Featured Publications
Glioma progression is shaped by genetic evolution and microenvironment interactions
Varn F, Johnson K, Martinek J, Huse J, Nasrallah M, Wesseling P, Cooper L, Malta T, Wade T, Sabedot T, Brat D, Gould P, Wöehrer A, Aldape K, Ismail A, Sivajothi S, Barthel F, Kim H, Kocakavuk E, Ahmed N, White K, Datta I, Moon H, Pollock S, Goldfarb C, Lee G, Garofano L, Anderson K, Nehar-Belaid D, Barnholtz-Sloan J, Bakas S, Byrne A, D’Angelo F, Gan H, Khasraw M, Migliozzi S, Ormond D, Paek S, Van Meir E, Walenkamp A, Watts C, Weiss T, Weller M, Palucka K, Stead L, Poisson L, Noushmehr H, Iavarone A, Verhaak R, Consortium T, Varn F, Johnson K, Martinek J, Huse J, Nasrallah M, Wesseling P, Cooper L, Malta T, Wade T, Sabedot T, Brat D, Gould P, Wöehrer A, Aldape K, Ismail A, Sivajothi S, Barthel F, Kim H, Kocakavuk E, Ahmed N, White K, Datta I, Moon H, Pollock S, Goldfarb C, Lee G, Garofano L, Anderson K, Nehar-Belaid D, Barnholtz-Sloan J, Bakas S, Byrne A, D’Angelo F, Gan H, Khasraw M, Migliozzi S, Ormond D, Paek S, Van Meir E, Walenkamp A, Watts C, Weiss T, Weller M, Alfaro K, Amin S, Ashley D, Bock C, Brodbelt A, Bulsara K, Castro A, Connelly J, Costello J, de Groot J, Finocchiaro G, French P, Golebiewska A, Hau A, Hong C, Horbinski C, Kannan K, Kouwenhoven M, Lasorella A, LaViolette P, Ligon K, Lowman A, Mehta S, Miletic H, Molinaro A, Ng H, Niclou S, Niers J, Phillips J, Rabadan R, Rao G, Reifenberger G, Sanai N, Short S, Smitt P, Sloan A, Smits M, Snyder J, Suzuki H, Tabatabai G, Tanner G, Tomaszewski W, Wells M, Westerman B, Wheeler H, Xie J, Yung W, Zadeh G, Zhao J, Palucka K, Stead L, Poisson L, Noushmehr H, Iavarone A, Verhaak R. Glioma progression is shaped by genetic evolution and microenvironment interactions. Cell 2022, 185: 2184-2199.e16. PMID: 35649412, PMCID: PMC9189056, DOI: 10.1016/j.cell.2022.04.038.Peer-Reviewed Original ResearchMeSH KeywordsAdultBrain NeoplasmsEvolution, MolecularGenes, p16GliomaHumansIsocitrate DehydrogenaseMutationNeoplasm Recurrence, LocalTumor MicroenvironmentConceptsSpecific ligand-receptor interactionsMicroenvironment interactionsDNA sequencing dataGlioma progressionLigand-receptor interactionsNeoplastic cellsSignaling programsCell statesSequencing dataGenetic evolutionGenetic changesIDH wild-type tumorsIsocitrate dehydrogenaseMesenchymal transitionSomatic alterationsDistinct mannerActive tumor growthIDH-mutant gliomasPotential targetTherapy resistanceAdult patientsDisease progressionPossible roleCellsTumor growth
2023
[18F]-fluoroethyl-L-tyrosine (FET) in glioblastoma (FIG) TROG 18.06 study: protocol for a prospective, multicentre PET/CT trial
Koh E, Gan H, Senko C, Francis R, Ebert M, Lee S, Lau E, Khasraw M, Nowak A, Bailey D, Moffat B, Fitt G, Hicks R, Coffey R, Verhaak R, Walsh K, Barnes E, De Abreu Lourenco R, Rosenthal M, Adda L, Foroudi F, Lasocki A, Moore A, Thomas P, Roach P, Back M, Leonard R, Scott A. [18F]-fluoroethyl-L-tyrosine (FET) in glioblastoma (FIG) TROG 18.06 study: protocol for a prospective, multicentre PET/CT trial. BMJ Open 2023, 13: e071327. PMID: 37541751, PMCID: PMC10407346, DOI: 10.1136/bmjopen-2022-071327.Peer-Reviewed Original ResearchConceptsFET PETPositron emission tomographyPrimary central nervous system cancerTumor progressionCentral nervous system cancerL-tyrosine positron emission tomographyFET-PET imagingPhase II studyCo-primary outcomesProgression-free survivalMaximal safe resectionPost-chemotherapy treatmentNervous system cancersHealth economic impactHuman Research Ethics CommitteePatterns of failureTrue tumor progressionGood clinical practiceDeclaration of HelsinkiRadiological progressionConcurrent chemoradiationInitial surgeryPostoperative radiotherapyII studyOverall survival
2021
Radiotherapy is associated with a deletion signature that contributes to poor outcomes in patients with cancer
Kocakavuk E, Anderson K, Varn F, Johnson K, Amin S, Sulman E, Lolkema M, Barthel F, Verhaak R. Radiotherapy is associated with a deletion signature that contributes to poor outcomes in patients with cancer. Nature Genetics 2021, 53: 1088-1096. PMID: 34045764, PMCID: PMC8483261, DOI: 10.1038/s41588-021-00874-3.Peer-Reviewed Original ResearchMeSH KeywordsDNA DamageHumansMutagenesisNeoplasm Recurrence, LocalNeoplasmsPrognosisRadiation, IonizingRadiotherapySequence DeletionConceptsWorse clinical outcomesNon-irradiated tumorsClinical outcomesRecurrent cancerPatient survivalPoor outcomeMetastatic tumorsRecurrent gliomaRadiation therapyRadiation-induced DNA damageDNA damageGlioma Longitudinal Analysis ConsortiumMutational signature analysisCancer treatmentDeletion burdenRadiotherapyMedical FoundationAPOBEC mutagenesisSignificant increaseTumorsCancerDNA damage repairDeletion signatureMutational spectrumSmall deletions