about
Effects of transcranial direct current stimulation on temperature and pain perception.Reorganization of the intact somatosensory cortex immediately after spinal cord injury.Cortical reorganization after spinal cord injury: always for good?Prevalence of Fatigue and Associated Factors in a Spinal Cord Injury Population: Data from an Internet-Based and Face-to-Face Surveys.Influence of subcortical inhibition on barrel cortex receptive fields.Spinal cord injury immediately changes the state of the brain.CB1 receptor antagonism/inverse agonism increases motor system excitability in humans.Tactile responses of hindpaw, forepaw and whisker neurons in the thalamic ventrobasal complex of anesthetized rats.Basic properties of somatosensory-evoked responses in the dorsal hippocampus of the rat.The lemniscal-cuneate recurrent excitation is suppressed by strychnine and enhanced by GABAA antagonists in the anaesthetized cat.New corticocuneate cellular mechanisms underlying the modulation of cutaneous ascending transmission in anesthetized cats.Spatiotemporal gating of sensory inputs in thalamus during quiescent and activated states.Synapse-specific astrocyte gating of amygdala-related behavior.Adaptation of Thalamic Neurons Provides Information about the Spatiotemporal Context of Stimulus History.Lemniscal recurrent and transcortical influences on cuneate neurons.Transcranial static magnetic field stimulation (tSMS) of the visual cortex decreases experimental photophobia.Cortico-subcortical synchronization in the chloralose-anesthetized cat.Mechanisms for Selective Single-Cell Reactivation during Offline Sharp-Wave Ripples and Their Distortion by Fast Ripples.Spinal cord injury immediately decreases anesthetic requirements in rats.Noradrenergic activation amplifies bottom-up and top-down signal-to-noise ratios in sensory thalamus.Spike timing, spike count, and temporal information for the discrimination of tactile stimuli in the rat ventrobasal complex.Functional involvement of central nervous system at high altitude.Spinal direct current stimulation modulates the activity of gracile nucleus and primary somatosensory cortex in anaesthetized rats.Transcranial static magnetic field stimulation of the human motor cortex.Increased responses in the somatosensory thalamus immediately after spinal cord injury.Effects of patterned peripheral nerve stimulation on soleus spinal motor neuron excitability.Spatial and cortical influences exerted on cuneothalamic and thalamocortical neurons of the cat.Dual Cortical Plasticity After Spinal Cord Injury.Static magnetic fields reduce epileptiform activity in anesthetized rat and monkeySensorimotor plasticity after spinal cord injury: a longitudinal and translational studyEffects of baclofen on temperature perception in humansSensorimotor cortical influences on cuneate nucleus rhythmic activity in the anesthetized catCortical hyperexcitability in response to preserved spinothalamic inputs immediately after spinal cord hemisectionStudying plasticity of sensory function: insight from pregnancyFunctional reorganization of the forepaw cortical representation immediately after thoracic spinal cord hemisection in ratsGi/o protein-coupled receptors inhibit neurons but activate astrocytes and stimulate gliotransmissionSlow-wave activity homeostasis in the somatosensory cortex after spinal cord injury
P50
Q33774174-5BCE5057-7919-45CB-884F-596E80A00F99Q34903496-FB65EA06-C3C9-4809-9AE2-B9A3429F8415Q36015899-9D423B1F-844C-4EBB-BA5C-64584DDF5CC8Q36388964-9CB849FF-2F37-4B64-B76C-23CEC5D9AEE0Q37265896-AC18A536-8C35-45FC-A818-44C9CAE953D2Q37347623-37CA4420-43D5-4464-A407-1F5177D8EE28Q42488292-E6E9BF37-31B6-4238-96CE-F220DB41B958Q43058361-82575CFE-B8EE-4101-956D-D14071A75DB0Q43895605-E5BB32F3-F19B-400A-8CF4-9144B5A9B115Q44216008-32CA24E5-4F06-4196-9706-6401BCBDAD15Q44336743-39DDA6AA-FF4D-4488-A159-1B8D313DD58BQ46818694-6C741448-8FC1-499C-9429-594F23835539Q47294734-FEA35327-7315-4DE1-8807-6F998CE56C54Q47682985-72599EF7-E9BC-4925-89A1-022A717CB61CQ47899658-64979C91-714E-4E14-B754-20E5799FBFB0Q48024044-C8063ACD-CD74-4DEE-A8DF-A7A71F6209A0Q48125618-75889862-DDF6-4376-9B3A-B034CE2565C2Q48228632-E1442B44-09E5-4718-8812-C19B64F21621Q48283155-519785E9-847A-4137-A8C5-DFCB5B4100C1Q48577652-5B5A7F60-38F8-42F6-A8D3-103B669CF449Q48629367-E170474E-2C96-4BCC-AE98-B32302A414B7Q48741241-1EAF50D5-C27B-4718-8310-C916F5B03CB8Q48958584-9C4DBE7B-673F-415A-93AB-BEB8D151D691Q48971043-C73B90E1-679C-423B-945B-C6CDEBCD2122Q49097990-532E94C3-B452-4FD3-9BAE-218C0F96C117Q49925097-CF25A3F8-4333-45D2-9C4C-09071DB99C0DQ51644705-C934259A-2515-4454-B72D-F6A6A0066532Q53094267-C07F507A-8EB9-44D3-AF9D-2EA89BDAEA88Q58099087-35ECCB97-2FF2-4AD3-BC6B-1DC9492350EBQ60922001-936AE024-2291-4314-AE2D-0023D7755193Q63952554-8A189124-D2AC-4022-B344-D5C9D0DCF16BQ73437031-D1A34A8D-D9BE-440C-8A3F-1C3B744DB83CQ82534633-C4751DAE-7B70-441F-931A-1D0BF1C87D09Q83119069-F2987D23-F568-47B0-923C-F28FFC49617EQ87568202-D4CE1B4A-86DE-4E2C-A56A-75154B837CE1Q91885504-B2AE521D-40B6-4816-AB57-372D5B7C081EQ92846128-4E931D59-0FC3-49DB-A750-C28B016F8F2A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
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հետազոտող
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name
Juan R. Aguilar
@ast
Juan R. Aguilar
@en
Juan R. Aguilar
@es
Juan R. Aguilar
@nl
Juan R. Aguilar
@sl
type
label
Juan R. Aguilar
@ast
Juan R. Aguilar
@en
Juan R. Aguilar
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Juan R. Aguilar
@nl
Juan R. Aguilar
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altLabel
Juan Aguilar
@en
prefLabel
Juan R. Aguilar
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Juan R. Aguilar
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Juan R. Aguilar
@es
Juan R. Aguilar
@nl
Juan R. Aguilar
@sl
P1053
Q-2206-2015
P106
P1153
23468570400
P21
P2798
P31
P3829
P3835
juan-aguilar19
P496
0000-0002-8070-3923