术文章
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2005年學術文章
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2005年學術文章
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name
Spatiotemporal gating of senso ...... uiescent and activated states.
@en
Spatiotemporal gating of senso ...... uiescent and activated states.
@nl
type
label
Spatiotemporal gating of senso ...... uiescent and activated states.
@en
Spatiotemporal gating of senso ...... uiescent and activated states.
@nl
prefLabel
Spatiotemporal gating of senso ...... uiescent and activated states.
@en
Spatiotemporal gating of senso ...... uiescent and activated states.
@nl
P1476
Spatiotemporal gating of sensory inputs in thalamus during quiescent and activated states
@en
P304
10990-11002
P356
10.1523/JNEUROSCI.3229-05.2005
P407
P577
2005-11-01T00:00:00Z