2023
465 Defining the Immune Profile of Radiation Necrosis Through Single-cell Analysis of Intracranial Lesions
Robert S, Lu B, Arnal-Estape A, Nguyen D, Chiang V. 465 Defining the Immune Profile of Radiation Necrosis Through Single-cell Analysis of Intracranial Lesions. Neurosurgery 2023, 69: 97-98. DOI: 10.1227/neu.0000000000002375_465.Peer-Reviewed Original ResearchRadiation necrosisFluorescence-activated cell sortingImmune profileNatural killer (NK) cellsIncidence of radiation necrosisManagement of brain metastasesMetastatic brain tumor patientsMorbid side effectsTreatment of RNRecurrent metastatic diseaseExpression of Foxp3Cytotoxic T cellsInvasive brain biopsyCellular immune profilesInterleukin-7 receptorBrain tumor patientsBrain metastasesMetastatic diseaseMetastatic tumorsImmune landscapeIntraoperative samplesPatient survivalT cellsBrain biopsyIntracranial lesions
2022
IMMU-01. DEFINING THE IMMUNE PROFILE OF RADIATION NECROSIS THROUGH SINGLE-CELL ANALYSIS OF INTRACRANIAL LESIONS
Robert S, Lu B, Kiziltug E, Estape A, Nguyen D, Chiang V. IMMU-01. DEFINING THE IMMUNE PROFILE OF RADIATION NECROSIS THROUGH SINGLE-CELL ANALYSIS OF INTRACRANIAL LESIONS. Neuro-Oncology 2022, 24: vii131-vii131. DOI: 10.1093/neuonc/noac209.499.Peer-Reviewed Original ResearchRadiation necrosisFluorescence-activated cell sortingNatural killer (NK) cellsIncidence of radiation necrosisManagement of brain metastasesMetastatic brain tumor patientsMorbid side effectsTreatment of RNRecurrent metastatic diseaseExpression of Foxp3Invasive brain biopsyCellular immune profilesInterleukin-7 receptorBrain tumor patientsNeuroimmune profileBrain metastasesMetastatic diseaseCytotoxic TMetastatic tumorsImmune landscapeIntraoperative samplesImprove patient diagnosisImmune profilePatient survivalBrain biopsy