2025
Identifying the epileptic network by linking interictal functional and structural connectivity
Boddeti U, Farooque P, McGrath H, Percy J, Chishti O, Duckrow R, Spencer D, Zaveri H, Ksendzovsky A. Identifying the epileptic network by linking interictal functional and structural connectivity. Scientific Reports 2025, 15: 9106. PMID: 40097693, PMCID: PMC11914057, DOI: 10.1038/s41598-025-93978-3.Peer-Reviewed Original ResearchConceptsStructural connectivityFunctional connectivity findingsWhite matter connectivityConnectivity findingsSeizure networkMesial temporal lobe epilepsyHigher functional connectivityPost-operative seizure freedomResective epilepsy surgeryNetwork disorderTemporal lobe epilepsyIntracranial electrode contacts
2022
331 Role of Functional Network Formation in Epilepsy
Boddeti U, Bachani M, Moyer M, Owotade J, Serra R, Zaveri H, Ksendzovsky A. 331 Role of Functional Network Formation in Epilepsy. Neurosurgery 2022, 68: 75-76. DOI: 10.1227/neu.0000000000001880_331.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsEpileptogenic focusFocal epilepsyTetanic stimulationGood surgical outcomePrimary mixed culturesMulti-electrode arraysCortical epilepsyRefractory seizuresSurgical resectionSurgical outcomesEpileptogenic networksVitro stimulationCortical neuronsRat pupsSeizure onsetAxonal boutonsEpilepsy patientsSurgery decisionDaily stimulationDendritic spinesSeizure formationEpilepsyVitro modelStimulationNetwork disorder
2018
Resting state connectivity in neocortical epilepsy: The epilepsy network as a patient-specific biomarker
Marino AC, Yang GJ, Tyrtova E, Wu K, Zaveri HP, Farooque P, Spencer DD, Bandt SK. Resting state connectivity in neocortical epilepsy: The epilepsy network as a patient-specific biomarker. Clinical Neurophysiology 2018, 130: 280-288. PMID: 30605890, DOI: 10.1016/j.clinph.2018.11.016.Peer-Reviewed Original ResearchConceptsLocalization related epilepsyEpilepsy networkSeizure onset locationSingle-patient levelCorrelated network activityPatient-specific biomarkersRelated epilepsyConnectivity patternsNeocortical epilepsyPatient levelSeizure onsetInterictal periodAnatomic locationPatientsPossible biomarkersState connectivityCortical regionsSingle-subject levelTopographic distributionCohortNetwork disorderBrain networksEpilepsyNetwork activityBiomarkersExpanding Brain–Computer Interfaces for Controlling Epilepsy Networks: Novel Thalamic Responsive Neurostimulation in Refractory Epilepsy
Gummadavelli A, Zaveri HP, Spencer DD, Gerrard JL. Expanding Brain–Computer Interfaces for Controlling Epilepsy Networks: Novel Thalamic Responsive Neurostimulation in Refractory Epilepsy. Frontiers In Neuroscience 2018, 12: 474. PMID: 30108472, PMCID: PMC6079216, DOI: 10.3389/fnins.2018.00474.Peer-Reviewed Original ResearchResponsive neurostimulationRefractory epilepsyThalamic nucleiComplex network disorderIntralaminar thalamic nucleiSubcortical brain structuresCortical onsetSeizure controlGeneralized epilepsySeizure networkSeizure onsetEpilepsy networkNeuromodulatory techniquesEpilepsyExcitatory eventsClinical treatmentBrain regionsBrain structuresSeizuresPotential targetIntracranial electroencephalographyNetwork disorderPatientsFeasible targetNeurostimulation
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