Synchronous neural afterdischarges in rat hippocampal slices without active chemical synapses.
about
Human brain activity patterns beyond the isoelectric line of extreme deep comaPlasticity of Hippocampal Excitatory-Inhibitory Balance: Missing the Synaptic Control in the Epileptic BrainIon dynamics during seizuresAnatomy and physiology of the thick-tufted layer 5 pyramidal neuronAnterior Cingulate epilepsy: mechanisms and modulationA possible role for gap junctions in generation of very fast EEG oscillations preceding the onset of, and perhaps initiating, seizures.Opposite effects of low and high doses of Abeta42 on electrical network and neuronal excitability in the rat prefrontal cortex.The role of local field potential coupling in epileptic synchronization.Transcranial electric stimulation entrains cortical neuronal populations in rats.Interneurons unbound.Principles for applying optogenetic tools derived from direct comparative analysis of microbial opsins.Can Neural Activity Propagate by Endogenous Electrical Field?Chemical synaptic and gap junctional interactions between principal neurons: partners in epileptogenesis.Calcium-Sensitive Translocation of Calmodulin and Neurogranin between Soma and Dendrites of Mouse Hippocampal CA1 NeuronsAlcohol abuse promotes changes in non-synaptic epileptiform activity with concomitant expression changes in cotransporters and glial cells.Synaptic impairment induced by paroxysmal ionic conditions in neocortex.Effects of baclofen on synaptically-induced cell firing in the rat hippocampal slice.Neuronal synchronization without calcium-dependent synaptic transmission in the hypothalamus.Extracellular Ca2+ fluctuations in vivo affect afterhyperpolarization potential and modify firing patterns of neocortical neurons.Diffusive coupling and network periodicity: a computational study.Focal generation of paroxysmal fast runs during electrographic seizures.Frequency dependence of behavioral modulation by hippocampal electrical stimulation.Potassium diffusive coupling in neural networks.Diuretics and epilepsy: will the past and present meet?High-frequency oscillations and other electrophysiological biomarkers of epilepsy: underlying mechanismsRole of gap junctions in epilepsyField effects and ictal synchronization: insights from in homine observations.Relationships between odor-elicited oscillations in the salamander olfactory epithelium and olfactory bulb.Low-magnesium medium induces epileptiform activity in mouse olfactory bulb slices.Brain extracellular space, hyaluronan, and the prevention of epileptic seizures.Physiological mechanisms of focal epileptogenesis.Ionic mechanisms underlying spontaneous CA1 neuronal firing in Ca2+-free solution.Gap Junctions and Fast Oscillations: A Role in Seizures and Epileptogenesis?Analysis of connexin expression during seizures induced by 4-aminopyridine in the rat hippocampus.A new rapid kindling variant for induction of cortical epileptogenesis in freely moving rats.Research on ionic homeostatic equilibrium may change our view about epilepsy.Impact of spikelets on hippocampal CA1 pyramidal cell activity during spatial exploration.Enhanced synaptic connectivity in the dentate gyrus during epileptiform activity: network simulation.Prolonged bursts occur in normal calcium in hippocampal slices after raising excitability and blocking synaptic transmission.Synaptic and nonsynaptic ictogenesis occurs at different temperatures in submerged and interface rat brain slices.
P2860
Q21132503-58C88638-B1F1-41F8-AAAA-411E174AEC8EQ26752412-D03A6A11-2450-49EC-9775-8306E5ED3C5DQ26779710-170FDB7F-2BE8-413F-8AAD-66AAC75D058AQ27024125-CC076964-303F-4250-8DCC-491CDF0A5409Q27027735-D3745A3D-53C9-4831-9860-6D47941FF5E0Q32153848-85D96132-00C8-4958-9F10-F4DF985F81BAQ33520211-D8CA9C99-13E1-4B25-9D1F-966AFD48B67EQ34095305-90493D6A-36B1-467E-B21A-93D408BE105CQ34118720-09C24BB0-D77E-41A7-B79A-E2BE2F6DC58FQ34186260-E5585F26-04B3-4BAB-A687-822A3EA0A82BQ34196212-1A91D037-DD21-48E7-8376-C24CD6F5FE83Q34503924-B7983124-E959-43F7-A3F8-8AE63A119365Q34757998-588CBE83-4786-4FED-8347-F02482D3244EQ34823284-9211689B-B059-4DC1-A439-9DD742D92B9BQ35043611-CBFC6282-4117-469E-A92A-887EF59A0261Q35151335-B4696D7E-74B1-42FF-A0C7-7C9053DCEAFDQ36097942-7588852D-A380-4A82-B924-2B9B2F3ED77BQ36227076-56C186F8-FB4A-4EF7-9042-A8AF02D4F531Q36771245-E8680A34-6920-4FB7-AB81-BB98036174C2Q36783831-63AAE900-A90B-4D71-AAD4-CC11ED67EC12Q37069168-D9D7DDFD-44C5-456E-B105-2A3561AED97CQ37578387-353077AB-03E2-45CD-B87E-75899D337DC6Q37770177-D224E1FB-57D6-48D6-A559-A1F1B5010FBBQ37916699-1DFCC04D-FDB2-4B37-A104-0CC1585AF0A0Q37946403-B88303FC-6CB3-48DA-B9F2-F1BE2A8AEBF2Q37959793-9A8F6BEB-75B2-43BC-8D95-0D8BC3941486Q38173745-8C381425-8A5C-4EC4-8998-027E5D1650B2Q38315604-5E521976-77DB-4066-841E-CC2BCDC666BCQ38332741-5B670C42-851F-4A7E-B933-13CF6F382609Q38646549-9119A422-3D17-4E3B-AD52-5FD7CE9B82E6Q39846935-8E495CAE-BCE1-4876-8CF0-56D618AAAF6DQ40232652-2C5219CF-5E59-46DA-B95F-19887191A475Q40466593-A1315904-F59A-4D1C-A8AB-B6F8DFAF1F89Q41872156-8C0D4424-05E7-48DF-866B-0C81F81EFB07Q41967678-3DC07782-B594-413E-B044-0F1ADF7603ABQ42567496-B02A1B69-DEE2-4792-97F1-91CB7B316768Q43186613-44DCD9CC-062D-4C76-B25B-EA5591AEE471Q43245105-02C323F7-3BC8-4CDE-8649-5EEEE305DCA8Q43792377-F88ED357-1FEC-451A-87E9-77E2CDC813F7Q44010657-C1100906-E5E7-47FF-8643-3E1BCB522CE5
P2860
Synchronous neural afterdischarges in rat hippocampal slices without active chemical synapses.
description
1982 nî lūn-bûn
@nan
1982年の論文
@ja
1982年学术文章
@wuu
1982年学术文章
@zh-cn
1982年学术文章
@zh-hans
1982年学术文章
@zh-my
1982年学术文章
@zh-sg
1982年學術文章
@yue
1982年學術文章
@zh
1982年學術文章
@zh-hant
name
Synchronous neural afterdischa ...... hout active chemical synapses.
@en
Synchronous neural afterdischa ...... hout active chemical synapses.
@nl
type
label
Synchronous neural afterdischa ...... hout active chemical synapses.
@en
Synchronous neural afterdischa ...... hout active chemical synapses.
@nl
prefLabel
Synchronous neural afterdischa ...... hout active chemical synapses.
@en
Synchronous neural afterdischa ...... hout active chemical synapses.
@nl
P356
P1433
P1476
Synchronous neural afterdischa ...... hout active chemical synapses.
@en
P2093
P304
P356
10.1126/SCIENCE.7134978
P407
P577
1982-11-01T00:00:00Z