Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
about
Future of seizure prediction and intervention: closing the loopSingle unit action potentials in humans and the effect of seizure activity.Ictal high frequency oscillations distinguish two types of seizure territories in humansHuman seizures couple across spatial scales through travelling wave dynamics.Epilepsy surgery: current status and ongoing challenges.Seizure Prediction: Science Fiction or Soon to Become Reality?Neuronal ensemble synchrony during human focal seizures.Ictal propagation of high frequency activity is recapitulated in interictal recordings: effective connectivity of epileptogenic networks recorded with intracranial EEG.Preictal activity of subicular, CA1, and dentate gyrus principal neurons in the dorsal hippocampus before spontaneous seizures in a rat model of temporal lobe epilepsyEvidence for consolidation of neuronal assemblies after seizures in humans.Resolution revolution: epilepsy dynamics at the microscaleSPIKY: a graphical user interface for monitoring spike train synchrony.Initiation, Propagation, and Termination of Partial (Focal) Seizures.Seizure prediction in patients with mesial temporal lobe epilepsy using EEG measures of state similarityBrain State Is a Major Factor in Preseizure Hippocampal Network Activity and Influences Success of Seizure Intervention.WONOEP appraisal: Development of epilepsy biomarkers-What we can learn from our patients?Synchronization and desynchronization in epilepsy: controversies and hypotheses.Ictal onset patterns of local field potentials, high frequency oscillations, and unit activity in human mesial temporal lobe epilepsy.How might novel technologies such as optogenetics lead to better treatments in epilepsy?Status epilepticus as a system disturbance: is status epilepticus due to synchronization or desynchronization?Connectomics and graph theory analyses: Novel insights into network abnormalities in epilepsy.Reactivation of seizure-related changes to interictal spike shape and synchrony during postseizure sleep in patients.Neuronal firing in human epileptic cortex: the ins and outs of synchrony during seizures.Virtual Cortical Resection Reveals Push-Pull Network Control Preceding Seizure Evolution.Reliable and Elastic Propagation of Cortical Seizures In Vivo.Proceedings of the Fourth International Workshop on Advances in Electrocorticography.Involvement of fast-spiking cells in ictal sequences during spontaneous seizures in rats with chronic temporal lobe epilepsy.Monitoring spike train synchrony.Single-unit activities during the transition to seizures in deep mesial structures.Cross-scale effects of neural interactions during human neocortical seizure activity.Stereotypical activation of hippocampal ensembles during seizures.Seizures at the scale of individual neurons.The Enlightened Brain: Novel Imaging Methods Focus on Epileptic Networks at Multiple Scales.Déjà Vu: Same Pattern of Neuron Activation From Seizure to Seizure, Only the Timing Changes.
P2860
Q26827783-1DB7B2F6-EF18-4B99-B7A2-2171CFB35DEFQ27303675-0F3F43D1-DA71-4D8B-9D29-F44C87BB838FQ30559252-B1872A88-1009-4060-AFBF-58A254AD70B8Q30844312-C992BBE6-71B6-4054-8361-8E0A0B2624B7Q30940602-3A4D9C18-DAB3-45F9-9DBD-D951684BD105Q33361580-A29E6143-66F4-48F1-A73F-4529348D6095Q33936005-5F4E851D-404D-4F2E-B6CB-FBDEC2EDC666Q34195765-2D492351-EFE7-42A6-ABBF-B2440DE4C8A0Q34664241-C7BA67F8-8AF8-46AC-BFDE-0C47EF47589CQ34990001-B2E23FB4-C324-41C0-9C6B-799F0C52CFA5Q35220504-A09295D8-92E8-45FE-A710-1B60028AB6EAQ35683156-E90D87A2-817C-4CA4-AC8D-983AE227BD58Q35795541-24630639-F4C4-4A65-A490-6E0AC2AFFC2DQ35815414-24865C79-4634-42CA-BF41-77C7C07775EAQ36319842-C9715809-7684-4B25-A8C7-8FC0856351E2Q36339575-5C14D687-A73D-404E-81CA-A587D94FB101Q36666476-3622B619-A3F3-46A4-A6D4-1DCD8DD7AFD1Q36887618-A5F4AEAD-FA29-4D27-B17B-4D2D3AA0450BQ37142362-23674F48-93E1-474C-BC96-556652D66158Q38133829-E155FE83-C668-462C-94C5-E28123881E0AQ38590537-03357707-A5EA-43BC-BD80-28899856B790Q39177923-54CAAA88-7F05-427C-8815-84913F777049Q40226638-018BDDA0-D9BE-43F1-BB48-56EBC7383B6DQ41057737-523D88CC-7312-4716-9773-93099E787A8EQ41340907-A03E9CFD-C443-4818-B9E4-F7049CFF5711Q41824119-2B532F53-2606-49D1-8752-BD3709072E01Q46643476-4342E183-E46A-46DD-9971-990C9DD1DA3FQ46758904-38875611-1E0D-44DA-B7FC-DF3195F68AF6Q47283874-2358738E-B83A-44D6-952B-2B4D21BE0C01Q47661742-43BE7BDF-775D-413F-930E-0C5627417AD9Q48011122-FBC9745A-A48E-49D0-A1EB-0D3299075FDAQ52148822-00B0EAE9-3E74-4E43-B6FC-E3A0D06FF505Q52597696-8845855C-0190-4AF2-AE39-5A3B32F88A6BQ55163188-9BD79A67-6B6A-4685-BE3A-EA134FEB9DBB
P2860
Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
@ast
Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
@en
type
label
Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
@ast
Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
@en
prefLabel
Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
@ast
Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
@en
P2093
P2860
P1433
P1476
Spatiotemporal neuronal correlates of seizure generation in focal epilepsy.
@en
P2093
Fredric B Meyer
Gregory A Worrell
Mark R Bower
Matt Stead
W Richard Marsh
P2860
P304
P356
10.1111/J.1528-1167.2012.03417.X
P577
2012-02-21T00:00:00Z