scholarly article | Q13442814 |
P50 | author | Jaideep Kapur | Q58934394 |
P2093 | author name string | John Williamson | |
Karthik Rajasekaran | |||
Suchitra Joshi | |||
Huayu Sun | |||
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Receptor trafficking hypothesis revisited: plasticity of AMPA receptors during established status epilepticus | Q27015717 | ||
Activation of PI3-kinase is required for AMPA receptor insertion during LTP of mEPSCs in cultured hippocampal neurons | Q28206253 | ||
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Flip and Flop: A Cell-Specific Functional Switch in Glutamate-Operated Channels of the CNS | Q28264941 | ||
Characterization of multiple phosphorylation sites on the AMPA receptor GluR1 subunit | Q28282250 | ||
Seizures selectively impair agonist-stimulated phosphoinositide hydrolysis without affecting protein kinase C activity in rat brain | Q28326971 | ||
Motor and electroencephalographic response of refractory experimental status epilepticus in rats to treatment with MK-801, diazepam, or MK-801 plus diazepam | Q28333741 | ||
N-methyl-D-aspartate receptor activation regulates refractoriness of status epilepticus to diazepam | Q28369885 | ||
Experimental status epilepticus alters gamma-aminobutyric acid type A receptor function in CA1 pyramidal neurons | Q28378739 | ||
Characterization of status epilepticus induced by two organophosphates in rats | Q28387562 | ||
Phosphorylation of the AMPA receptor GluR1 subunit is required for synaptic plasticity and retention of spatial memory | Q28588695 | ||
AMPA receptor trafficking and synaptic plasticity | Q29547876 | ||
Driving AMPA receptors into synapses by LTP and CaMKII: requirement for GluR1 and PDZ domain interaction | Q29617044 | ||
Phenobarbital and MK-801, but not phenytoin, improve the long-term outcome of status epilepticus | Q30308667 | ||
Status epilepticus in adults | Q38439932 | ||
Perampanel in patients with refractory and super-refractory status epilepticus in a neurological intensive care unit | Q38473049 | ||
Synaptic AMPA receptor composition in development, plasticity and disease. | Q38808773 | ||
Rapid surface accumulation of NMDA receptors increases glutamatergic excitation during status epilepticus | Q42204171 | ||
The temporal evolution of neuronal damage from pilocarpine-induced status epilepticus | Q42553756 | ||
Efficacy and safety of ketamine in refractory status epilepticus in children | Q42678858 | ||
Effect of perampanel, a novel AMPA antagonist, on benzodiazepine-resistant status epilepticus in a lithium-pilocarpine rat model | Q42930833 | ||
Seizure-induced neuronal necrosis: implications for programmed cell death mechanisms | Q43507386 | ||
A significant increase in both basal and maximal calcineurin activity in the rat pilocarpine model of status epilepticus | Q43681009 | ||
A comparison of lorazepam, diazepam, and placebo for the treatment of out-of-hospital status epilepticus | Q43731006 | ||
Analysis of glutamate receptor surface expression in acute hippocampal slices | Q44033540 | ||
A prospective, population-based epidemiologic study of status epilepticus in Richmond, Virginia | Q44155514 | ||
Oral ketamine in paediatric non-convulsive status epilepticus | Q44580455 | ||
Status epilepticus results in an N-methyl-D-aspartate receptor-dependent inhibition of Ca2+/calmodulin-dependent kinase II activity in the rat. | Q44868458 | ||
Loss of type II calcium/calmodulin-dependent kinase activity correlates with stages of development of electrographic seizures in status epilepticus in rat | Q44896065 | ||
Age dependence of pilocarpine-induced status epilepticus and inhibition of CaM kinase II activity in the rat. | Q44910279 | ||
Prolonged seizure activity leads to increased Protein Kinase A activation in the rat pilocarpine model of status epilepticus. | Q44948133 | ||
Trafficking of GABA(A) receptors, loss of inhibition, and a mechanism for pharmacoresistance in status epilepticus. | Q46667850 | ||
Decreased calmodulin kinase activity after status epilepticus | Q48165794 | ||
Effect of novel AMPA antagonist, NS1209, on status epilepticus. An experimental study in rat. | Q48278700 | ||
Patterns of status epilepticus-induced neuronal injury during development and long-term consequences. | Q48380154 | ||
The dentate gyrus as a regulated gate for the propagation of epileptiform activity | Q48597712 | ||
Self-sustaining limbic status epilepticus.: I. Acute and chronic cerebral metabolic studies: Limbic hypermetabolism and neocortical hypometabolism | Q48619313 | ||
Evidence for multiple AMPA receptor complexes in hippocampal CA1/CA2 neurons. | Q49058722 | ||
Apoptosis and necrosis induced in different hippocampal neuron populations by repetitive perforant path stimulation in the rat. | Q49059318 | ||
Loss of the p53 tumor suppressor gene protects neurons from kainate-induced cell death | Q49116308 | ||
Neuroprotective effect of ketamine administered after status epilepticus onset. | Q51611181 | ||
Kainate-induced apoptotic cell death in hippocampal neurons. | Q51620778 | ||
Regulation of distinct AMPA receptor phosphorylation sites during bidirectional synaptic plasticity | Q59065408 | ||
The dentate gyrus as a control point for seizures in the hippocampus and beyond | Q30311316 | ||
Intravenous ketamine for the treatment of refractory status epilepticus: a retrospective multicenter study | Q30411523 | ||
Calcium-permeable AMPA receptors are expressed in a rodent model of status epilepticus | Q30418423 | ||
Subunit-specific trafficking of GABA(A) receptors during status epilepticus | Q30435939 | ||
A combination of ketamine and diazepam synergistically controls refractory status epilepticus induced by cholinergic stimulation | Q30436689 | ||
Functional anatomy of hippocampal seizures | Q30448446 | ||
M-type potassium channels modulate Schaffer collateral-CA1 glutamatergic synaptic transmission | Q30455624 | ||
Self-sustaining limbic status epilepticus induced by 'continuous' hippocampal stimulation: electrographic and behavioral characteristics | Q30460098 | ||
Early alterations of AMPA receptors mediate synaptic potentiation induced by neonatal seizures | Q30487499 | ||
A solution to dependency: using multilevel analysis to accommodate nested data | Q30786236 | ||
Refractory and super-refractory status epilepticus--an update. | Q30807706 | ||
Activation of synaptic NMDA receptors induces membrane insertion of new AMPA receptors and LTP in cultured hippocampal neurons | Q31965209 | ||
Rapid seizure-induced reduction of benzodiazepine and Zn2+ sensitivity of hippocampal dentate granule cell GABAA receptors | Q33943268 | ||
Deficits in phosphorylation of GABA(A) receptors by intimately associated protein kinase C activity underlie compromised synaptic inhibition during status epilepticus | Q34048866 | ||
Regulation of AMPA receptors during synaptic plasticity | Q34155648 | ||
The competitive NMDA receptor antagonist CGP 40116 protects against status epilepticus-induced neuronal damage | Q34322496 | ||
A molecular determinant for submillisecond desensitization in glutamate receptors | Q34326608 | ||
A comparison of four treatments for generalized convulsive status epilepticus. Veterans Affairs Status Epilepticus Cooperative Study Group | Q34752382 | ||
The Yin and Yang of NMDA receptor signalling | Q35048924 | ||
Status epilepticus decreases glutamate receptor 2 mRNA and protein expression in hippocampal pyramidal cells before neuronal death | Q35119121 | ||
Efficacy of perampanel in refractory nonconvulsive status epilepticus and simple partial status epilepticus | Q35589454 | ||
The novel anticonvulsant MK-801 binds to the activated state of the N-methyl-D-aspartate receptor in rat brain | Q35754743 | ||
Intramuscular versus intravenous therapy for prehospital status epilepticus | Q35838414 | ||
The essential role of AMPA receptor GluR2 subunit RNA editing in the normal and diseased brain | Q35882740 | ||
Evidence-Based Guideline: Treatment of Convulsive Status Epilepticus in Children and Adults: Report of the Guideline Committee of the American Epilepsy Society | Q35930196 | ||
Treatment of early and late kainic acid-induced status epilepticus with the noncompetitive AMPA receptor antagonist GYKI 52466 | Q35950960 | ||
Regulation of AMPA receptor trafficking and synaptic plasticity. | Q36083970 | ||
Regulatory mechanisms of AMPA receptors in synaptic plasticity | Q36712947 | ||
Ca2+-permeable AMPA receptors in synaptic plasticity and neuronal death | Q36726811 | ||
Advances in the pathophysiology of status epilepticus | Q36760353 | ||
A KCNQ channel opener for experimental neonatal seizures and status epilepticus | Q37151699 | ||
Ketamine use in the treatment of refractory status epilepticus | Q38078134 | ||
Drug-induced EEG pattern predicts effectiveness of ketamine in treating refractory status epilepticus | Q38373199 | ||
Lorazepam vs diazepam for pediatric status epilepticus: a randomized clinical trial | Q38431679 | ||
P921 | main subject | status epilepticus | Q980709 |
P304 | page(s) | 45-53 | |
P577 | publication date | 2017-04-02 | |
P1433 | published in | Neurobiology of Disease | Q15716606 |
P1476 | title | Enhanced AMPA receptor-mediated neurotransmission on CA1 pyramidal neurons during status epilepticus | |
P478 | volume | 103 |
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Q55286730 | Astroglial role in the pathophysiology of status epilepticus: an overview. |
Q92253413 | Changes in excitatory and inhibitory receptor expression and network activity during induction and establishment of epilepsy in the rat Reduced Intensity Status Epilepticus (RISE) model |
Q57137825 | Mechanisms of status epilepticus: α-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor hypothesis |
Q98771730 | Olfactomedin-3 Enhances Seizure Activity by Interacting With AMPA Receptors in Epilepsy Models |
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Q60959829 | Seizure-Induced Potentiation of AMPA Receptor-Mediated Synaptic Transmission in the Entorhinal Cortex |
Q92098682 | Sustainable Brain Activity and no End in Sight-What's in It for Status Epilepticus? |
Q55187094 | The Role of Kainate Receptors in the Pathophysiology of Hypoxia-Induced Seizures in the Neonatal Mouse. |
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