Which elements are excited in electrical stimulation of mammalian central nervous system: a review.
about
A slow axon antidromic blockade hypothesis for tremor reduction via deep brain stimulationMapping brain networks in awake mice using combined optical neural control and fMRIDirect activation of sparse, distributed populations of cortical neurons by electrical microstimulationSparse optical microstimulation in barrel cortex drives learned behaviour in freely moving mice.Brain reward circuitry beyond the mesolimbic dopamine system: a neurobiological theoryElectrical stimulation for epilepsy: experimental approachesSpatiotemporal receptive field properties of epiretinally recorded spikes and local electroretinograms in catsLateral hypothalamic circuits for feeding and rewardLateral hypothalamus, nucleus accumbens, and ventral pallidum roles in eating and hunger: interactions between homeostatic and reward circuitryElectrical stimulation of human fusiform face-selective regions distorts face perception.Intraocular retinal prosthesis.Microstimulation of frontal cortex can reorder a remembered spatial sequence.Closed-loop stimulation of a delayed neural fields model of parkinsonian STN-GPe network: a theoretical and computational studyDirected functional connectivity matures with motor learning in a cortical pattern generator.Identification of single neurons in a forebrain network.Millisecond timescale disinhibition mediates fast information transmission through an avian basal ganglia loopStriatal dopamine modulates basal ganglia output and regulates social context-dependent behavioral variability through D1 receptors.Pairing broadband noise with cortical stimulation induces extensive suppression of ascending sensory activity.A Phenomenological Model of the Electrically Stimulated Auditory Nerve Fiber: Temporal and Biphasic Response Properties.Suppression and facilitation of auditory neurons through coordinated acoustic and midbrain stimulation: investigating a deep brain stimulator for tinnitusOrganization of pontine reticulospinal inputs to motoneurons controlling axial and limb muscles in the neonatal mouse.Paradoxical vocal changes in a trained singer by focally cooling the right superior temporal gyrus.Spatial channel interactions in cochlear implants.Direct activation of the Mauthner cell by electric field pulses drives ultrarapid escape responsesCoordinated reset stimulation in a large-scale model of the STN-GPe circuit.System identification of the nonlinear dynamics in the thalamocortical circuit in response to patterned thalamic microstimulation in vivo.Functional connection between posterior superior temporal gyrus and ventrolateral prefrontal cortex in human.Neural integration and enhancement from the inferior colliculus up to different layers of auditory cortexReal-time dopamine measurement in awake monkeysThe polarity sensitivity of the electrically stimulated human auditory nerve measured at the level of the brainstemDopamine-modulated recurrent corticoefferent feedback in primary sensory cortex promotes detection of behaviorally relevant stimuliCochlear implants: a remarkable past and a brilliant future.Phase resetting analysis of high potassium epileptiform activity in CA3 region of the rat hippocampus.Tonotopic and localized pathways from primary auditory cortex to the central nucleus of the inferior colliculusFloating light-activated microelectrical stimulators tested in the rat spinal cord.Forward-masking patterns produced by symmetric and asymmetric pulse shapes in electric hearing.Higher sensitivity of human auditory nerve fibers to positive electrical currents.Patient-specific analysis of the relationship between the volume of tissue activated during DBS and verbal fluencyDeep brain stimulation of the ventral striatum enhances extinction of conditioned fear.Forebrain dopamine neurons project down to a brainstem region controlling locomotion.
P2860
Q21559566-5EE9B2DF-0748-403B-9A13-75D94EFE26C4Q22065364-D249126E-5C01-4865-85DD-4B89834F4401Q24608222-53D308B1-E486-40CC-8156-93918AA56471Q24614009-9DAC6D09-D232-4125-9D50-4B32649094FCQ24625428-1A05C3D0-6BDA-4351-891F-FEF396EBEF2AQ24635131-3AF311CA-7862-4F15-AA9E-C2880E83D58EQ24816166-F4CD72B6-A284-4B01-82B7-797E7C90078DQ26774187-4DF881D7-405C-4D7C-8B16-D3A6A20E2CFEQ27021825-6898D5B9-39A6-4B2F-919F-4613D4721BB1Q28278039-B110A9D3-F330-4F53-BF2C-D585A20AD261Q28345273-414B210A-7AD2-487F-8E20-ABCDD0348503Q28469159-4992F30E-46E4-487E-B858-04115D4A2906Q28647256-A35FE042-6424-4205-B750-FF45E03BEC2DQ28709032-FF9AB884-ECA7-4F76-A467-08A727B682D3Q28741717-F4E94F9B-D624-47B7-8329-A8BB5BEBB838Q28748951-7C561391-2951-405C-B73A-FB1C648DD176Q28752297-61CC7466-452C-431A-9DD9-AD92E484FA26Q30387200-BB10FFE0-1214-483D-B1BC-534B31606F77Q30390589-E4C2B402-7349-4621-9E3B-BB4A6A7A3F34Q30397431-BAE3CFA0-BF84-4D72-A6F0-FFC5507A4696Q30397856-A60717D4-8521-45EC-B2CB-823D7DEEF764Q30399788-7929BFAB-C557-4D69-8BAE-2B2D17D2BBABQ30404735-D8D1D62C-15A2-4082-8F92-29D1B8EE1C06Q30404870-A7CC6489-53A4-4F64-8DA5-43827F43938AQ30423160-C0648305-C891-4C69-AEC4-AE98C57CB934Q30424210-520DB004-D759-49B6-B7CA-70A8617F9194Q30429565-829CCCB3-A8DF-42EB-9E73-7B732B56527BQ30432925-8C6455DA-230F-45E2-A8FD-B5154094BF30Q30436562-D0ACEDD1-163B-40F8-87F6-E86F4005EF92Q30437571-DAF7E89F-0D56-4975-852C-8353F456A63EQ30443427-14D099B8-B795-462D-B110-FB078E3270F6Q30452445-76815AD1-425B-42C3-B3D4-A2E203FCE106Q30453145-4AD6E0B3-1EAB-4AA8-BCE2-B6E24855915AQ30454879-957CABA3-4D4F-45DA-9D70-411260E93E2DQ30463026-C7FEEE3A-38E9-4609-848D-FAD4E9AC0B31Q30478229-BF25591E-7496-4FA5-B08D-DD91304631A5Q30492472-B28B220C-3FAD-44A0-AB66-315AFFC5675AQ30495637-8BCC600E-B89E-4D9B-9043-24EEDDEB2DBDQ30514335-73F6CA8C-E2EC-409D-9341-12D030EC6B6DQ30543604-6B3DCF52-46EE-4C81-960A-77A2CAA36A2C
P2860
Which elements are excited in electrical stimulation of mammalian central nervous system: a review.
description
1975 nî lūn-bûn
@nan
1975 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1975 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1975年の論文
@ja
1975年論文
@yue
1975年論文
@zh-hant
1975年論文
@zh-hk
1975年論文
@zh-mo
1975年論文
@zh-tw
1975年论文
@wuu
name
Which elements are excited in ...... tral nervous system: a review.
@ast
Which elements are excited in ...... tral nervous system: a review.
@en
Which elements are excited in ...... tral nervous system: a review.
@nl
type
label
Which elements are excited in ...... tral nervous system: a review.
@ast
Which elements are excited in ...... tral nervous system: a review.
@en
Which elements are excited in ...... tral nervous system: a review.
@nl
prefLabel
Which elements are excited in ...... tral nervous system: a review.
@ast
Which elements are excited in ...... tral nervous system: a review.
@en
Which elements are excited in ...... tral nervous system: a review.
@nl
P1433
P1476
Which elements are excited in ...... tral nervous system: a review.
@en
P2093
Ranck JB Jr
P304
P356
10.1016/0006-8993(75)90364-9
P407
P577
1975-11-01T00:00:00Z