Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
about
Zinc regulates a key transcriptional pathway for epileptogenesis via metal-regulatory transcription factor 1.Mapping repetition suppression of the P50 evoked response to the human cerebral cortex.Mapping repetition suppression of the N100 evoked response to the human cerebral cortexTowards a functional topography of sensory gating areas: invasive P50 recording and electrical stimulation mapping in epilepsy surgery candidates.Cliniconeuropathologic correlations show astroglial albumin storage as a common factor in epileptogenic vascular lesions.Preoperative automated fibre quantification predicts postoperative seizure outcome in temporal lobe epilepsy.Intractable occipital lobe epilepsy: clinical characteristics, surgical treatment, and a systematic review of the literature.In situ-RT and immunolaser microdissection for mRNA analysis of individual cells isolated from epilepsy-associated glioneuronal tumors.Incidental and intentional learning of verbal episodic material differentially modifies functional brain networksHuman intracranial high frequency oscillations (HFOs) detected by automatic time-frequency analysisLesional mesial temporal lobe epilepsy and limited resections: prognostic factors and outcomeMorphometric MRI alterations and postoperative seizure control in refractory temporal lobe epilepsy.The Classical Pathways of Occipital Lobe Epileptic Propagation Revised in the Light of White Matter Dissection.A new clinico-pathological classification system for mesial temporal sclerosis.Concordance of Epileptic Networks Associated with Epileptic Spikes Measured by High-Density EEG and Fast fMRIVision after trans-sylvian or temporobasal selective amygdalohippocampectomy: a prospective randomised trial.Focal cortical dysplasia: long term seizure outcome after surgical treatment.Gene profiling in temporal lobe epilepsy tissue and dysplastic lesions.Thalamotemporal alteration and postoperative seizures in temporal lobe epilepsy.Automated tractography in patients with temporal lobe epilepsy using TRActs Constrained by UnderLying Anatomy (TRACULA)A second chance--reoperation in patients with failed surgery for intractable epilepsy: long-term outcome, neuropsychology and complications.In vivo mapping of hippocampal subfields in mesial temporal lobe epilepsy: relation to histopathology.Surgical management and long-term seizure outcome after epilepsy surgery for different types of epilepsy associated with cerebral cavernous malformations.Correlated stage- and subfield-associated hippocampal gene expression patterns in experimental and human temporal lobe epilepsy.Interictal-like network activity and receptor expression in the epileptic human lateral amygdala.Long-term variability of global statistical properties of epileptic brain networks.Genome-wide mapping of genetic determinants influencing DNA methylation and gene expression in human hippocampus.Functional characterization of an oxytocin receptor gene variant (rs2268498) previously associated with social cognition by expression analysis in vitro and in human brain biopsy.Neuropathological signs of inflammation correlate with mitochondrial DNA deletions in mesial temporal lobe epilepsy.Seizure Outcomes in Patients With Surgically Treated Cerebral Arteriovenous Malformations.Mutational and expression analysis of CDK1, cyclinA2 and cyclinB1 in epilepsy-associated glioneuronal lesions.Relevance of hippocampal integrity for memory outcome after surgical treatment of mesial temporal lobe epilepsy.Continuous motor monitoring enhances functional preservation and seizure-free outcome in surgery for intractable focal epilepsy.Temporal lobe epilepsy due to meningoencephaloceles into the greater sphenoid wing: a consequence of idiopathic intracranial hypertension?Seizure outcome, functional outcome, and quality of life after hemispherectomy in adults.Surgical treatment for refractory temporal lobe epilepsy in the elderly: seizure outcome and neuropsychological sequels compared with a younger cohort.Risks and benefits of invasive epilepsy surgery workup with implanted subdural and depth electrodes.Epilepsy surgery of the rolandic and immediate perirolandic cortex: surgical outcome and prognostic factors.Limbic system abnormalities associated with Ammon's horn sclerosis do not alter seizure outcome after amygdalohippocampectomy.Brain tumors in children with refractory seizures—a long-term follow-up study after epilepsy surgery.
P2860
Q27320009-C7FB93C9-FE85-454C-AC1A-B61074B60C5BQ30440733-F0E1D49B-ED9D-4024-AC76-A784917297B6Q30467952-828E9075-F5A3-4A16-B9FB-857ED03460AFQ30500019-02EABD6C-19BD-48BC-94FD-1E48D0C5B8BBQ30540237-18E12379-55FC-42B6-A4CD-E12B73F98884Q30834639-06C253EE-2B3D-4C76-A6C3-F5A34058B3EBQ30857161-11BD7A27-B0C4-441E-8A6C-47C38C2E2CC8Q31105596-3BC54C77-BDE6-4CE4-AC5C-F56A342AACF3Q35048917-19194F03-2550-44CF-B7EC-8D8880C12544Q35145603-4C1A756F-EFED-427D-AADE-BCA408D56BB6Q35477745-F0421CFE-4BA5-4310-A35C-A6FE9A4E9E74Q35556975-99A5CC60-63D8-4FDF-B084-2DEB97B2E594Q35603453-93E36ACC-0E9B-4F02-B974-1F5B72A4F243Q35630377-24B22DB1-12EA-4F96-9981-7615A4FA01A3Q35819075-845FD672-815B-4736-8EE7-E4A5FF37FC25Q36044078-216EA512-8BE8-40BE-A943-623C1CB5865BQ36227121-A49E06BF-87B0-49DB-A628-DB6CBE4AA3B8Q36630119-C18247A2-BD34-46A4-B064-43D5523A5968Q36800091-4E0E3649-43F7-492A-951B-3345CBD1E353Q37600722-395F0A09-FECB-4C55-A641-A1173D1FAFD8Q41099225-BB7B087C-82C8-4674-A2A6-2B8C084ADD53Q43690068-D5B92A42-334C-43B0-9502-4CC1E83F9F40Q44061234-C5A9863A-AC23-4D6E-B712-FA0539095855Q44680410-E1621C68-E4F6-4972-9A49-DC60AF453A7FQ44761947-19FCBA3E-5839-4681-A3E9-3EA498D960CBQ44762799-6081BD22-B973-4904-AAB3-9EA05C291533Q45821536-5070C9F1-0DA1-4144-A731-8D7E5097C6ACQ46515758-D103F00E-1D30-4571-A1F0-534F902C89A1Q46577255-CC0C4350-D5F7-4E41-A5CB-A4CEF0A519CEQ47999607-39583EB2-9E08-4BCA-A869-261A8B3FA3EAQ48080915-D46A1086-E556-4861-85D6-27D9A949279EQ48097192-614A5B03-7767-4415-AB7D-DBEC07EE84D0Q48215745-062AA73F-6E85-496F-9E3E-EDF3C216650BQ48234707-E07E1F6E-D17B-46D3-AFAC-421CE5EE3C15Q48427285-1625D2A5-5B4C-4C4A-875D-2F6EA9F51AC8Q48441437-039F0396-28B1-4B10-B0C4-A9250D684406Q48469324-6262C801-DF4D-4AE5-A1B8-5953A8E4BD0FQ48612046-31D7AC71-083E-4482-90E5-664FCF886E77Q48938883-C2FCB78F-45F2-454D-B45F-058C3D1D942FQ48982989-E3FE9A61-0622-4956-A82E-8DA428317001
P2860
Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
description
2002 nî lūn-bûn
@nan
2002 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
@ast
Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
@en
type
label
Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
@ast
Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
@en
prefLabel
Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
@ast
Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
@en
P2093
P356
P1476
Preoperative evaluation for epilepsy surgery (Bonn Algorithm).
@en
P2093
H Clusmann
T Grunwald
P304
P356
10.1055/S-2002-35826
P577
2002-01-01T00:00:00Z