2024
Mapping extrachromosomal DNA amplifications during cancer progression
Kim H, Kim S, Wade T, Yeo E, Lipsa A, Golebiewska A, Johnson K, An S, Ko J, Nam Y, Lee H, Kang S, Chung H, Niclou S, Moon H, Paek S, Bafna V, Luebeck J, Verhaak R. Mapping extrachromosomal DNA amplifications during cancer progression. Nature Genetics 2024, 56: 2447-2454. PMID: 39402156, PMCID: PMC11549044, DOI: 10.1038/s41588-024-01949-7.Peer-Reviewed Original ResearchConceptsPretreatment tumorsCancer progressionChemotherapy-pretreated patientsNewly diagnosed tumorsVariant allele fractionUntreated metastasesPrimary cancerUntreated cancerTreatment responseFocal amplificationTumor samplesChromosomal amplificationsDiagnosed cancerTumorExtrachromosomal DNA amplificationsAdvanced cancerCancerEcDNATime pointsMetastasisNewlyDNA amplificationProgressionExtrachromosomal DNAPatients
2019
GENE-28. LONGITUDINAL MOLECULAR TRAJECTORIES OF DIFFUSE GLIOMA IN ADULTS
Barthel F, Johnson K, Varn F, Moskalik A, Tanner G, Kocakavuk E, Anderson K, Abiola O, Consortium G, Huse J, DeGroot J, Stead L, Verhaak R. GENE-28. LONGITUDINAL MOLECULAR TRAJECTORIES OF DIFFUSE GLIOMA IN ADULTS. Neuro-Oncology 2019, 21: vi103-vi103. PMCID: PMC6847692, DOI: 10.1093/neuonc/noz175.430.Peer-Reviewed Original ResearchAdult patientsOverall survivalDisease recurrencePoor outcomeCurrent therapiesInitial diseaseTreatment optionsTherapy resistanceNeoantigen profilesTherapeutic interventionsPatientsPathway alterationsTumor progressionGlioma Longitudinal Analysis ConsortiumTargeted inhibitorsCancer typesGlioma developmentGliomasDiffuse gliomasGlioma subtypesTime pointsUnderstanding of mechanismsRecurrenceGlioma datasetsHypermutator phenotype
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