2023
Impact and Implications of Neurocognitive Dysfunction in the Management of Ischemic Heart Failure
Tirziu D, Kołodziejczak M, Grubman D, Carrión C, Driskell L, Ahmad Y, Petrie M, Omerovic E, Redfors B, Fremes S, Browndyke J, Lansky A. Impact and Implications of Neurocognitive Dysfunction in the Management of Ischemic Heart Failure. Journal Of The Society For Cardiovascular Angiography & Interventions 2023, 2: 101198. PMID: 39131066, PMCID: PMC11308118, DOI: 10.1016/j.jscai.2023.101198.Peer-Reviewed Original ResearchIschemic heart failureHeart failureNeurocognitive dysfunctionCognitive impairmentCoronary Artery Bypass GraftingArtery Bypass GraftingChronic cerebral hypoperfusionCoronary artery bypassPercutaneous coronary interventionPoor cognitive functionArtery bypassBypass GraftingCardiovascular outcomesCerebral hypoperfusionCoronary revascularizationCerebral hypoxiaCoronary interventionNeurologic injuryCardiac outputWorse outcomesBrain damageBrain injuryPatient outcomesInvasive approachPatient managementCerebral Embolic Risk in Coronary and Structural Heart Interventions: Clinical Evidence
Tirziu D, Huang H, Parise H, Pietras C, Moses J, Messé S, Lansky A. Cerebral Embolic Risk in Coronary and Structural Heart Interventions: Clinical Evidence. Journal Of The Society For Cardiovascular Angiography & Interventions 2023, 2: 100631. PMID: 39130705, PMCID: PMC11307836, DOI: 10.1016/j.jscai.2023.100631.Peer-Reviewed Original ResearchStructural heart interventionsHeart interventionsCardiac proceduresBrain injuryLong-term neurocognitive sequelaeTranscatheter aortic valve replacement (TAVR) proceduresAortic valve replacement proceduresCerebral embolic riskIatrogenic brain injuryIschemic brain injuryRisk of thromboembolismCoronary artery diseaseEmbolic protection devicesNumber of patientsValve replacement proceduresPercutaneous transcatheter interventionsLikelihood of disabilitySymptomatic strokeCerebral embolismCerebral embolizationEmbolic riskAcute strokeNeurologic injuryArtery diseaseIschemic infarction
2022
Myoclonic status epilepticus after severe hyperthermia in a patient with coronavirus disease 2019
Hill K, Peters J, Schaefer S. Myoclonic status epilepticus after severe hyperthermia in a patient with coronavirus disease 2019. Acute And Critical Care 2022, 38: 509-512. PMID: 35545241, PMCID: PMC10718496, DOI: 10.4266/acc.2021.01452.Peer-Reviewed Original ResearchMyoclonic status epilepticusCoronavirus disease 2019Status epilepticusDisease 2019Severe hyperthermiaAcute respiratory distress syndromeSevere neurologic injuryCommunity-acquired pneumoniaRespiratory distress syndromeCardiac arrest patientsSustained feverCortical injuryFever resolutionNeurologic injuryDistress syndromeHypovolemic shockArrest patientsIntubated patientsMultifocal myoclonusGastric lavageAggressive measuresPatient's armPatientsEpilepticusHyperpyrexia56 Critical Care of the Patient With Acute Stroke
Picard J, Schmidt C, Sheth K, Bösel J. 56 Critical Care of the Patient With Acute Stroke. 2022, 800-830.e10. DOI: 10.1016/b978-0-323-69424-7.00056-9.Peer-Reviewed Original ResearchAcute ischemic strokeIntensive care unitNeurologic intensive care unitIntracerebral hemorrhageIschemic strokeStroke patientsSevere acute ischemic strokeGeneral intensive care unitPrimary neurologic injuryBlood pressure managementCritical care managementHemorrhagic stroke patientsSecondary brain damageSpecialized stroke unitsCritical care expertiseCritical care needsNormal clinical courseNumerous systemic complicationsNeurologic complicationsSystemic complicationsAcute strokeInitial managementNeurologic injuryClinical courseReperfusion injury
2021
Longitudinal imaging history in early identification of intimate partner violence
Park H, Gujrathi R, Gosangi B, Thomas R, Cai T, Chen I, Bay C, Hassan N, Boland G, Kohane I, Seltzer S, Rexrode K, Khurana B. Longitudinal imaging history in early identification of intimate partner violence. European Radiology 2021, 32: 2824-2836. PMID: 34797386, DOI: 10.1007/s00330-021-08362-2.Peer-Reviewed Original ResearchConceptsSelf-reported dateIPV-related injuriesGroup 1Neurological injuryMusculoskeletal injuriesGroup 2Early identificationGroup 2 patientsIntimate partner violencePhysical abuseTypes of abuseNeurologic injuryHigh suspicionCommon injuriesResultsA totalImaging reviewPartner violenceInjuryStudy datesLikelihood of IPVCommon typeRadiologistsPatientsSuspicionIPVNeuromonitoring After Cardiac Arrest Can Twenty-First Century Medicine Personalize Post Cardiac Arrest Care?
Beekman R, Maciel CB, Balu R, Greer DM, Gilmore EJ. Neuromonitoring After Cardiac Arrest Can Twenty-First Century Medicine Personalize Post Cardiac Arrest Care? Neurologic Clinics 2021, 39: 273-292. PMID: 33896519, DOI: 10.1016/j.ncl.2021.01.002.Peer-Reviewed Original ResearchConceptsSecondary brain injuryCardiac arrest careBrain injuryArrest carePost-cardiac arrest syndromeHypoxic-ischemic brain injuryPost-cardiac arrest careEtiology of arrestSecondary neurologic injuryCardiac arrest survivorsNeurologic comorbiditiesNeuromonitoring toolsNeurologic injuryArrest survivorsCardiac arrestNeuromonitoring techniquesCerebral physiologyPhysiologic variablesIndividualized approachRisk profileInjuryHeterogeneous populationCareArrestComorbiditiesTeleneurology-Enabled Determination of Death by Neurologic Criteria After Cardiac Arrest or Severe Neurologic Injury.
Matiello M, Turner A, Estrada J, Whitney C, Kitch B, Lee P, Girkar U, Palacios R, Singla P, Schwamm L. Teleneurology-Enabled Determination of Death by Neurologic Criteria After Cardiac Arrest or Severe Neurologic Injury. Neurology 2021, 96: e1999-e2005. PMID: 33637632, DOI: 10.1212/wnl.0000000000011751.Peer-Reviewed Original ResearchConceptsIntensive care unitOrgan donorsNeurologic criteriaSevere neurologic damageSevere neurologic deficitsSevere neurologic injuryProportion of patientsDemographic informationPatient demographic informationPotential organ donorsDetermination of prognosisNumber of referralsProportion of donorsTeleneurology consultationsNeurologic deficitsNeurologic injuryMedian timeNeurologic damageCare unitComatose patientsCardiac arrestPatientsRetrospective dataConsultsOrgan donation
2020
Prenatal Treatment of Congenital Cytomegalovirus With Valganciclovir: A Case Report
DeNoble AE, Saccoccio FM, Permar SR, Hughes BL. Prenatal Treatment of Congenital Cytomegalovirus With Valganciclovir: A Case Report. Clinical Infectious Diseases 2020, 71: 2506-2508. PMID: 32198512, DOI: 10.1093/cid/ciaa305.Peer-Reviewed Original ResearchConceptsCommon congenital infectionCongenital CMV infectionCases of hydropsCongenital cytomegalovirusCongenital infectionCMV infectionNeonatal treatmentNeurologic injuryCCMV infectionInfectious causesCase reportFetal anomaliesPrenatal treatmentTreatment strategiesMinimal sequelaeCytomegalovirusInfectionValganciclovirTreatmentSequelaeHydropsPregnancyInjuryCardiac Complications in Neurocritical Care Patients
Kim J, Izzy S. Cardiac Complications in Neurocritical Care Patients. Current Clinical Neurology 2020, 49-56. DOI: 10.1007/978-3-030-36548-6_4.Peer-Reviewed Original ResearchNeurologic injuryAcute neurologic injuryNeurocritical care patientsSpecific neurologic diseasesCardiac complicationsNeurologic recoveryHemodynamic instabilityCare patientsCardiovascular changesMyocardial ischemiaCardiovascular functionNeurologic diseaseCardiovascular systemInjuryPatientsHypertensionNeurointensivistsComplicationsIschemiaArrhythmiasCardiologistsDiseaseChapter 41 Embolic protection devices for stroke prevention during cardiac interventions
Ghare M, Zhou S, Tirziu D, Lansky A. Chapter 41 Embolic protection devices for stroke prevention during cardiac interventions. 2020, 941-960. DOI: 10.1016/b978-0-12-813704-8.00041-3.Peer-Reviewed Original ResearchTranscatheter aortic valve implantationAortic stenosisSevere symptomatic aortic stenosisSurgical aortic valve replacementSymptomatic aortic stenosisAortic valve replacementHigh-risk patientsPrevention of strokeAortic valve implantationEmbolic protection devicesNeurologic eventsStroke preventionDevastating complicationIntermediate riskNeurologic injuryValve implantationValve replacementAdjunctive pharmacotherapyStroke rateCurrent evidenceTranscatheter proceduresCardiac interventionsPatientsStrokePrevention
2019
Stereotactic Laser Ablation as Treatment of Brain Metastases Recurring after Stereotactic Radiosurgery: A Systematic Literature Review
Alattar AA, Bartek J, Chiang VL, Mohammadi AM, Barnett GH, Sloan A, Chen CC. Stereotactic Laser Ablation as Treatment of Brain Metastases Recurring after Stereotactic Radiosurgery: A Systematic Literature Review. World Neurosurgery 2019, 128: 134-142. PMID: 31051303, DOI: 10.1016/j.wneu.2019.04.200.Peer-Reviewed Original ResearchConceptsStereotactic laser ablationLocal controlContrast-enhancing volumeBrain metastasesFluid-attenuated inversion recovery volumeMalignant cerebral edemaPermanent neurologic injuryPreoperative lesion volumeMedian hospital stayDuration of therapyPotential treatment optionPercentage of tumorsHours of treatmentHospital stayNeurologic outcomePeriprocedural managementCerebral edemaCommon complicationMedian survivalNeurologic deficitsNeurologic injuryOverall survivalClinical courseTreatment optionsOptimal treatmentDevastating neurologic injuries in the Syrian war.
El Hajj Abdallah Y, Beveridge J, Chan M, Deeb T, Mowafi H, Al-Nuaimi S, Easa AS, Saqqur M. Devastating neurologic injuries in the Syrian war. Neurology Clinical Practice 2019, 9: 9-15. PMID: 30859002, PMCID: PMC6382378, DOI: 10.1212/cpj.0000000000000556.Peer-Reviewed Original ResearchNeurologic injuryMajor rehabilitation centerRehabilitation centerThoracic spine injuriesPeripheral nerve injuryDevastating neurologic injurySpinal cord injuryCause of injuryTraumatic brain injuryPeripheral injuryNerve injuryRadial nerveMultiple injuriesSingle injurySpine injuriesCord injuryBrain injuryClinical dataTotal injuriesGunshot woundsPatientsPrevalent injuriesInjuryInjury tollAge 2
2018
TAVI and the brain: update on definitions, evidence of neuroprotection and adjunctive pharmacotherapy.
Lansky A, Ghare MI, Tchétché D, Baumbach A. TAVI and the brain: update on definitions, evidence of neuroprotection and adjunctive pharmacotherapy. EuroIntervention 2018, 14: ab53-ab63. PMID: 30158096, DOI: 10.4244/eij-d-18-00454.Peer-Reviewed Original ResearchConceptsTranscatheter aortic valve implantationAortic stenosisAdjunctive pharmacotherapySevere symptomatic aortic stenosisIntermediate-risk patientsSymptomatic aortic stenosisHigh-risk patientsAortic valve implantationSurgical valve replacementEvidence of neuroprotectionNeurologic eventsDevastating complicationNeurologic injuryValve implantationValve replacementCurrent evidenceNeuroprotectionPharmacotherapyPatientsPreferred methodComplicationsStenosisInjuryStrokeIncidence
2017
Stroke After Transcatheter Aortic Valve Replacement: Incidence, Definitions, Etiologies and Management Options
Patel PA, Patel S, Feinman JW, Gutsche JT, Vallabhajosyula P, Shah R, Giri J, Desai ND, Zhou E, Weiss SJ, Augoustides JG. Stroke After Transcatheter Aortic Valve Replacement: Incidence, Definitions, Etiologies and Management Options. Journal Of Cardiothoracic And Vascular Anesthesia 2017, 32: 968-981. PMID: 29174745, DOI: 10.1053/j.jvca.2017.08.034.Peer-Reviewed Educational MaterialsConceptsTranscatheter aortic valve replacementAortic valve replacementValve replacementEtiology of strokeEmbolic protection devicesCardiovascular clinical trialsPerioperative pathwayNeurologic complicationsNeurologic eventsNeurologic injuryClinical trialsInvestigational approachesCardiovascular interventionsStrokeEtiologyTriphasic approachManagement optionsComplicationsThrombosisReplacementInjuryNovel guidelinesIncidenceDiagnosisTrialsStereotactic body radiotherapy for de novo spinal metastases: systematic review.
Husain ZA, Sahgal A, De Salles A, Funaro M, Glover J, Hayashi M, Hiraoka M, Levivier M, Ma L, Martínez-Alvarez R, Paddick JI, Régis J, Slotman BJ, Ryu S. Stereotactic body radiotherapy for de novo spinal metastases: systematic review. Journal Of Neurosurgery Spine 2017, 27: 295-302. PMID: 28598293, DOI: 10.3171/2017.1.spine16684.Peer-Reviewed Original ResearchConceptsStereotactic body radiation therapyComplete pain responseSpinal metastasesSystematic reviewPain responseComplete pain response ratesPain response ratesUntreated spinal metastasesLocal control rateSerious adverse eventsLocal tumor controlVertebral compression fracturesStereotactic body radiotherapyBody radiation therapySearch of MEDLINEMeta-Analyses (PRISMA) guidelinesDose fractionation schemesPreferred Reporting ItemsFull-text articlesGy/5 fxCommon toxicitiesMedian followAdverse eventsNeurologic injuryBody radiotherapy
2016
Neurologic Complications of Unprotected Transcatheter Aortic Valve Implantation (from the Neuro-TAVI Trial)
Lansky AJ, Brown D, Pena C, Pietras CG, Parise H, Ng VG, Meller S, Abrams KJ, Cleman M, Margolis P, Petrossian G, Brickman AM, Voros S, Moses J, Forrest JK. Neurologic Complications of Unprotected Transcatheter Aortic Valve Implantation (from the Neuro-TAVI Trial). The American Journal Of Cardiology 2016, 118: 1519-1526. PMID: 27645761, DOI: 10.1016/j.amjcard.2016.08.013.Peer-Reviewed Original ResearchMeSH KeywordsAged, 80 and overAortic ValveAortic Valve StenosisBrainBrain IschemiaDiffusion Magnetic Resonance ImagingFemaleFollow-Up StudiesHumansIncidenceIntracranial EmbolismMalePostoperative ComplicationsPrognosisProspective StudiesRisk AssessmentRisk FactorsSurvival RateTranscatheter Aortic Valve ReplacementUnited StatesConceptsTranscatheter aortic valve implantationAortic valve implantationNeurologic injuryValve implantationNeurologic impairmentMagnetic resonance imaging lesionsCognitive AssessmentMontreal Cognitive Assessment scoreCerebral ischemic lesionsNew neurologic impairmentSubclinical cerebral infarctsDiffusion-weighted magnetic resonance imagingTotal lesion volumeCognitive Assessment scoreMontreal Cognitive AssessmentMagnetic resonance imagingCerebral embolizationCerebral infarctsNeurologic complicationsCerebral infarctionImaging lesionsMost patientsOvert strokeConsecutive patientsIschemic lesions
2013
HIV and Neurocognitive Dysfunction
Spudich S. HIV and Neurocognitive Dysfunction. Current HIV/AIDS Reports 2013, 10: 235-243. PMID: 23860944, PMCID: PMC3732773, DOI: 10.1007/s11904-013-0171-y.Peer-Reviewed Original ResearchConceptsIrreversible CNS injuryEffective antiretroviral therapySpectrum of HIVQuality of lifeEffect of treatmentCommunity of patientsAntiretroviral therapyCNS infectionNeurologic injuryHIV infectionProgressive injuryImmune activationCNS injuryCognitive dysfunctionNeurocognitive disordersNeurocognitive dysfunctionHIVCognitive impairmentViral replicationInjuryBeneficial reductionDysfunctionInfectionDisordersPatients
2011
Central nervous system complications of HIV infection.
Spudich SS, Ances BM. Central nervous system complications of HIV infection. Topics In Antiviral Medicine 2011, 19: 48-57. PMID: 21868822, PMCID: PMC6148949.Peer-Reviewed Original ResearchConceptsNervous systemCentral nervous system complicationsNervous system complicationsEarly treatment interventionStudy of pathogenesisCentral nervous systemBiomarkers of HANDDisease activityAdjunctive therapyNeurologic injuryHIV infectionOpportunistic infectionsSystem complicationsNeurologic disordersNeurocognitive disordersEtiology of diseaseMeasurable biomarkersEarly infectionTreatment interventionsInfectionHIVBiomarkersDisordersTreatmentNovel molecules
2009
Continuous electroencephalography in the medical intensive care unit*
Oddo M, Carrera E, Claassen J, Mayer SA, Hirsch LJ. Continuous electroencephalography in the medical intensive care unit*. Critical Care Medicine 2009, 37: 2051-2056. PMID: 19384197, DOI: 10.1097/ccm.0b013e3181a00604.Peer-Reviewed Original ResearchConceptsContinuous electroencephalography monitoringPeriodic epileptiform dischargesMajority of patientsElectrographic seizuresRetrospective studyMedical intensive care unit patientsIntensive care unit admissionMedical intensive care unitIntensive care unit patientsPeriodic dischargesAcute neurologic conditionsPrimary admission diagnosisCare unit admissionPercent of patientsAcute neurologic injuryCare unit patientsIntensive care unitOnly significant predictorUnit admissionAdmission diagnosisICU admissionMICU patientsHospital dischargeNeurologic injurySeptic patientsThe Management of Spinal Injuries in Patients With Ankylosing Spondylitis or Diffuse Idiopathic Skeletal Hyperostosis
Whang PG, Goldberg G, Lawrence JP, Hong J, Harrop JS, Anderson DG, Albert TJ, Vaccaro AR. The Management of Spinal Injuries in Patients With Ankylosing Spondylitis or Diffuse Idiopathic Skeletal Hyperostosis. Clinical Spine Surgery A Spine Publication 2009, 22: 77-85. PMID: 19342927, DOI: 10.1097/bsd.0b013e3181679bcb.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overComorbidityDisability EvaluationFemaleHumansHyperostosis, Diffuse Idiopathic SkeletalMaleMiddle AgedMortalityNeurosurgical ProceduresOutcome Assessment, Health CarePostoperative ComplicationsRadiographyRetrospective StudiesSpinal Cord CompressionSpinal FracturesSpinal InjuriesSpineSpondylitis, AnkylosingTreatment OutcomeConceptsDiffuse idiopathic skeletal hyperostosisIdiopathic skeletal hyperostosisSpinal injuryDISH patientsNeurologic deficitsClinical outcomesAS patientsSkeletal hyperostosisAmerican Spinal Injury Association Impairment ScaleHalo-vest orthosisOverall complication rateHalo-vest immobilizationAppropriate imaging studiesSpinal cord injurySubaxial cervical spineOdom's criteriaNonoperative treatmentComplication rateNeurologic injuryNeurologic statusASIA ARetrospective reviewOperative managementCord injurySingle institution
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