2021
Comparison of radiomic feature aggregation methods for patients with multiple tumors
Chang E, Joel MZ, Chang HY, Du J, Khanna O, Omuro A, Chiang V, Aneja S. Comparison of radiomic feature aggregation methods for patients with multiple tumors. Scientific Reports 2021, 11: 9758. PMID: 33963236, PMCID: PMC8105371, DOI: 10.1038/s41598-021-89114-6.Peer-Reviewed Original ResearchConceptsCox proportional hazards modelCox proportional hazardsProportional hazards modelBrain metastasesRadiomic featuresHazards modelProportional hazardsStandard Cox proportional hazards modelMultifocal brain metastasesMultiple brain metastasesNumber of patientsPatient-level outcomesHigher concordance indexRadiomic feature analysisRandom survival forest modelSurvival modelsDifferent tumor volumesMultifocal tumorsCancer outcomesMultiple tumorsMetastatic cancerConcordance indexTumor volumePatientsTumor types
2019
Residual Tumor Volume, Cell Volume Fraction, and Tumor Cell Kill During Fractionated Chemoradiation Therapy of Human Glioblastoma using Quantitative Sodium MR Imaging
Thulborn KR, Lu A, Atkinson IC, Pauliah M, Beal K, Chan TA, Omuro A, Yamada J, Bradbury MS. Residual Tumor Volume, Cell Volume Fraction, and Tumor Cell Kill During Fractionated Chemoradiation Therapy of Human Glioblastoma using Quantitative Sodium MR Imaging. Clinical Cancer Research 2019, 25: 1226-1232. PMID: 30487127, PMCID: PMC7462306, DOI: 10.1158/1078-0432.ccr-18-2079.Peer-Reviewed Original ResearchConceptsResidual tumor volumeTumor cell killTissue sodium concentrationChemoradiation therapyOverall survivalHuman glioblastomaTumor volumeQuantitative sodium MR imagingCell killQuantitative sodium MRITumor cellsVariable tumor responseSodium MRITwo-compartment modelTumor resectionTumor responseDisease progressionSodium MR imagingTumor marginsMR imagingTherapyGlioblastomaTreatment volumeCancer cellsSodium concentration
2015
Integration of 2-hydroxyglutarate-proton magnetic resonance spectroscopy into clinical practice for disease monitoring in isocitrate dehydrogenase-mutant glioma
de la Fuente MI, Young RJ, Rubel J, Rosenblum M, Tisnado J, Briggs S, Arevalo-Perez J, Cross JR, Campos C, Straley K, Zhu D, Dong C, Thomas A, Omuro AA, Nolan CP, Pentsova E, Kaley TJ, Oh JH, Noeske R, Maher E, Choi C, Gutin PH, Holodny AI, Yen K, DeAngelis LM, Mellinghoff IK, Thakur SB. Integration of 2-hydroxyglutarate-proton magnetic resonance spectroscopy into clinical practice for disease monitoring in isocitrate dehydrogenase-mutant glioma. Neuro-Oncology 2015, 18: 283-290. PMID: 26691210, PMCID: PMC4724186, DOI: 10.1093/neuonc/nov307.Peer-Reviewed Original ResearchConceptsTumor volumeDisease monitoringIsocitrate dehydrogenase (IDH) mutant gliomasProton magnetic resonance spectroscopyConsecutive glioma patientsMR imaging protocolMagnetic resonance spectroscopyCytoreductive therapyTumor levelsLarge tumorsTumor gradeSmall tumorsGlioma patientsGlioma imagingGlioma therapyClinical practiceClinical implicationsRoutine MRTumor cellularityTumor cellsIDH-mutant gliomasGliomasMetabolite RImaging protocolMitotic index
2014
Phase II Study of Bevacizumab, Temozolomide, and Hypofractionated Stereotactic Radiotherapy for Newly Diagnosed Glioblastoma
Omuro A, Beal K, Gutin P, Karimi S, Correa DD, Kaley TJ, DeAngelis LM, Chan TA, Gavrilovic IT, Nolan C, Hormigo A, Lassman AB, Mellinghoff I, Grommes C, Reiner AS, Panageas KS, Baser RE, Tabar V, Pentsova E, Sanchez J, Barradas-Panchal R, Zhang J, Faivre G, Brennan CW, Abrey LE, Huse JT. Phase II Study of Bevacizumab, Temozolomide, and Hypofractionated Stereotactic Radiotherapy for Newly Diagnosed Glioblastoma. Clinical Cancer Research 2014, 20: 5023-5031. PMID: 25107913, PMCID: PMC4523080, DOI: 10.1158/1078-0432.ccr-14-0822.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAgedAntibodies, Monoclonal, HumanizedAntineoplastic Combined Chemotherapy ProtocolsBevacizumabBiopsyBrain NeoplasmsChemotherapy, AdjuvantCombined Modality TherapyDacarbazineFemaleGlioblastomaHumansMagnetic Resonance ImagingMaleMiddle AgedRadiosurgeryTemozolomideTreatment OutcomeYoung AdultConceptsObjective response rateOverall survivalRadiotherapy schedulesMedian overall survivalPhase II studyHypofractionated Stereotactic RadiotherapyPhase II trialApparent diffusion coefficient ratioRelative cerebral blood volumeDynamic susceptibility contrast perfusion MRICerebral blood volumeNeuropsychological test scoresMedian PFSPersistent hypermetabolismAdjuvant temozolomidePrimary endpointII studyII trialPoor OSStandard dosesFDG-PETPrognostic valuePoor prognosisHistorical controlsTumor volume
2013
Survival benefit from bevacizumab in newly diagnosed glioblastoma (GBM) according to transcriptional subclasses.
Huse J, Beal K, Zhang J, Kastenhuber E, Kaley T, Abrey L, Gutin P, Brennan C, Omuro A. Survival benefit from bevacizumab in newly diagnosed glioblastoma (GBM) according to transcriptional subclasses. Journal Of Clinical Oncology 2013, 31: 2057-2057. DOI: 10.1200/jco.2013.31.15_suppl.2057.Peer-Reviewed Original ResearchMedian overall survivalOverall survivalBevacizumab treatmentSurvival benefitNanoString gene expression assaysProspective phase II trialPhase II trialNew treatment optionsParaffin-embedded tissue blocksGBM molecular subtypesMGMT promoter methylationEvaluable ptsPrimary endpointII trialUnselected patientsTreatment optionsMolecular subtypesTumor volumeStereotactic radiotherapyBevacizumabSurvival advantageTherapeutic implicationsMolecular subclassesGlioblastomaTumors