Prolonged seizures and cellular injury: understanding the connection.
about
Neuroprotective and disease-modifying effects of the ketogenic dietDomoic acid toxicologic pathology: a reviewThe role of APOE-ɛ4 and beta amyloid in the differential rate of recovery from ECT: a reviewEarly Use of the NMDA Receptor Antagonist Ketamine in Refractory and Superrefractory Status EpilepticusCharacterization of status epilepticus induced by two organophosphates in rats.The recovery of acetylcholinesterase activity and the progression of neuropathological and pathophysiological alterations in the rat basolateral amygdala after soman-induced status epilepticus: relation to anxiety-like behavior.Altered mRNA editing and expression of ionotropic glutamate receptors after kainic acid exposure in cyclooxygenase-2 deficient mice.Identification of translational activators of glial glutamate transporter EAAT2 through cell-based high-throughput screening: an approach to prevent excitotoxicity.Cellular injury and neuroinflammation in children with chronic intractable epilepsy.Neuronal expression of sodium/bicarbonate cotransporter NBCn1 (SLC4A7) and its response to chronic metabolic acidosis.Deletion of Puma protects hippocampal neurons in a model of severe status epilepticus.Influence of the NR3A subunit on NMDA receptor functions.Elemental anomalies in the hippocampal formation after repetitive electrical stimulation: an X-ray fluorescence microscopy study.Reciprocal regulation of epileptiform neuronal oscillations and electrical synapses in the rat hippocampus.Prevention or modification of epileptogenesis after brain insults: experimental approaches and translational research.Treatment of electroencephalographic status epilepticus after cardiopulmonary resuscitation (TELSTAR): study protocol for a randomized controlled trial.NMDA antagonists for refractory seizures.Suppression of TNF receptor-1 signaling in an in vitro model of epileptic tolerance.Cell signaling underlying epileptic behavior.Neuronal deletion of caspase 8 protects against brain injury in mouse models of controlled cortical impact and kainic acid-induced excitotoxicityModern inhalational anesthetics for refractory status epilepticus.Successful drug development despite adverse preclinical findings part 1: processes to address issues and most important findingsSynchrotron radiation Fourier-transform infrared and Raman microspectroscopy study showing an increased frequency of creatine inclusions in the rat hippocampal formation following pilocarpine-induced seizuresImpaired Focal Adhesion Kinase-Grb2 Interaction during Elevated Activity in Hippocampal Neurons.Bcl-w protects hippocampus during experimental status epilepticus.Long-term neuropsychological, neuroanatomical, and life outcome in hippocampal amnesia.Blood-brain barrier dysfunction in epileptogenesis of the temporal lobeDistinct synaptic and neurochemical changes to the granule cell-CA3 projection in Bassoon mutant mice.Peroxisome proliferator-activated receptors γ/mitochondrial uncoupling protein 2 signaling protects against seizure-induced neuronal cell death in the hippocampus following experimental status epilepticus.Epileptogenesis in organotypic hippocampal cultures has limited dependence on culture medium composition.Development of the calcium plateau following status epilepticus: role of calcium in epileptogenesis.Time course and mechanism of hippocampal neuronal death in an in vitro model of status epilepticus: role of NMDA receptor activation and NMDA dependent calcium entry.Canonical transient receptor channel 5 (TRPC5) and TRPC1/4 contribute to seizure and excitotoxicity by distinct cellular mechanisms.Generalised convulsive status epilepticus: an overviewApoptosis through Death Receptors in Temporal Lobe Epilepsy-Associated Hippocampal Sclerosis.Altered GABAergic neurotransmission is associated with increased kainate-induced seizure in prostaglandin-endoperoxide synthase-2 deficient miceTo know or not to know: does EEG monitoring in the paediatric intensive care unit add anything besides cost?Reactive oxygen species mediate cognitive deficits in experimental temporal lobe epilepsy.Carisbamate prevents the development and expression of spontaneous recurrent epileptiform discharges and is neuroprotective in cultured hippocampal neuronsIn vitro status epilepticus but not spontaneous recurrent seizures cause cell death in cultured hippocampal neurons.
P2860
Q24646914-06045DF3-7B1C-4643-B2E1-5906FE0E1AD5Q24657510-47C1644E-E15E-448C-9AD3-FC8038CCC5D3Q27001073-B228B7FA-21FD-4E85-A093-7761DBD997CEQ27024326-887AE78F-4163-4808-AAAA-2D7CC335D005Q28387562-7399DB61-D923-4A7F-8619-CA8CF1E02695Q30410510-6536CADB-D9F4-445A-8B11-4DC0AEE2BC8BQ31010610-E9E791E7-F0E1-4FDA-B909-624CFECC9975Q33589719-C7C16E92-7401-4133-B99F-1D8E14D571CFQ33611760-077CDF6A-F313-4887-98F9-E0676D39B304Q33840391-452AF917-87E8-4F38-83A8-7D5F9C14B53AQ33880493-6F42C5BB-52A2-4351-B2D2-8C1220A87C01Q33906149-1B0318B6-538F-4BB5-A48F-CAE2F5CDE9F5Q34243436-69D0E8E9-492C-4A9D-9136-07747BC2EFD0Q34316649-72AB71DE-B576-4B9F-8650-C49E57B8AD16Q34458158-E71439E1-D428-4798-A218-5A43BBFFC7B9Q34544222-ED09F50F-0C02-4CBF-8B3E-4583CB372E68Q35092368-80A64319-1CD8-435F-9A9C-704EAD1A2B93Q35098440-EE3F4B44-3580-4D31-B4EF-854C25A0DCE4Q35151927-9F4BDEE8-B249-4F6A-9BE3-39B18238A331Q35217964-A03692D9-3D71-4959-BF1B-4803EACCFC0AQ35540627-6E06BD63-7462-4F98-A247-EB745ECF9C9DQ35603973-FCF17028-5E30-46AD-BDA9-C7EBAF039AB1Q35761665-CC730E07-DE2E-4E08-A68E-D8FF1E08712FQ35902543-837E83BF-D774-4156-A22C-D82C18EA9844Q36007447-84E4C4E1-086F-4DA7-835B-AE8E29282026Q36079681-75F1D7F5-6C23-4296-9A34-B28105FAF28AQ36168832-3F112A49-A4A0-432C-95BF-11CD2F40EA0BQ36191842-B22A9556-C849-46BC-A104-24C3DAF9E6A8Q36241486-32CF8C4B-D4AF-4AF1-AC01-0DFE4CB49716Q36287500-06A601F1-B205-4BA4-AC6B-7C695873006AQ36333307-E164D96C-A52D-4768-8C5B-0E5962441183Q36571496-70380E6C-D6EE-42AC-93B9-3F185F17624AQ36573164-83E84865-E2FF-42A1-8C60-5F58C2911136Q36651076-E2744AA8-021B-43AD-8CA2-6385D64B9E20Q36661383-062EAB3E-30B6-4109-9982-78969E3022A3Q36711212-4C17E0DD-568F-429D-9A89-7FFCCB72A985Q36722149-E11E81AE-786E-4881-AE45-B6FABD1B38E6Q36912566-85E3E4AD-7CAB-4AE0-864A-AE3325E32506Q37045473-F2195422-EFD8-4475-98FD-253E302AF526Q37045489-F7EA5B87-923D-4D74-B916-4A71D05D0D80
P2860
Prolonged seizures and cellular injury: understanding the connection.
description
2005 nî lūn-bûn
@nan
2005 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Prolonged seizures and cellular injury: understanding the connection.
@ast
Prolonged seizures and cellular injury: understanding the connection.
@en
type
label
Prolonged seizures and cellular injury: understanding the connection.
@ast
Prolonged seizures and cellular injury: understanding the connection.
@en
prefLabel
Prolonged seizures and cellular injury: understanding the connection.
@ast
Prolonged seizures and cellular injury: understanding the connection.
@en
P1433
P1476
Prolonged seizures and cellular injury: understanding the connection.
@en
P2093
Denson G Fujikawa
P356
10.1016/J.YEBEH.2005.08.003
P478
P577
2005-11-08T00:00:00Z