Interictal high-frequency oscillations (80-500 Hz) in the human epileptic brain: entorhinal cortex.
about
Origin and propagation of epileptic spasms delineated on electrocorticography.High frequency oscillations in intracranial EEGs mark epileptogenicity rather than lesion typeElectrophysiological biomarkers of epilepsy.Conundrums of high-frequency oscillations (80-800 Hz) in the epileptic brain.Recording and analysis techniques for high-frequency oscillationsHigh-frequency oscillations (HFOs) in clinical epilepsyVigabatrin therapy implicates neocortical high frequency oscillations in an animal model of infantile spasms.High-frequency oscillations in epilepsy and surgical outcome. A meta-analysis.Interictal high-frequency oscillations in focal human epilepsyHippocampal sharp wave-ripple: A cognitive biomarker for episodic memory and planningEpileptogenesis is associated with enhanced glutamatergic transmission in the perforant pathCharacterization of synchronization in interacting groups of oscillators: application to seizuresNonuniform high-gamma (60-500 Hz) power changes dissociate cognitive task and anatomy in human cortex.Role of subdural electrocorticography in prediction of long-term seizure outcome in epilepsy surgery.A nonsynaptic mechanism underlying interictal discharges in human epileptic neocortex.Laminar analysis of slow wave activity in humans.High frequency oscillations and seizure frequency in patients with focal epilepsy.Ictal and interictal high frequency oscillations in patients with focal epilepsy.Value of electrical stimulation and high frequency oscillations (80-500 Hz) in identifying epileptogenic areas during intracranial EEG recordings.Influence of contact size on the detection of HFOs in human intracerebral EEG recordings.Invasive recordings from the human brain: clinical insights and beyond.Full-band EEG (fbEEG): a new standard for clinical electroencephalography.Neuronal shot noise and Brownian 1/f2 behavior in the local field potentialFast ripples: what do new data about gap junctions and disrupted spike firing reveal about underlying mechanisms?Phase I trial: safety and feasibility of intracranial electroencephalography using hybrid subdural electrodes containing macro- and microelectrode arrays.Detecting seizure origin using basic, multiscale population dynamic measures: preliminary findings.On the nature of seizure dynamics.Detection of high-frequency oscillations by hybrid depth electrodes in standard clinical intracranial EEG recordingsSubtypes of medial temporal lobe epilepsy: influence on temporal lobectomy outcomes?Microseizures and the spatiotemporal scales of human partial epilepsy.Microphysiology of epileptiform activity in human neocortex.Removing interictal fast ripples on electrocorticography linked with seizure freedom in childrenEpilepsy surgery: eligibility criteria and presurgical evaluation.The emergence of single neurons in clinical neurology.The contribution of raised intraneuronal chloride to epileptic network activity.Three-dimensional surface maps link local atrophy and fast ripples in human epileptic hippocampus.A study of the dynamics of seizure propagation across micro domains in the vicinity of the seizure onset zone.Sleep in the human hippocampus: a stereo-EEG study.Detecting and characterizing high-frequency oscillations in epilepsy: a case study of big data analysis.Mapping and mining interictal pathological gamma (30-100 Hz) oscillations with clinical intracranial EEG in patients with epilepsy.
P2860
Q24537461-ED811BCD-0C70-4E25-B5F8-A2C537BCCFFFQ24611485-4C4C85E4-73F0-491F-832D-742611754F05Q26999028-41C18151-26CE-48C4-8DC6-387CD58A0D23Q27008051-D051B419-3740-4DD5-8E33-DB17A63C7AD5Q27008822-8728D7CE-D162-4D2C-976C-97C89178DBEAQ27011268-FD0F52EE-5864-4E10-84D7-D2F3F8517645Q27308034-6ADC926A-DDAC-4065-AA32-7D024127930AQ27317474-A2F14A3A-AF0F-47D6-B598-E68E5DC3094BQ28076182-5729F9C6-45EA-4636-9E01-7320ED9575F8Q28083958-57AEB9BF-87EA-4F86-A5F8-F24EB3B9DC91Q28281327-48B9FDAA-DFED-4813-900B-0228F83E689BQ30440289-B0C1CCE0-7DCE-4EA5-93C7-272F78AFA29AQ30451169-853D8879-FBD9-46CB-935B-2FD50671B4DEQ30487017-07833032-22A2-44C3-9D56-9065A7F93433Q30492788-B914DD68-E4E0-46B7-95B1-48F044D08417Q30500780-B22B20F8-741F-4639-A3E6-301ED4481955Q30544551-9D8874C7-9EF9-46E8-A028-106CC8A2C404Q30544661-CB088771-EBD2-4327-BD2C-F15C2845DDE4Q30544934-D6B66F45-DCFE-4A42-A647-5760463C3BC1Q30657221-D996C955-3B1E-4958-B01E-A834F44C6E20Q30978960-2F54203F-6FFC-466A-8CFD-C5C5A6EB7254Q31019478-6DA90F27-F0EC-4BC4-97CC-55AE3A1CBC89Q33405247-0D375664-67BD-41DB-B595-F320956899DEQ33440616-DA05EC92-FF66-4F23-9C29-D45F1FF57256Q33738591-B08F2486-7B91-4D5C-A83A-C58B1DE1E8E4Q33738649-8F82A01B-3C66-4723-AC99-9A4A270967D5Q33937473-3681CB44-B2D4-4EDE-BE55-97EB2B0C78A6Q34009838-D8A2062C-111E-4E1D-AC17-595A6735A0EFQ34066041-F0D7E729-C952-43EB-83EE-EB2A0DDEBFD8Q34088657-580C9DB8-06BB-4BA3-8923-82DC8073F859Q34257933-0D734581-6D08-4C8B-9D78-4607D0AEEE64Q34551618-CF99FD91-D129-4343-B9C2-12632B486683Q35236949-018C78E0-14E7-4AF0-A7D8-E333572C0132Q35593737-2595AD11-3D27-43BC-AAF2-BD13F52B6404Q35625725-477C2E8B-EDD8-41BB-8BBD-615852278B7AQ35821420-938D040F-BDCC-4F71-8C89-C692D149C5F0Q35938084-CDACAB96-D4C2-4B3D-976F-1AF665135F4FQ35962507-1F543211-5E9C-4CDC-ACB9-9FC0A0FB9B46Q36303633-7CED3311-E9AF-4F66-8A70-3267232D369DQ36344648-1566D66D-8303-4399-A64C-875156306F3A
P2860
Interictal high-frequency oscillations (80-500 Hz) in the human epileptic brain: entorhinal cortex.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
Interictal high-frequency osci ...... ptic brain: entorhinal cortex.
@en
type
label
Interictal high-frequency osci ...... ptic brain: entorhinal cortex.
@en
prefLabel
Interictal high-frequency osci ...... ptic brain: entorhinal cortex.
@en
P2093
P2860
P356
P1433
P1476
Interictal high-frequency osci ...... ptic brain: entorhinal cortex.
@en
P2093
Anatol Bragin
Charles L Wilson
Jerome Engel
Mark Reddick
Richard J Staba
P2860
P304
P356
10.1002/ANA.10291
P50
P577
2002-10-01T00:00:00Z