about
Large-scale electrophysiology: acquisition, compression, encryption, and storage of big dataLateralization and localization of epilepsy related hemodynamic foci using presurgical fMRI.Forecasting Seizures Using Intracranial EEG Measures and SVM in Naturally Occurring Canine EpilepsyStatistical parametric mapping demonstrates asymmetric uptake with Tc-99m ECD and Tc-99m HMPAO SPECT in normal brainCrowdsourcing reproducible seizure forecasting in human and canine epilepsyStatistical SPECT processing in MRI-negative epilepsy surgeryHigh frequency oscillations are associated with cognitive processing in human recognition memoryLong-term outcomes after nonlesional extratemporal lobe epilepsy surgeryScalp-recorded EEG localization in MRI volume data.Multiscale electrophysiology format: an open-source electrophysiology format using data compression, encryption, and cyclic redundancy check.Metadata and annotations for multi-scale electrophysiological dataNoninvasive imaging of the high frequency brain activity in focal epilepsy patients.Synchrony in normal and focal epileptic brain: the seizure onset zone is functionally disconnectedEvidence for consolidation of neuronal assemblies after seizures in humans.Gamma oscillations precede interictal epileptiform spikes in the seizure onset zone.Ictal SPECT statistical parametric mapping in temporal lobe epilepsy surgerySpectral and spatial shifts of post-ictal slow waves in temporal lobe seizures.Towards improved design and evaluation of epileptic seizure predictors.Behavioral state classification in epileptic brain using intracranial electrophysiology.Crowdsourcing seizure detection: algorithm development and validation on human implanted device recordings.Seizure Forecasting and the Preictal State in Canine Epilepsy.SVM-Based System for Prediction of Epileptic Seizures From iEEG Signal.Using functional MRI alone for localization in focal epilepsy.Dynamic imaging of seizure activity in pediatric epilepsy patients.The functional organization of human epileptic hippocampusCorrection: Forecasting Seizures Using Bivariate Intracranial EEG Measures and SVM in Naturally Occurring Canine Epilepsy.Effects of 5-HT(3) antagonism on postprandial gastric volume and symptoms in humans.Chronic subthreshold cortical stimulation for adult drug-resistant focal epilepsy: safety, feasibility, and technique.Dissecting gamma frequency activity during human memory processing.The practical utility of performing peri-ictal SPECT in the evaluation of children with partial epilepsy.Operator-interactive method for simultaneous measurement of left and right ventricular volumes and ejection fraction by tomographic electrocardiography-gated blood pool radionuclide ventriculography.Corrections to "Noninvasive Imaging of the High Frequency Brain Activity in Focal Epilepsy Patients".Variability in the location of high frequency oscillations during prolonged intracranial EEG recordings.Physiological and pathological high frequency oscillations in focal epilepsyDynamic imaging of ictal rhythmic activity using dense-array EEGDynamic seizure imaging in patients with extratemporal lobe epilepsyNeuroimaging of epilepsyForecasting cycles of seizure likelihoodExploiting Graphoelements and Convolutional Neural Networks with Long Short Term Memory for Classification of the Human ElectroencephalogramSegmentation errors and intertest reliability in automated and manually traced hippocampal volumes
P50
Q24657801-4B3387E3-705B-470E-8FD9-A4CB2624DF7FQ27318368-25976EBB-66D0-43E0-9724-07648FB6008CQ28546986-EA207400-424F-4061-ACB2-6914F6765E78Q28730677-3ACD9FF5-94AE-4DCB-A3F4-E180B0003409Q30489169-17B277F8-40E6-4FAD-9511-922ED23DC4BCQ30574508-B515CB7F-C8FF-49F9-8D4A-A97BA3ED9E11Q30584656-21D27C13-8655-47AD-8D00-97F18CE83C06Q30639842-08DBA976-9F52-4DB6-9AE6-9572082C51C0Q32051878-A85759FC-151E-426F-89F2-8473AEC2F0D6Q33517321-2E95A770-583F-410A-9C81-BEE27E11C604Q33517338-0A8B9BE1-8457-4CF4-9214-64168C6453CCQ34009551-392BA08E-9666-4B0B-8181-F2FEF1FF0EDCQ34430325-7E4C7802-5C26-4BDE-BFFA-D40CED6D6CA0Q34990001-162D70D6-8C58-43CB-85FF-1E514CEA70BEQ35106225-4BA4D3CF-A08A-49B4-83F9-4A38C9A25B93Q36292154-84E17088-E677-4E63-9F28-EB36521BC9A3Q36315326-82702AB7-89A1-4955-AAD5-101B28372503Q38687464-09513941-F38B-4354-9158-B102E709E168Q38775034-E57B304D-E43A-4798-9A24-A7F452F884E4Q38811040-8A22065B-24B2-4CCA-A251-4749FD2CE544Q38837228-BF4C8295-F674-49E2-B93A-ADD89EDD35E1Q39642578-128E6640-9FD9-4BAD-9107-EA7D5B52EB8BQ41607799-70CB40C0-FCE3-46FE-A4C7-BECF2E873477Q42324373-AB1CB7B4-7165-4F02-A3AF-C07CFC58DEB3Q42418076-6F33EEA3-5BD9-4CCC-9515-63854C2BAA38Q42758551-21070C7F-FF63-422D-BB1B-A9C84C3C66D0Q43892498-43155DC7-6134-42A8-991D-DFDBEFC3FB38Q47886241-2A97D0FF-436E-46E1-9264-B2316326744FQ48248973-9FB4BCC5-4089-4D0E-9372-5922BC37738AQ48421791-23168BC7-492C-447B-96EC-CD48A932E036Q51951954-166FCB75-59E0-4577-AB0E-E7A54BB5CBFDQ52151899-B676F194-6C24-4B11-8387-F214D4C745C8Q55290282-6F8ACB65-2589-4A91-877C-96CC7D35A5CAQ57170011-C152CF82-2073-4CC4-B6C5-987B345D9BF6Q83272162-C12965B8-19A6-4B9E-ABBA-E5BEDC78FFB8Q86023872-CEAC7277-1CC1-4418-AD1E-A2807C7316A7Q87933862-20F70F10-1445-4CC1-9785-5AF9800DA5EEQ90704895-C29FCB57-02FE-492B-9798-F21190A82F05Q92460982-DE1F85CC-BC83-4F6A-B8F9-89C0E530B760Q93140195-856B83F1-8B9B-40FB-8B97-35D41F69CC36
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Benjamin Brinkmann
@ast
Benjamin Brinkmann
@en
Benjamin Brinkmann
@es
Benjamin Brinkmann
@sl
type
label
Benjamin Brinkmann
@ast
Benjamin Brinkmann
@en
Benjamin Brinkmann
@es
Benjamin Brinkmann
@sl
prefLabel
Benjamin Brinkmann
@ast
Benjamin Brinkmann
@en
Benjamin Brinkmann
@es
Benjamin Brinkmann
@sl
P106
P1153
7103117272
P21
P31
P496
0000-0002-2392-8608