2024
Intensive induction chemotherapy vs hypomethylating agents in combination with venetoclax in NPM1-mutant AML
Bewersdorf J, Shimony S, Shallis R, Liu Y, Berton G, Schaefer E, Zeidan A, Goldberg A, Stein E, Marcucci G, Bystrom R, Lindsley R, Chen E, Perez J, Stein A, Pullarkat V, Aldoss I, DeAngelo D, Neuberg D, Stone R, Garciaz S, Ball B, Stahl M. Intensive induction chemotherapy vs hypomethylating agents in combination with venetoclax in NPM1-mutant AML. Blood Advances 2024, 8: 4845-4855. PMID: 38941537, PMCID: PMC11416634, DOI: 10.1182/bloodadvances.2024012858.Peer-Reviewed Original ResearchIntensive induction chemotherapyAcute myeloid leukemiaNPM1-Mutant Acute Myeloid LeukemiaInduction chemotherapyHypomethylating agentsMulticenter retrospective cohort study of patientsPatients treated with ICAllogeneic stem cell transplantationRetrospective cohort study of patientsMulticenter retrospective cohort studyCohort study of patientsComposite complete remissionStem cell transplantationYears-oldFLT3-ITD mutationStudy of patientsStandard of careNormal cytogeneticsComplete remissionCell transplantationNPM1 mutationsMyeloid leukemiaFLT3-ITDYounger patientsOlder patientsCombination therapy with hypomethylating agents and venetoclax versus intensive induction chemotherapy in IDH1‐ or IDH2‐mutant newly diagnosed acute myeloid leukemia—A multicenter cohort study
Bewersdorf J, Shimony S, Shallis R, Liu Y, Berton G, Schaefer E, Zeidan A, Goldberg A, Stein E, Marcucci G, Bystrom R, Lindsley R, Chen E, Ramos J, Stein A, Pullarkat V, Aldoss I, DeAngelo D, Neuberg D, Stone R, Garciaz S, Ball B, Stahl M. Combination therapy with hypomethylating agents and venetoclax versus intensive induction chemotherapy in IDH1‐ or IDH2‐mutant newly diagnosed acute myeloid leukemia—A multicenter cohort study. American Journal Of Hematology 2024, 99: 1640-1643. PMID: 38751104, DOI: 10.1002/ajh.27366.Peer-Reviewed Original ResearchCost-effectiveness of adding quizartinib to induction chemotherapy for patients with FLT3-mutant acute myeloid leukemia
Bewersdorf J, Patel K, Shallis R, Podoltsev N, Kewan T, Stempel J, Mendez L, Stahl M, Stein E, Huntington S, Goshua G, Zeidan A. Cost-effectiveness of adding quizartinib to induction chemotherapy for patients with FLT3-mutant acute myeloid leukemia. Leukemia & Lymphoma 2024, 65: 1136-1144. PMID: 38648559, PMCID: PMC11265977, DOI: 10.1080/10428194.2024.2344052.Peer-Reviewed Original ResearchQuality-adjusted life yearsCompletion of consolidation therapyFLT3-mutant acute myeloid leukemiaAllogeneic hematopoietic cell transplantationIncremental cost-effectiveness ratioProbabilistic sensitivity analysesImproved overall survivalHematopoietic cell transplantationPartitioned survival analysis modelAcute myeloid leukemiaCost-effectiveness ratioFLT3 inhibitor quizartinibHealth economic implicationsConsolidation therapyInduction chemotherapyAverage wholesale priceOverall survivalCell transplantationContinuous therapyMyeloid leukemiaITD mutationQuizartinibIncremental costCost-effective optionLife years
2023
Management of Acute Myeloid Leukemia with Myelodysplasia-Related Changes and Therapy-Related Acute Myeloid Leukemia
Bewersdorf J, Zeidan A. Management of Acute Myeloid Leukemia with Myelodysplasia-Related Changes and Therapy-Related Acute Myeloid Leukemia. 2023, 119-128. DOI: 10.1007/978-981-99-3810-0_8.ChaptersTherapy-related AMLAcute myeloid leukemiaSecondary AMLAML-MRCMyeloid leukemiaRandomized phase III clinical trialsPhase III clinical trialsAdverse cytogenetic featuresOverall survival benefitDe novo AMLT-AML patientsYears of ageHigh-risk mutationsInduction chemotherapyMonosomal karyotypeCPX-351Intensive chemotherapyNovo AMLSurvival benefitTreatment landscapeAdverse prognosisFrontline treatmentSubgroup analysisClinical trialsConventional chemotherapy
2022
Molecular predictors of immunophenotypic measurable residual disease clearance in acute myeloid leukemia
Stahl M, Derkach A, Farnoud N, Bewersdorf J, Robinson T, Famulare C, Cho C, Devlin S, Menghrajani K, Patel M, Cai S, Miles L, Bowman R, Geyer M, Dunbar A, Epstein‐Peterson Z, McGovern E, Schulman J, Glass J, Taylor J, Viny A, Stein E, Getta B, Arcila M, Gao Q, Barker J, Shaffer B, Papadopoulos E, Gyurkocza B, Perales M, Abdel‐Wahab O, Levine R, Giralt S, Zhang Y, Xiao W, Pai N, Papaemmanuil E, Tallman M, Roshal M, Goldberg A. Molecular predictors of immunophenotypic measurable residual disease clearance in acute myeloid leukemia. American Journal Of Hematology 2022, 98: 79-89. PMID: 36251406, PMCID: PMC10080561, DOI: 10.1002/ajh.26757.Peer-Reviewed Original ResearchConceptsMeasurable residual diseaseAcute myeloid leukemiaAllo-SCTInduction chemotherapyPersistent diseaseMyeloid leukemiaAllogeneic stem cell transplantationStem cell transplantationMonosomy 5Residual diseaseDisease clearanceKaryotypic abnormalitiesPrognostic factorsCell transplantationMolecular predictorsMRD clearanceRemissionClinical trialsNext-generation sequencingChemotherapyPatientsMutation patternsTherapyLeukemiaMRD
2021
Maintenance therapies in acute myeloid leukemia: the renaissance of an old therapeutic concept
Bewersdorf J, Tallman M, Stahl M. Maintenance therapies in acute myeloid leukemia: the renaissance of an old therapeutic concept. Current Opinion In Oncology 2021, 33: 658-669. PMID: 34341323, DOI: 10.1097/cco.0000000000000778.Peer-Reviewed Original ResearchConceptsAcute myeloid leukemiaAcute myeloid leukemia patientsMaintenance therapyAllo-HCTOverall survivalIntensive chemotherapyMyeloid leukemiaPersistence of leukemic cellsSafety of maintenance therapyAllogeneic hematopoietic cell transplantationRelapse-free survivalDuration of remissionHematopoietic cell transplantationIndividualized therapeutic approachFLT3 inhibitor sorafenibCC-486Induction chemotherapyOS benefitDisease relapseCell transplantationInhibitor sorafenibImproved survivalPatient selectionTargeted agentsLeukemic cellsThe development and clinical use of oral hypomethylating agents in acute myeloid leukemia and myelodysplastic syndromes: dawn of the total oral therapy era
Schiffer M, Zhao J, Johnson A, Lee J, Bewersdorf JP, Zeidan AM. The development and clinical use of oral hypomethylating agents in acute myeloid leukemia and myelodysplastic syndromes: dawn of the total oral therapy era. Expert Review Of Anticancer Therapy 2021, 21: 989-1002. PMID: 33853476, DOI: 10.1080/14737140.2021.1918002.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsChronic myelomonocytic leukemiaAcute myeloid leukemiaMyelodysplastic syndromeMyeloid leukemiaMyelomonocytic leukemiaHypomethylating agentAllogeneic hematopoietic cell transplantPost-transplant maintenance therapyAcute myeloid leukemia (AML) treatmentHematopoietic cell transplantHigh-risk MDSMyeloid leukemia treatmentPotential combination therapyCC-486Induction chemotherapyOral azacitidineTherapy eraMaintenance therapyOral agentsAdult patientsCell transplantClinical benefitMaintenance treatmentCombination therapyPredictive biomarkers
2020
Patterns of care and clinical outcomes with cytarabine-anthracycline induction chemotherapy for AML patients in the United States
Zeidan AM, Podoltsev NA, Wang X, Zhang C, Bewersdorf JP, Shallis RM, Huntington SF, Neparidze N, Giri S, Gore SD, Davidoff AJ, Ma X, Wang R. Patterns of care and clinical outcomes with cytarabine-anthracycline induction chemotherapy for AML patients in the United States. Blood Advances 2020, 4: 1615-1623. PMID: 32311013, PMCID: PMC7189301, DOI: 10.1182/bloodadvances.2020001728.Peer-Reviewed Original ResearchConceptsIntensive induction chemotherapyAcute myeloid leukemiaHospital deathInduction chemotherapyAdult patientsMultivariable logistic regression modelLow hospital volumePremier Healthcare DatabasePredictors of deathHealthcare resource utilizationIntensive care unitPatterns of careStandard of careLogistic regression modelsFit patientsRemission inductionFirst hospitalizationHospital volumeInpatient deathInpatient mortalityOlder patientsSupportive careMedian ageAML patientsCare unit
2019
Patterns of Care and Clinical Outcomes with 7+3 Induction Chemotherapy for Patients (pts) with Acute Myeloid Leukemia (AML) in the United States (US): A Large Population-Based Study
Zeidan A, Podoltsev N, Wang X, Bewersdorf J, Shallis R, Huntington S, Neparidze N, Giri S, Gore S, Ma X, Davidoff A, Wang R. Patterns of Care and Clinical Outcomes with 7+3 Induction Chemotherapy for Patients (pts) with Acute Myeloid Leukemia (AML) in the United States (US): A Large Population-Based Study. Blood 2019, 134: 116. DOI: 10.1182/blood-2019-126643.Peer-Reviewed Original ResearchBone marrow aspirate/biopsyHigh-volume hospitalsAcute myeloid leukemiaMedium-volume hospitalsAML ptsInduction chemotherapyIntensive care unitAnti-infective medicationsAnti-viral medicationInpatient stayCelgene CorporationAntifungal prophylaxisHospital deathVolume hospitalsHospital volumeMechanical ventilationLarge population-based retrospective cohort studyPopulation-based retrospective cohort studyCytarabine-based induction chemotherapyBoehringer IngelheimAdvisory CommitteeLarge population-based studyDaiichi SankyoInduction-related mortalityMedium-volume institutionsImmune checkpoint-based therapy in myeloid malignancies: a promise yet to be fulfilled
Bewersdorf JP, Stahl M, Zeidan AM. Immune checkpoint-based therapy in myeloid malignancies: a promise yet to be fulfilled. Expert Review Of Anticancer Therapy 2019, 19: 393-404. PMID: 30887841, PMCID: PMC6527485, DOI: 10.1080/14737140.2019.1589374.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsImmune checkpoint-based therapyImmune checkpoint inhibitorsAcute myeloid leukemiaMyelodysplastic syndromeNon-small cell lung cancerMultiple immune checkpoint inhibitorsTumor microenvironmentHematopoietic stem cell transplantAdvanced solid malignanciesStem cell transplantCell lung cancerInhibitory immune checkpointsImmunosuppressive tumor microenvironmentType of therapyMinimal residual diseaseInduction chemotherapyMonotherapy useRefractory settingCheckpoint inhibitorsImmune checkpointsTumor cell survivalCell transplantResidual diseaseSafety profileImmune system evasion