2018
High Single Doses of Radiation May Induce Elevated Levels of Hypoxia in Early-Stage Non-Small Cell Lung Cancer Tumors
Kelada OJ, Decker RH, Nath SK, Johung KL, Zheng MQ, Huang Y, Gallezot JD, Liu C, Carson RE, Oelfke U, Carlson DJ. High Single Doses of Radiation May Induce Elevated Levels of Hypoxia in Early-Stage Non-Small Cell Lung Cancer Tumors. International Journal Of Radiation Oncology • Biology • Physics 2018, 102: 174-183. PMID: 30102194, PMCID: PMC6092043, DOI: 10.1016/j.ijrobp.2018.05.032.Peer-Reviewed Original ResearchConceptsStereotactic body radiation therapyTumor hypoxic volumeHigh single dosesNon-small cell lung cancer (NSCLC) tumorsCell lung cancer tumorsLung cancer tumorsSingle dosesTumor hypoxiaTreatment failureNSCLC tumorsBlood ratioHypoxic volumeRadiation therapyDay 2F-fluoromisonidazole (FMISO) positron emission tomographyCancer tumorsInstitutional review board-approved studyTumor vascular responseBody radiation therapyBoard-approved studyConventional radiation therapyPositron emission tomographyBaseline hypoxiaDetectable hypoxiaNSCLC patients
2017
Quantification of Tumor Hypoxic Fractions Using Positron Emission Tomography with [18F]Fluoromisonidazole ([18F]FMISO) Kinetic Analysis and Invasive Oxygen Measurements
Kelada OJ, Rockwell S, Zheng MQ, Huang Y, Liu Y, Booth CJ, Decker RH, Oelfke U, Carson RE, Carlson DJ. Quantification of Tumor Hypoxic Fractions Using Positron Emission Tomography with [18F]Fluoromisonidazole ([18F]FMISO) Kinetic Analysis and Invasive Oxygen Measurements. Molecular Imaging And Biology 2017, 19: 893-902. PMID: 28409339, PMCID: PMC5640490, DOI: 10.1007/s11307-017-1083-9.Peer-Reviewed Original ResearchConceptsPositron emission tomographyTumor hypoxic fractionHypoxic fractionEmission tomographyLung cancer radiotherapy patientsPO2 measurementsAbsolute tumor volumeC miceDirect pO2 measurementsBlood ratioClinical impactTumor volumeHypoxia quantificationSubcutaneous tumorsPurposeThe purposeTracer kinetic modelingRadiotherapy patientsPET imagingPatientsPO2 valuesScansPatlak modelTomographyTwo-compartmentTBR
2014
WE‐G‐BRD‐06: Variation in Dynamic Positron Emission Tomography Imaging of Tumor Hypoxia in Early Stage Non‐Small Cell Lung Cancer Patients Undergoing Stereotactic Body Radiotherapy
Kelada O, Decker R, Zheng M, Huang Y, Xia Y, Gallezot J, Liu C, Rockwell S, Carson R, Oelfke U, Carlson D. WE‐G‐BRD‐06: Variation in Dynamic Positron Emission Tomography Imaging of Tumor Hypoxia in Early Stage Non‐Small Cell Lung Cancer Patients Undergoing Stereotactic Body Radiotherapy. Medical Physics 2014, 41: 520-520. DOI: 10.1118/1.4889490.Peer-Reviewed Original ResearchNon-small cell lung cancer patientsCell lung cancer patientsPositron emission tomographyTumor hypoxic volumeLung cancer patientsCancer patientsHypoxic volumeEarly stage non-small cell lung cancer patientsTumor hypoxiaTumor vascular responseStereotactic body radiotherapyTotal tumor volumeNovel pilot studyEmission Tomography ImagingPositron emission tomography (PET) imagingDifferent time pointsTreatment failureFirst patientVascular responsesBody radiotherapyNSCLC tumorsTreatment individualizationBlood ratioTumor volumeSingle patient
2013
MO‐D‐141‐01: Quantification of Tumor Hypoxia Using [18F]‐Fluoromisonidazole Positron Emission Tomography and Tracer Kinetic Modeling
Kelada O, Rockwell S, Carson R, Decker R, Oelfke U, Carlson D. MO‐D‐141‐01: Quantification of Tumor Hypoxia Using [18F]‐Fluoromisonidazole Positron Emission Tomography and Tracer Kinetic Modeling. Medical Physics 2013, 40: 399-399. DOI: 10.1118/1.4815248.Peer-Reviewed Original ResearchPositron emission tomographyBlood ratioComputed tomographyFluoromisonidazole positron emission tomographyMale BALB/c miceEmission tomographyTumor hypoxiaBALB/c miceEMT-6 tumorsNon-invasive imaging methodVoxel basisTreatment failureC miceConventional tumorHypoxia quantificationHypoxic fractionAnaesthetized animalsTumorsHistologic sectionsPharmacokinetic modelPharmacokinetic modelingDynamic positron emission tomographyPET imagingHypoxic radioresistanceBetter delineation