grant

Radiobiology and Imaging Program

Organization UNIVERSITY OF PENNSYLVANIALocation PHILADELPHIA, UNITED STATESPosted 15 Jan 1997Deadline 30 Nov 2027
NIHUS FederalResearch GrantFY2026AddressAtomic MedicineBasic ResearchBasic ScienceBiologicalBreast CancerCAR T cellsCAR modified T cellsCAR-TCAR-TsCCSGCancer BurdenCancer Center Support GrantCancer ControlCancer Control ScienceCancer PatientCancer TreatmentCancersCatchment AreaCell Nucleus DivisionCheckpoint inhibitorClinicalClinical ResearchClinical StudyClinical TrialsCollaborationsCommunity OutreachConsultationsDepartment chairDevelopmentDevelopment and ResearchDirect CostsDiscipline of Nuclear MedicineDiseaseDisorderDoctor of PhilosophyEducation and OutreachEnsureEnvironmentFundingGeneral RadiologyGoalsH+ elementHydrogen IonsHypoxiaHypoxicImageImaging DeviceImaging InstrumentImaging ToolImmuneImmune checkpoint inhibitorImmune mediated therapyImmune responseImmune systemImmunesImmunobiologyImmunologically Directed TherapyImmunophysiologyImmunotherapyInstitutionInstruction and OutreachInterventionIntervention TrialInterventional trialInvestigatorsIonizing Electromagnetic RadiationIonizing radiationKaryokinesisLeadLeadershipMalignant Breast NeoplasmMalignant Neoplasm TherapyMalignant Neoplasm TreatmentMalignant NeoplasmsMalignant TumorMetabolic stressModalityNational Cancer BurdenNon-Ionizing Electromagnetic RadiationNon-Ionizing RadiationNonionizing Electromagnetic RadiationNonionizing RadiationNormal TissueNormal tissue morphologyNuclear MedicineOxygen DeficiencyPatient outcomePatient-Centered OutcomesPatient-Focused OutcomesPatientsPb elementPediatric OncologyPeer ReviewPh.D.PhDPlayProtonsPublicationsR & DR&DR-Series Research ProjectsR01 MechanismR01 ProgramRadiationRadiation BiologyRadiation OncologyRadiation SensitivityRadiation ToleranceRadiation therapyRadiation-Ionizing TotalRadiation-Non-Ionizing TotalRadiobiologyRadiologyRadiology / Radiation Biology / Nuclear MedicineRadiology SpecialtyRadiopharmaceutical CompoundRadiopharmaceuticalsRadiosensitivityRadiotherapeuticsRadiotherapyResearchResearch GrantsResearch PersonnelResearch Project GrantsResearch ProjectsResearch ResourcesResearchersResolutionResource SharingResourcesRoleSchoolsScientific PublicationSenior ScientistSightT cells for CARTechnologyTestingTherapeuticTimeTraining and OutreachTranslational ResearchTranslational ScienceTumor BiologyTumor TissueTutoring and OutreachVisionWorkanti-canceranti-cancer therapyassociate facultyassociate professorbiologiccancer carecancer cell metabolismcancer metabolismcancer microenvironmentcancer therapycancer-directed therapycheck point immunotherapycheck point inhibitor therapycheck point inhibitory therapycheck point therapycheckpoint immunotherapycheckpoint inhibitor therapycheckpoint inhibitory therapycheckpoint therapychimeric antigen T cell receptorchimeric antigen receptor (CAR) T cellschimeric antigen receptor Tchimeric antigen receptor T cellschimeric antigen receptor fusion protein T-cellschimeric antigen receptor modified T cellscollaboration with communitiescommunity collaborationcommunity engagementcommunity-based collaborationconsultationdesign,build,testdevelopmentalengagement with communitiesenvironmental carcinogenesisepidemiology research studyepidemiology studyepidemiology surveyheavy metal Pbheavy metal leadhost responseimage-based methodimagingimaging agentimaging biomarkerimaging markerimaging methodimaging modalityimaging programimaging-based biological markerimaging-based biomarkerimaging-based markerimmune check point inhibitorimmune check point therapyimmune checkpoint therapyimmune system responseimmune therapeutic approachimmune therapeutic interventionsimmune therapeutic regimensimmune therapeutic strategyimmune therapyimmune-based therapiesimmune-based treatmentsimmuno therapyimmunoresponseimprovedinnovateinnovationinnovativeinvestigator-initiated trialionizing outputmalignancymalignant breast tumormembermid-career facultymidcareer facultyneoplasm/cancernovelnuclear divisionoptimal therapiesoptimal treatmentspatient oriented outcomesprofessorprogramsproton beamproton therapyradiation treatmentradio-sensitivityradioactive drugsradiosensitiveradiotherapeutic drugsrecruitresearch and developmentresolutionsresponseresponse to therapyresponse to treatmentsocial roletheranosticstherapeutic responsetherapy responsetobacco carcinogenesistranslation researchtranslational investigationtranslational pipelinetranslational spectrumtranslational studytreatment responsetreatment responsivenesstreatment with radiationtumor cell metabolismtumor metabolismtumor microenvironmentvisual function
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Full Description

PROJECT SUMMARY – Radiobiology and Imaging Program (RBI)
The Radiobiology and Imaging Program (RBI) seeks to advance the understanding of the interaction of
ionizing and non-ionizing radiation with cancer and normal tissues. RBI addresses the cancer burden within
our catchment area through collaboration with our Community Outreach and Engagement (COE). Scientific
Aims are to: 1) Develop and characterize agents to improve cancer therapy with radiation; 2) Investigate
radiobiological or imaging methods of altering or interrogating the immune environment to improve therapeutic
response; 3) Gain a deeper understanding of the tumor microenvironment (TME) and metabolism with the aim
to leverage this understanding to improve therapeutic response; 4) Develop novel imaging to optimally guide
cancer care; and 5) Understand the biological effects of protons to optimize their clinical use and determine
which patients will benefit most from proton beam therapy. The Program is led by Amit Maity, MD, PhD,
Professor and Executive Vice-Chair of the Department of Radiation Oncology, and Daniel Pryma, MD,
Associate Professor of Radiology and Chief of the Division of Nuclear Medicine. Drs. Maity and Pryma are
NCI-funded researchers who bring their scientific vision to this Program, which is focused on basic and
translational research and the development of investigator-initiated trials. Since the last renewal, the Program
Leaders recruited new junior and senior scientists, enhanced collaborative peer-reviewed funding, and more
than doubled accruals to interventional clinical trials, especially investigator-initiated trials (which constitute
91.6% of interventional accruals). Drs. Maity and Pryma expanded the Program's focus on imaging modalities
and theranostics and further enhanced the integration and interplay between radiobiology and imaging in RBI.
A major development has been the substantial expansion of both translational and clinical studies of proton
therapy. RBI has critical interactions with other ACC Programs including Tumor Biology, Immunobiology,
Cancer Therapeutics, Breast Cancer, Cancer Control, Tobacco and Environmental Carcinogenesis, and
Pediatric Oncology. The 44 Program members represent seven departments from four schools at Penn. RBI
members have $12M in research grant funding (annual direct costs), of which $10.9M is peer-reviewed and
$7M is NCI-funded. There were 654 cancer-related publications authored by Program members during the
project period. Of these, 27% are intra-Programmatic, 35% are inter-Programmatic and 64% are multi-
institutional. RBI has 36 R01-equivalents. Program members accrued 1,476 subjects to interventional trials,
and 3,611 subjects to non-interventional trials.

Grant Number: 4P30CA016520-50
NIH Institute/Center: NIH
Principal Investigator: Theresa Busch

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