2024
The human claustrum tracks slow waves during sleep
Lamsam L, Gu B, Liang M, Sun G, Khan K, Sheth K, Hirsch L, Pittenger C, Kaye A, Krystal J, Damisah E. The human claustrum tracks slow waves during sleep. Nature Communications 2024, 15: 8964. PMID: 39419999, PMCID: PMC11487173, DOI: 10.1038/s41467-024-53477-x.Peer-Reviewed Original ResearchSeizure Assessment and Forecasting With Efficient Rapid-EEG
Kalkach-Aparicio M, Fatima S, Selte A, Sheikh I, Cormier J, Gallagher K, Avagyan G, Cespedes J, Krishnamurthy P, Elazim A, Khan N, Hussein O, Maganti R, Larocque J, Holla S, Desai M, Westover B, Hirsch L, Struck A. Seizure Assessment and Forecasting With Efficient Rapid-EEG. Neurology 2024, 103: e209621. PMID: 38875512, DOI: 10.1212/wnl.0000000000209621.Peer-Reviewed Original ResearchConceptsMonitoring of at-risk patientsRecords of patientsTertiary care centerReceiver operating characteristic curveCritically ill patientsAt-risk patientsClass II evidenceDiagnostic accuracy studiesOperating characteristics curveMedian ageSecondary endpointsPrevent overtreatmentNo significant differenceEEG reviewRisk stratificationNoninferiority marginAntiseizure medicationsClinical correlatesPrimary outcomeII evidenceEEG technologistsSeizure assessmentIll patientsComparative effectiveness studiesLow riskSeizing Control: Primary Visual Cortex Epilepsy Treated With Resection and Responsive Neurostimulation: 2-Dimensional Operative Video
Merenzon M, Lamsam L, McGrath H, Sivaraju A, Hirsch L, Cukiert A, Zibly Z, Spencer D, Damisah E. Seizing Control: Primary Visual Cortex Epilepsy Treated With Resection and Responsive Neurostimulation: 2-Dimensional Operative Video. Operative Neurosurgery 2024, 27: 262-263. PMID: 39007609, DOI: 10.1227/ons.0000000000001109.Peer-Reviewed Original Research
2022
Electronic seizure diaries for clinical care and research
Gray TE, Hirsch LJ, Quraishi IH. Electronic seizure diaries for clinical care and research. Epileptic Disorders 2022, 24: 803-811. PMID: 35811431, DOI: 10.1684/epd.2022.1451.Peer-Reviewed Original ResearchPregabalin for Recurrent Seizures in Critical Illness: A Promising Adjunctive Therapy, Especially for cyclic Seizures
Busl KM, Fong MWK, Newcomer Z, Patel M, Cohen SA, Jadav R, Smith CN, Mitropanopoulos S, Bruzzone M, Hella M, Eisenschenk S, Robinson CP, Roth WH, Ameli PA, Babi MA, Pizzi MA, Gilmore EJ, Hirsch LJ, Maciel CB. Pregabalin for Recurrent Seizures in Critical Illness: A Promising Adjunctive Therapy, Especially for cyclic Seizures. Neurocritical Care 2022, 37: 140-148. PMID: 35217998, DOI: 10.1007/s12028-022-01459-6.Peer-Reviewed Original ResearchConceptsCyclic seizuresSeizure burdenSeizure frequencyRecurrent seizuresMin/hourAntiseizure medicationsElectrographic seizure burdenMedian seizure frequencyNeurocritical care settingPromising adjunctive therapyEffective adjunctive treatmentVoltage-gated calcium channelsNeurointensive care unitRetrospective case seriesTreatment of seizuresAlpha2-delta subunitExcitatory neurotransmitter releaseCoprimary outcomesIll cohortPGB administrationAntiseizure effectsSeizure recurrenceAdjunctive therapyCritical illnessRefractory seizures
2021
Hospital Revisits for Post-Ischemic Stroke Epilepsy after Acute Stroke Interventions
Kuohn LR, Herman AL, Soto AL, Brown SC, Gilmore EJ, Hirsch LJ, Matouk CC, Sheth KN, Kim JA. Hospital Revisits for Post-Ischemic Stroke Epilepsy after Acute Stroke Interventions. Journal Of Stroke And Cerebrovascular Diseases 2021, 31: 106155. PMID: 34688213, PMCID: PMC8766898, DOI: 10.1016/j.jstrokecerebrovasdis.2021.106155.Peer-Reviewed Original ResearchConceptsIschemic stroke survivorsIV-tPADecompressive craniectomyHospital revisitsStroke survivorsAcute stroke interventionAcute ischemic strokeAcute stroke careProportional hazards regressionImpact of therapyHistory of epilepsyAcute seizuresHospital seizuresIschemic strokeStroke severityPrimary outcomeStroke interventionStroke treatmentStroke careHazards regressionMultivariable modelRetrospective analysisCumulative rateClaims dataPatientsGerstmann Syndrome Deconstructed by Cortical Stimulation
Vaddiparti A, McGrath H, Benjamin C, Sivaraju A, Spencer DD, Hirsch LJ, Damisah E, Quraishi IH. Gerstmann Syndrome Deconstructed by Cortical Stimulation. Neurology 2021, 97: 420-422. PMID: 34187861, PMCID: PMC9246017, DOI: 10.1212/wnl.0000000000012441.Peer-Reviewed Original ResearchPatient‐detectable responsive neurostimulation as a seizure warning system
Quraishi IH, Hirsch LJ. Patient‐detectable responsive neurostimulation as a seizure warning system. Epilepsia 2021, 62: e110-e116. PMID: 34018182, PMCID: PMC8629031, DOI: 10.1111/epi.16933.Peer-Reviewed Original ResearchConceptsResponsive neurostimulation systemFocal impaired awareness seizuresProportion of patientsQuality of lifeSeizure warningTolerable symptomsClinical seizuresLatter therapySelect patientsAwareness seizuresEpileptiform activityEarly recognitionResponsive neurostimulationEpileptiform patternsCognitive impairmentPatientsNeurostimulation systemSymptomsSeizuresTherapyTreatment of clustersStimulationSeizure warning systemSeizure recognitionEpilepsyElectroencephalographic Abnormalities are Common in COVID‐19 and are Associated with Outcomes
Lin L, Al‐Faraj A, Ayub N, Bravo P, Das S, Ferlini L, Karakis I, Lee JW, Mukerji SS, Newey CR, Pathmanathan J, Abdennadher M, Casassa C, Gaspard N, Goldenholz DM, Gilmore EJ, Jing J, Kim JA, Kimchi EY, Ladha HS, Tobochnik S, Zafar S, Hirsch LJ, Westover MB, Shafi MM. Electroencephalographic Abnormalities are Common in COVID‐19 and are Associated with Outcomes. Annals Of Neurology 2021, 89: 872-883. PMID: 33704826, PMCID: PMC8104061, DOI: 10.1002/ana.26060.Peer-Reviewed Original ResearchConceptsNonconvulsive status epilepticusElectrographic seizuresClinical outcomesEpileptiform abnormalitiesRisk factorsPresence of NCSEMultivariate Cox proportional hazards analysisMulticenter retrospective cohort studyCox proportional hazards analysisCOVID-19Retrospective cohort studyClinical risk factorsContinuous electroencephalogram monitoringAdverse clinical outcomesProportional hazards analysisCoronavirus disease 2019Ann NeurolHospital mortalityHospital lengthClinical seizuresCohort studyIndependent predictorsStatus epilepticusEEG findingsElectroencephalographic abnormalitiesBrief potentially ictal rhythmic discharges and paroxysmal fast activity as scalp electroencephalographic biomarkers of seizure activity and seizure onset zone
Yoo JY, Jetté N, Kwon C, Young J, Marcuse LV, Fields MC, Gaspard N, Hirsch LJ. Brief potentially ictal rhythmic discharges and paroxysmal fast activity as scalp electroencephalographic biomarkers of seizure activity and seizure onset zone. Epilepsia 2021, 62: 742-751. PMID: 33576500, DOI: 10.1111/epi.16822.Peer-Reviewed Original ResearchConceptsParoxysmal fast activitySeizure onset zoneIctal rhythmic dischargesClinical significanceElectrographic seizuresSeizure activityRhythmic dischargesFast activityOnset zoneUncontrolled seizure activityPosterior dominant rhythmSimilar clinical significancePatient demographicsElectroencephalographic biomarkerLocalizing signFocal slowingClinical historySeizure riskEEG backgroundPatientsAdult cohortDominant rhythmSeizuresDistinct entityEEG biomarkersVideo quality using outpatient smartphone videos in epilepsy: Results from the OSmartViE study
Tatum WO, Hirsch LJ, Gelfand MA, Acton EK, LaFrance WC, Duckrow RB, Chen D, Blum AS, Hixson J, Drazkowski J, Benbadis S, Cascino GD, Collaborators T. Video quality using outpatient smartphone videos in epilepsy: Results from the OSmartViE study. European Journal Of Neurology 2021, 28: 1453-1462. PMID: 33465822, DOI: 10.1111/ene.14744.Peer-Reviewed Original ResearchConceptsPsychogenic nonepileptic attacksNeurologic eventsEpileptic seizuresInpatient video-electroencephalography (EEG) monitoringPhysiologic nonepileptic eventsMulticenter cohort studyMajority of patientsVideo-electroencephalography monitoringVideo-EEG monitoringSimilar diagnostic accuracyHome video recordingEpilepsy outpatientsNeurological disease statesCohort studyNeurological eventsNonepileptic eventsNonepileptic attacksUnknown diagnosisAdequate durationClinical informationPatientsSenior neurology residentsAccurate diagnosisDiagnostic accuracyNeurology residents
2020
Development and validation of a predictive model of drug-resistant genetic generalized epilepsy.
Choi H, Detyniecki K, Bazil C, Thornton S, Crosta P, Tolba H, Muneeb M, Hirsch LJ, Heinzen EL, Sen A, Depondt C, Perucca P, Heiman GA, Adcock J, Andrade D, Cavalleri G, Costello D, Delanty N, Dugan P, Goldstein D, Kwan P, Nascimento F, O’Brien T, Radthke R, Smith P, Thomas R. Development and validation of a predictive model of drug-resistant genetic generalized epilepsy. Neurology 2020, 95: e2150-e2160. PMID: 32759205, PMCID: PMC7713754, DOI: 10.1212/wnl.0000000000010597.Peer-Reviewed Original ResearchConceptsGenetic generalized epilepsyCatamenial epilepsyGeneralized epilepsyPsychiatric conditionsOngoing longitudinal observational studyGeneralized tonic clonicTertiary epilepsy centerNegative prognostic factorCase-control studyLongitudinal observational studyClinical prediction modelAED resistanceTonic clonicPrognostic factorsSeizure typesEpilepsy centersAntiepileptic drugsAbsence seizuresObservational studyOngoing longitudinal studyEpilepsyCase statusAED responsePatientsExternal testing datasetNine-year prospective efficacy and safety of brain-responsive neurostimulation for focal epilepsy
Nair DR, Laxer KD, Weber PB, Murro AM, Park YD, Barkley GL, Smith BJ, Gwinn RP, Doherty MJ, Noe KH, Zimmerman RS, Bergey GK, Anderson WS, Heck C, Liu CY, Lee RW, Sadler T, Duckrow RB, Hirsch LJ, Wharen RE, Tatum W, Srinivasan S, McKhann GM, Agostini MA, Alexopoulos AV, Jobst BC, Roberts DW, Salanova V, Witt TC, Cash SS, Cole AJ, Worrell GA, Lundstrom BN, Edwards JC, Halford JJ, Spencer DC, Ernst L, Skidmore CT, Sperling MR, Miller I, Geller EB, Berg MJ, Fessler AJ, Rutecki P, Goldman AM, Mizrahi EM, Gross RE, Shields DC, Schwartz TH, Labar DR, Fountain NB, Elias WJ, Olejniczak PW, Villemarette-Pittman NR, Eisenschenk S, Roper SN, Boggs JG, Courtney TA, Sun FT, Seale CG, Miller KL, Skarpaas TL, Morrell MJ. Nine-year prospective efficacy and safety of brain-responsive neurostimulation for focal epilepsy. Neurology 2020, 95: 10.1212/wnl.0000000000010154. PMID: 32690786, PMCID: PMC7538230, DOI: 10.1212/wnl.0000000000010154.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAgedDepressive DisorderDrug Resistant EpilepsyElectric Stimulation TherapyEpilepsies, PartialFemaleFollow-Up StudiesHumansImplantable NeurostimulatorsIntracranial HemorrhagesMaleMemory DisordersMiddle AgedProspective StudiesProsthesis-Related InfectionsQuality of LifeRandomized Controlled Trials as TopicStatus EpilepticusSudden Unexpected Death in EpilepsySuicideTreatment OutcomeYoung AdultConceptsBrain-responsive neurostimulationQuality of lifeFocal onset seizuresAdverse eventsSeizure frequencyIntractable focal onset seizuresProspective open-label trialOverall QOLOpen-label trialSerious adverse eventsClass IV evidenceMedian percent reductionSudden unexplained deathMedian percent changeSeizure-free periodQOLIE-89SUDEP ratesLabel trialSeizure freedomEpilepsy ratesFocal seizuresOnset seizuresEpilepsy InventoryAcceptable safetyFocal epilepsyBeyond implantation effect? Long-term seizure reduction and freedom following intracranial monitoring without additional surgical interventions
Percy J, Zaveri H, Duckrow RB, Gerrard J, Farooque P, Hirsch LJ, Spencer DD, Sivaraju A. Beyond implantation effect? Long-term seizure reduction and freedom following intracranial monitoring without additional surgical interventions. Epilepsy & Behavior 2020, 111: 107231. PMID: 32615416, DOI: 10.1016/j.yebeh.2020.107231.Peer-Reviewed Original ResearchConceptsLong-term seizure freedomSeizure freedomSeizure frequencyElectrode implantationIntracranial studiesLong-term seizure reductionAdditional surgical interventionSeizure onset localizationIntracranial electroencephalogram monitoringSeizure reductionConsecutive patientsSurgical interventionEpileptogenic networksElectroencephalogram monitoringNeuromodulatory effectsRetrospective analysisIntracranial monitoringTransient improvementDepth electrodesPatientsYear 4ImplantationAdequate dataYearsEvaluating the Clinical Impact of Rapid Response Electroencephalography: The DECIDE Multicenter Prospective Observational Clinical Study.
Vespa PM, Olson DM, John S, Hobbs KS, Gururangan K, Nie K, Desai MJ, Markert M, Parvizi J, Bleck TP, Hirsch LJ, Westover MB. Evaluating the Clinical Impact of Rapid Response Electroencephalography: The DECIDE Multicenter Prospective Observational Clinical Study. Critical Care Medicine 2020, 48: 1249-1257. PMID: 32618687, PMCID: PMC7735649, DOI: 10.1097/ccm.0000000000004428.Peer-Reviewed Original ResearchConceptsNonconvulsive seizuresSeizure diagnosisTreatment planProspective observational clinical studyDiagnostic assessmentObservational clinical studyAssessment of patientsCritical care settingSerious adverse effectsTherapeutic decision makingProspective multicenterSecondary outcomesICU patientsPrimary outcomeStatus epilepticusHigh suspicionElectroencephalography assessmentAcademic hospitalBedside assessmentClinical impactClinical studiesObservational studyCare settingsPhysician confidencePatientsChoosing Anticonvulsant Medications to Manage Status Epilepticus
Wu K, Hirsch LJ, Babl FE, Josephson SA. Choosing Anticonvulsant Medications to Manage Status Epilepticus. New England Journal Of Medicine 2020, 382: 2569-2572. PMID: 32579819, DOI: 10.1056/nejmclde2004317.Peer-Reviewed Original ResearchValidation of an algorithm of time-dependent electro-clinical risk stratification for electrographic seizures (TERSE) in critically ill patients
Cissé FA, Osman GM, Legros B, Depondt C, Hirsch LJ, Struck AF, Gaspard N. Validation of an algorithm of time-dependent electro-clinical risk stratification for electrographic seizures (TERSE) in critically ill patients. Clinical Neurophysiology 2020, 131: 1956-1961. PMID: 32622337, DOI: 10.1016/j.clinph.2020.05.031.Peer-Reviewed Original ResearchConceptsElectrographic seizuresRisk stratificationIll patientsAcute brain injuryContinuous electroencephalography monitoringElectrographic status epilepticusSubgroup of patientsDuration of EEGClinical seizuresConsecutive patientsStatus epilepticusElectroencephalography monitoringBrain injuryMedical recordsSubstantial burdenPatientsClinical practiceCEEGClinical neurophysiologistsSeizuresClinical implementationEEG recordingsTwo-thirdsFuture studiesEEG timeAssessment of the Predictive Value of Outpatient Smartphone Videos for Diagnosis of Epileptic Seizures
Tatum WO, Hirsch LJ, Gelfand MA, Acton EK, LaFrance WC, Duckrow RB, Chen DK, Blum AS, Hixson JD, Drazkowski JF, Benbadis SR, Cascino GD. Assessment of the Predictive Value of Outpatient Smartphone Videos for Diagnosis of Epileptic Seizures. JAMA Neurology 2020, 77: 593-600. PMID: 31961382, PMCID: PMC6990754, DOI: 10.1001/jamaneurol.2019.4785.Peer-Reviewed Original ResearchConceptsPhysical examination resultsPsychogenic nonepileptic attacksVideo electroencephalogram monitoringEpileptic seizuresVideo electroencephalogramEpilepsy centersPhysical examinationElectroencephalogram monitoringNonepileptic attacksCorrect diagnosisPhysiologic nonepileptic eventsEvaluation of epilepsyExamination resultsMisdiagnosis of epilepsyDiagnostic accuracy studiesPsychogenic attacksMotor signsNonepileptic eventsDefinitive diagnosisPatient historyMAIN OUTCOMEClinic outpatientsPredictive valueSeizuresDiagnosisDeep Versus Lobar Intraparenchymal Hemorrhage: Seizures, Hyperexcitable Patterns, and Clinical Outcomes.
Sheikh ZB, Stretz C, Maciel CB, Dhakar MB, Orgass H, Petroff OA, Hirsch LJ, Gilmore EJ. Deep Versus Lobar Intraparenchymal Hemorrhage: Seizures, Hyperexcitable Patterns, and Clinical Outcomes. Critical Care Medicine 2020, 48: e505-e513. PMID: 32301843, DOI: 10.1097/ccm.0000000000004317.Peer-Reviewed Original ResearchConceptsDeep intraparenchymal hemorrhageElectrographic seizuresIntraparenchymal hemorrhageRhythmic delta activityTemporal lobe involvementPoor outcomeLobar groupThalamic involvementClinical outcomesLobe involvementDelta activityTertiary academic medical centerNontraumatic intraparenchymal hemorrhagesConsecutive adult patientsRetrospective cohort studyFisher's exact testMann-Whitney U testAcademic medical centerSpike-wave complexesIntraparenchymal hemorrhage volumeAdult patientsCohort studyMultivariable analysisHematoma volumeInsular involvementAssessment of the Validity of the 2HELPS2B Score for Inpatient Seizure Risk Prediction
Struck AF, Tabaeizadeh M, Schmitt SE, Ruiz AR, Swisher CB, Subramaniam T, Hernandez C, Kaleem S, Haider HA, Cissé AF, Dhakar MB, Hirsch LJ, Rosenthal ES, Zafar SF, Gaspard N, Westover MB. Assessment of the Validity of the 2HELPS2B Score for Inpatient Seizure Risk Prediction. JAMA Neurology 2020, 77: 500-507. PMID: 31930362, PMCID: PMC6990873, DOI: 10.1001/jamaneurol.2019.4656.Peer-Reviewed Original ResearchConceptsContinuous electroencephalogramValidation cohortMAIN OUTCOMEEEG monitoringRetrospective medical record reviewKaplan-Meier survival analysisPatients 18 yearsMedical record reviewRisk of seizuresHigh-risk groupFirst hourEpileptiform EEG patternCEEG useClinical seizuresPrimary outcomeHospitalized patientsRecord reviewRisk stratificationEpileptiform findingsCardiac arrestSeizure riskClinical indicationsInclusion criteriaIndependent cohortAdequate screen