grant
Dynamic Imaging with Sparse Total-Body Positron Emission Tomography
Organization UNIVERSITY OF CALIFORNIA AT DAVISLocation DAVIS, UNITED STATESPosted 1 May 2026Deadline 30 Apr 2028
NIHUS FederalResearch GrantFY2026AccelerationAddressAdoptionAlgorithmsArchitectureBedsBenchmarkingBest Practice AnalysisBlood flowBody TissuesCancer StagingCancersClinicalDataDevelopmentDiagnosticDiagnostic Neoplasm StagingDiseaseDisorderDoseEarly treatmentElectronicsEngineering / ArchitectureEnvironmentEvaluationExhibitsGoalsImageImaging technologyInfectionInflammationIntermediary MetabolismKineticsLengthLiteratureMachine LearningMalignant NeoplasmsMalignant TumorMedical ImagingMetabolic ProcessesMetabolismMethodsModalityModelingNeoplasm StagingNoiseOrganPETPET ScanPET imagingPETSCANPETTPatternPerformancePositionPositioning AttributePositron Emission Tomography Medical ImagingPositron Emission Tomography ScanPositron-Emission TomographyRad.-PETReportingResearchSamplingScanningSystemTechniquesTechnologyTestingTissuesTracerTumor Stagingbenchmarkclinical applicabilityclinical applicationcostcost effectivedeep learningdeep learning methoddeep learning strategydensitydesigndesigningdetectordevelopmentalearly therapyelectronicelectronic deviceexperimentexperimental researchexperimental studyexperimentsgray matterhuman subjectimage constructionimage generationimage reconstructionimagingimprovedinnovateinnovationinnovativekernel learningkernel methodskinetic modelmachine based learningmalignancymetabolic imagingmetabolic ratemolecular imagingmolecule imagingmulti-kernel learningneoplasm/cancerparametric imagingpositron emission tomographic (PET) imagingpositron emission tomographic imagingpositron emitting tomographyreceptor bindingreceptor boundreconstructionresponse to therapyresponse to treatmentsimulationspatial temporal imagingspatial temporal mappingspatiotemporal imagingspatiotemporal mappingstandard of caresubstantia albasubstantia griseatech developmenttechnology developmenttechnology implementationtechnology validationtemporal measurementtemporal resolutiontherapeutic responsetherapy responsetime measurementtooltreatment responsetreatment responsivenesstumorwhite matter
Description preview
Abstract
Total-body (TB) Positron Emission Tomography (PET) is a medical imaging technology that
enables comprehensive imaging of metabolic processes across the entire body in a single
bed position. It offers substantial advantages for dynamic imaging and kinetic modeling,
such as high temporal resolution and multiparametric capabilities, making…
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