2024
Trends in Stroke Thrombolysis Care Metrics and Outcomes by Race and Ethnicity, 2003-2021
Man S, Solomon N, Mac Grory B, Alhanti B, Saver J, Smith E, Xian Y, Bhatt D, Schwamm L, Uchino K, Fonarow G. Trends in Stroke Thrombolysis Care Metrics and Outcomes by Race and Ethnicity, 2003-2021. JAMA Network Open 2024, 7: e2352927. PMID: 38324315, PMCID: PMC10851100, DOI: 10.1001/jamanetworkopen.2023.52927.Peer-Reviewed Original ResearchConceptsDoor-to-needleDoor-to-needle timeHispanic patientsWhite patientsAssociated with improvementsThrombolysis rateCohort studyEthnic groupsQuality InitiativeCohort study of patientsCare qualityCare metricsPre-testIschemic strokeEthnic disparitiesRetrospective cohort studyMain OutcomesPatient functionIschemic stroke onsetSecondary outcomesPrimary outcomeStudy of patientsOddsAcute ischemic strokeStroke onset
2023
Rationale and design of the GOLDEN BRIDGE II: a cluster-randomised multifaceted intervention trial of an artificial intelligence-based cerebrovascular disease clinical decision support system to improve stroke outcomes and care quality in China
Li Z, Zhang X, Ding L, Jing J, Gu H, Jiang Y, Meng X, Du C, Wang C, Wang M, Xu M, Zhang Y, Hu M, Li H, Gong X, Dong K, Zhao X, Wang Y, Liu L, Xian Y, Peterson E, Fonarow G, Schwamm L, Wang Y. Rationale and design of the GOLDEN BRIDGE II: a cluster-randomised multifaceted intervention trial of an artificial intelligence-based cerebrovascular disease clinical decision support system to improve stroke outcomes and care quality in China. Stroke And Vascular Neurology 2023, svn-2023-002411. PMID: 37699726, DOI: 10.1136/svn-2023-002411.Peer-Reviewed Original ResearchClinical decision support systemVascular eventsIntervention trialsIntervention groupControl groupGuideline-based treatment recommendationsCare qualityNew vascular eventsStroke care qualityAcute ischemic strokeComposite vascular eventsII trialUsual careIschemic strokeStroke etiologyStroke onsetStroke outcomePrimary outcomeTreat principleClinical outcomesStroke careCerebrovascular diseaseEligible participantsTreatment recommendationsIntervention studiesDistinguishing Distinct Neural Systems for Proximal vs Distal Upper Extremity Motor Control After Acute Stroke
Lin D, Hardstone R, DiCarlo J, Mckiernan S, Snider S, Jacobs H, Erler K, Rishe K, Boyne P, Goldsmith J, Ranford J, Finklestein S, Schwamm L, Hochberg L, Cramer S. Distinguishing Distinct Neural Systems for Proximal vs Distal Upper Extremity Motor Control After Acute Stroke. Neurology 2023, 101: e347-e357. PMID: 37268437, PMCID: PMC10435065, DOI: 10.1212/wnl.0000000000207417.Peer-Reviewed Original ResearchConceptsDistal motor controlUpper extremity motor deficitsAcute strokeBarthel IndexMotor deficitsMotor controlAcute stroke patientsUpper extremity hemiparesisUpper extremity motor controlRegion of injuryLesion-symptom mappingMotor systemHealthy CNSDays poststrokeDistal injuriesRankin ScaleStroke onsetConsecutive patientsStroke patientsMotor scoresClinical syndromeFunctional outcomeIntact CNSPosterior aspectPrecentral gyrus
2021
Tenecteplase Reperfusion therapy in Acute ischaemic Cerebrovascular Events-II (TRACE II): rationale and design
Li S, Campbell B, Schwamm L, Fisher M, Parsons M, Li H, Pan Y, Wang Y, . Tenecteplase Reperfusion therapy in Acute ischaemic Cerebrovascular Events-II (TRACE II): rationale and design. Stroke And Vascular Neurology 2021, 7: 71-76. PMID: 34446531, PMCID: PMC8899655, DOI: 10.1136/svn-2021-001074.Peer-Reviewed Original ResearchConceptsAcute ischemic strokeExcellent functional outcomeFunctional outcomeReperfusion therapyRt-PAAcute ischemic cerebrovascular eventsIntravenous thrombolysis therapyMajor neurological improvementSecondary efficacy outcomesHealth Stroke ScaleIschemic cerebrovascular eventsSymptomatic intracranial hemorrhageFavorable functional outcomeIschemic stroke onsetPrimary study outcomeRankin Scale 0Non-inferiority studyTissue-type plasminogen activatorCerebrovascular eventsNeurological improvementStroke ScaleEfficacy outcomesIschemic strokeStroke onsetThrombolysis therapy
2020
Trends in Reperfusion Therapy for In-Hospital Ischemic Stroke in the Endovascular Therapy Era
Akbik F, Xu H, Xian Y, Shah S, Smith E, Bhatt D, Matsouaka R, Fonarow G, Schwamm L. Trends in Reperfusion Therapy for In-Hospital Ischemic Stroke in the Endovascular Therapy Era. JAMA Neurology 2020, 77: 1486-1495. PMID: 32955582, PMCID: PMC7506601, DOI: 10.1001/jamaneurol.2020.3362.Peer-Reviewed Original ResearchConceptsHospital stroke onsetHospital onsetIntravenous thrombolysisStroke onsetEndovascular therapyReperfusion therapyHospital strokeCohort studyIschemic strokeFunctional outcomeNational registryIn-Hospital Ischemic StrokeIntravenous thrombolysis treatmentLimited contemporary dataRetrospective cohort studyAcute ischemic strokeVascular risk factorsWorse functional outcomeEndovascular reperfusion therapyLonger median timeKey patient characteristicsTherapy eraThrombolysis treatmentHospital dischargePatient characteristicsThrombolysis beyond 4.5 h in Acute Ischemic Stroke
Etherton M, Gadhia R, Schwamm L. Thrombolysis beyond 4.5 h in Acute Ischemic Stroke. Current Neurology And Neuroscience Reports 2020, 20: 35. PMID: 32607627, DOI: 10.1007/s11910-020-01055-1.Peer-Reviewed Original ResearchConceptsUnknown symptom onsetSymptom onsetAcute ischemic stroke patientsImproved long-term outcomesSalvageable brain tissueIntravenous thrombolytic therapyPlacebo-controlled trialAcute ischemic strokeIschemic stroke patientsLong-term outcomesDWI-FLAIR mismatchAlteplase treatmentSummaryIn patientsIschemic strokeStroke onsetAcute settingRecent FindingsIn recent yearsStroke patientsThrombolytic therapySalvageable tissueReviewThe purposeIndividualized approachStroke lesionsPatientsBrain tissue
2019
Ischaemic stroke
Campbell B, De Silva D, Macleod M, Coutts S, Schwamm L, Davis S, Donnan G. Ischaemic stroke. Nature Reviews Disease Primers 2019, 5: 70. PMID: 31601801, DOI: 10.1038/s41572-019-0118-8.Peer-Reviewed Original ResearchConceptsIschemic strokeIntravenous thrombolysisEndovascular thrombectomyStroke onsetSevere symptomatic carotid artery stenosisSymptomatic carotid artery stenosisSalvageable brain tissueBlood pressure controlCardiovascular risk managementLarge vessel occlusionMajority of strokesMechanism of strokeOnset of strokeCarotid artery stenosisCause of disabilitySecond highest causeSystems of careAntithrombotic medicationRapid reperfusionReperfusion therapySecondary preventionStroke symptomsArterial occlusionArtery stenosisCarotid endarterectomy
2018
Neuroimaging Paradigms to Identify Patients for Reperfusion Therapy in Stroke of Unknown Onset
Etherton M, Barreto A, Schwamm L, Wu O. Neuroimaging Paradigms to Identify Patients for Reperfusion Therapy in Stroke of Unknown Onset. Frontiers In Neurology 2018, 9: 327. PMID: 29867736, PMCID: PMC5962731, DOI: 10.3389/fneur.2018.00327.Peer-Reviewed Original ResearchReperfusion therapyIschemic strokeSalvageable ischemic tissueAcute ischemic strokePivotal clinical trialsTreatment of patientsNumber of patientsRisk of infarctionLow treatment ratesUnwitnessed strokeIntravenous alteplaseEndovascular thrombectomyHospital arrivalStroke onsetRevascularization therapySalvageable tissueUnknown onsetClinical trialsClinical dilemmaIschemic tissueStroke researchPatientsTreatment ratesStrokeTherapyIntravenous thrombolysis in unwitnessed stroke onset: MR WITNESS trial results
Schwamm L, Wu O, Song S, Latour L, Ford A, Hsia A, Muzikansky A, Betensky R, Yoo A, Lev M, Boulouis G, Lauer A, Cougo P, Copen W, Harris G, Warach S, Investigators O. Intravenous thrombolysis in unwitnessed stroke onset: MR WITNESS trial results. Annals Of Neurology 2018, 83: 980-993. PMID: 29689135, PMCID: PMC6095471, DOI: 10.1002/ana.25235.Peer-Reviewed Original ResearchConceptsMagnetic resonance imagingSymptomatic intracranial hemorrhageLarge vessel occlusionIntravenous thrombolysisSymptom discoveryVessel occlusionAcute ischemic stroke patientsFluid-attenuated inversion recovery magnetic resonance imagingInversion recovery magnetic resonance imagingDiffusion-weighted magnetic resonance imagingIschemic stroke patientsStroke durationAnn NeurolSymptomatic edemaUnwitnessed onsetUnwitnessed strokeIntravenous alteplaseRankin ScaleSecondary outcomesStroke onsetSymptom onsetPrimary outcomeIntracranial hemorrhageProspective studyStroke patients
2016
Why are acute ischemic stroke patients not receiving IV tPA?
Messé S, Khatri P, Reeves M, Smith E, Saver J, Bhatt D, Grau-Sepulveda M, Cox M, Peterson E, Fonarow G, Schwamm L. Why are acute ischemic stroke patients not receiving IV tPA? Neurology 2016, 87: 1565-1574. PMID: 27629092, PMCID: PMC5067546, DOI: 10.1212/wnl.0000000000003198.Peer-Reviewed Original ResearchMeSH KeywordsAdministration, IntravenousAgedAged, 80 and overBrain IschemiaDatasets as TopicFemaleFibrinolytic AgentsHealthcare DisparitiesHumansLogistic ModelsMaleMultivariate AnalysisRegistriesRetrospective StudiesSeverity of Illness IndexStrokeThrombolytic TherapyTissue Plasminogen ActivatorUnited StatesConceptsAcute ischemic strokeTissue plasminogen activatorHours of onsetEligible patientsAcute ischemic stroke patientsNIH Stroke Scale scoreStroke center certificationRetrospective cohort studyStroke Scale scoreIschemic stroke patientsEarlier calendar yearsEquation logistic regressionProsthetic heart valvesEmergency medical servicesGuidelines-StrokePrior strokeCohort studyIschemic strokeOlder patientsStroke onsetStroke severityDiabetes mellitusCenter HospitalStroke patientsAtrial fibrillation
2014
Combining MRI with NIHSS Thresholds to Predict Outcome in Acute Ischemic Stroke: Value for Patient Selection
Schaefer P, Pulli B, Copen W, Hirsch J, Leslie-Mazwi T, Schwamm L, Wu O, González R, Yoo A. Combining MRI with NIHSS Thresholds to Predict Outcome in Acute Ischemic Stroke: Value for Patient Selection. American Journal Of Neuroradiology 2014, 36: 259-264. PMID: 25258369, PMCID: PMC4462135, DOI: 10.3174/ajnr.a4103.Peer-Reviewed Original ResearchMeSH KeywordsAgedBrainBrain IschemiaCerebral InfarctionDiffusion Magnetic Resonance ImagingFemaleHumansImage Processing, Computer-AssistedMaleMiddle AgedNational Institutes of Health (U.S.)Patient SelectionPrognosisReperfusionROC CurveSensitivity and SpecificitySeverity of Illness IndexStrokeUnited StatesConceptsPositive predictive valueAcute ischemic strokeLarge patient cohortReperfusion therapyPoor outcomeStroke sidePredictive valueNIHSS scoreIschemic strokeClinical outcomesPatient cohortPrognostic yieldAnterior circulation acute ischemic strokeAcute ischemic stroke patientsImaging thresholdsBeneficial treatment responseDiffusion-perfusion mismatchHigh positive predictive valueIschemic stroke patientsRight-sided strokeLeft-sided strokeUntreated patientsStroke onsetConsecutive patientsPatient selectionTime and Diffusion Lesion Size in Major Anterior Circulation Ischemic Strokes
Hakimelahi R, Vachha B, Copen W, Papini G, He J, Higazi M, Lev M, Schaefer P, Yoo A, Schwamm L, González R. Time and Diffusion Lesion Size in Major Anterior Circulation Ischemic Strokes. Stroke 2014, 45: 2936-2941. PMID: 25190444, DOI: 10.1161/strokeaha.114.005644.Peer-Reviewed Original ResearchConceptsAnterior circulation ischemic strokeMiddle cerebral artery occlusionDiffusion-weighted imagingCerebral artery occlusionStroke onsetIschemic strokeInfarct sizeDWI lesionsInfarct volumeArtery occlusionIntravenous tissue-type plasminogen activatorProximal middle cerebral arteryDistal internal carotid arteryAcute infarct volumeDWI lesion volumeMajority of patientsMiddle cerebral arteryInternal carotid arteryAcute infarct sizeSame inclusion criteriaTraditional time windowTissue-type plasminogen activatorCerebral perfusionConsecutive patientsInfarct growth
2012
Rapid identification of a major diffusion/perfusion mismatch in distal internal carotid artery or middle cerebral artery ischemic stroke
Hakimelahi R, Yoo A, He J, Schwamm L, Lev M, Schaefer P, González R. Rapid identification of a major diffusion/perfusion mismatch in distal internal carotid artery or middle cerebral artery ischemic stroke. BMC Neurology 2012, 12: 132. PMID: 23121836, PMCID: PMC3519648, DOI: 10.1186/1471-2377-12-132.Peer-Reviewed Original ResearchConceptsDiffusion/perfusion mismatchDWI lesion volumeInternal carotid arteryLesion volumePerfusion mismatchConsecutive patientsCarotid arteryMiddle cerebral artery ischemic strokeDiffusion/perfusion MRITerminal internal carotid arteryProximal middle cerebral arteryDistal internal carotid arteryLarger mismatch volumeProximal MCA occlusionMiddle cerebral arteryDiffusion lesion volumeSame inclusion criteriaTerminal ICAArtery occlusionIschemic strokeMCA occlusionStroke onsetCerebral arteryStroke patientsPatient assessmentReliability of cerebral blood volume maps as a substitute for diffusion‐weighted imaging in acute ischemic stroke
deIpolyi A, Wu O, Macklin E, Schaefer P, Schwamm L, Gonzalez R, Copen W. Reliability of cerebral blood volume maps as a substitute for diffusion‐weighted imaging in acute ischemic stroke. Journal Of Magnetic Resonance Imaging 2012, 36: 1083-1087. PMID: 22761110, PMCID: PMC4110961, DOI: 10.1002/jmri.23740.Peer-Reviewed Original ResearchConceptsDiffusion-weighted MRIAcute ischemic strokeCerebral blood volume mapsBlood volume mapsCBV mapsDWI lesionsIschemic strokeProportion of lesionsScan durationDiffusion-weighted imagingAcute strokeStroke onsetInfarct coreContralateral hemisphereRegional CBVMR perfusionVolume mapsLesion centerLesionsCBVStrokeShort durationPerfusionDurationLinear regressionEconomic Impact of Using Additional Diagnostic Tests to Better Select Patients With Stroke for Intravenous Thrombolysis in the United Kingdom
Earnshaw S, McDade C, Chapman A, Jackson D, Schwamm L. Economic Impact of Using Additional Diagnostic Tests to Better Select Patients With Stroke for Intravenous Thrombolysis in the United Kingdom. Clinical Therapeutics 2012, 34: 1544-1558. PMID: 22695225, DOI: 10.1016/j.clinthera.2012.05.004.Peer-Reviewed Original ResearchConceptsMagnetic resonance imagingMRI selectionUsual careDiagnostic testsFavorable outcomeIncremental cost-effectiveness ratioAcute stroke treatmentPreferred diagnostic testNumber of patientsAdditional diagnostic testsCost-effectiveness ratioDecision analytic modelCTP selectionIntravenous thrombolysisStroke onsetStroke treatmentPatient selectionUK patientsPenumbral patternPatient outcomesPerfusion CTPatient historyThrombolysisPatientsPerfusion imagingPredictors of Increased Intravenous Tissue Plasminogen Activator Use Among Hospitals Participating in the Massachusetts Primary Stroke Service Program
Rost N, Smith E, Pervez M, Mello P, Dreyer P, Schwamm L. Predictors of Increased Intravenous Tissue Plasminogen Activator Use Among Hospitals Participating in the Massachusetts Primary Stroke Service Program. Circulation Cardiovascular Quality And Outcomes 2012, 5: 314-320. PMID: 22534407, PMCID: PMC3361890, DOI: 10.1161/circoutcomes.111.962829.Peer-Reviewed Original ResearchMeSH KeywordsAge FactorsAgedAged, 80 and overEmergency Service, HospitalFemaleFibrinolytic AgentsHealthcare DisparitiesHumansInfusions, IntravenousLinear ModelsLogistic ModelsMaleMassachusettsMiddle AgedMultivariate AnalysisOdds RatioPatient SelectionPractice Guidelines as TopicQuality ImprovementRegional Medical ProgramsRetrospective StudiesRisk AssessmentRisk FactorsStrokeThrombolytic TherapyTime FactorsTissue Plasminogen ActivatorTreatment OutcomeConceptsIntravenous tissue plasminogen activator useTissue plasminogen activator useAcute ischemic strokeTPA useIschemic strokeOlder acute ischemic stroke patientsAcute ischemic stroke patientsGuidelines-Stroke programStroke center designationIschemic stroke patientsRate of thrombolysisQuality improvement initiativesEmergency medical servicesStroke onsetSymptom onsetStroke patientsTreatment disparitiesCenter designationPatientsHospitalMassachusetts DepartmentImprovement initiativesMedical servicesOverall rateFurther studies
2011
Imaging Stroke Patients with Unclear Onset Times
Wu O, Schwamm L, Sorensen A. Imaging Stroke Patients with Unclear Onset Times. Neuroimaging Clinics Of North America 2011, 21: 327-344. PMID: 21640303, PMCID: PMC3109317, DOI: 10.1016/j.nic.2011.02.008.Peer-Reviewed Original Research
2009
Existence of the Diffusion-Perfusion Mismatch within 24 Hours after Onset of Acute Stroke: Dependence on Proximal Arterial Occlusion
Copen W, Rezai Gharai L, Barak E, Schwamm L, Wu O, Kamalian S, Gonzalez R, Schaefer P. Existence of the Diffusion-Perfusion Mismatch within 24 Hours after Onset of Acute Stroke: Dependence on Proximal Arterial Occlusion. Radiology 2009, 250: 878-86. PMID: 19164120, DOI: 10.1148/radiol.2503080811.Peer-Reviewed Original ResearchConceptsProximal arterial occlusionAcute ischemic stroke trialsIschemic stroke trialsAcute strokeArterial occlusionStroke trialsLesion volumePerfusion-weighted magnetic resonance imagesDiffusion-perfusion mismatchMean transit time mapsTransit time mapsHIPAA-compliant studyPAO patientsAngiographic evidenceStroke onsetDose escalationTomographic angiographyEligibility criteriaPatientsInstitutional reviewMagnetic resonance imagesMR angiographyDesmoteplaseSignificant differencesAngiography
2006
First-pass quantitative CT perfusion identifies thresholds for salvageable penumbra in acute stroke patients treated with intra-arterial therapy.
Schaefer P, Roccatagliata L, Ledezma C, Hoh B, Schwamm L, Koroshetz W, Gonzalez R, Lev M. First-pass quantitative CT perfusion identifies thresholds for salvageable penumbra in acute stroke patients treated with intra-arterial therapy. American Journal Of Neuroradiology 2006, 27: 20-5. PMID: 16418350, PMCID: PMC7976067.Peer-Reviewed Original ResearchConceptsCerebral blood volumeAcute stroke patientsCT perfusionStroke patientsCBF ratioGray matterWhite matterAbsolute cerebral blood volumeCBV ratioIntra-arterial therapyIschemic brain tissueQuantitative CT perfusionDynamic CT perfusionIA therapyRecanalization therapyStroke onsetSalvageable penumbraInfarct coreIschemic tissueUninvolved regionsIschemic regionBlood volumeCBF valuesPatientsBrain tissue
2001
Ischemic Stroke: Effects of Etiology and Patient Age on the Time Course of the Core Apparent Diffusion Coefficient
Copen W, Schwamm L, González R, Wu O, Harmath C, Schaefer P, Koroshetz W, Sorensen A. Ischemic Stroke: Effects of Etiology and Patient Age on the Time Course of the Core Apparent Diffusion Coefficient. Radiology 2001, 221: 27-34. PMID: 11568317, DOI: 10.1148/radiol.2211001397.Peer-Reviewed Original ResearchConceptsPatient ageApparent diffusion coefficientInfarct etiologyYounger patientsTime courseMagnetic resonance imaging examinationsRelative ADCEffect of etiologyRelative apparent diffusion coefficientLesion apparent diffusion coefficientNormal-appearing brainSignificant age-related differencesEtiology of lesionsStroke onsetIschemic strokeMedian ageOlder patientsSubgroup analysisAge-related differencesImaging examinationsPatientsADC progressionEtiologyLacunesAge