grant

Fabrication and Testing of a Novel PET insert for Simultaneous PET/MRI

Organization UNIVERSITY OF VIRGINIALocation CHARLOTTESVILLE, UNITED STATESPosted 22 Sept 2020Deadline 30 Jun 2026
NIHUS FederalResearch GrantFY2024AnimalsApplications GrantsBiological MarkersBody TissuesCell Communication and SignalingCell SignalingComputer softwareCoupledDataDiameterElectronsElementsEspanolGenerationsGrantGrant ProposalsHumanImageIndustrializationIntracellular Communication and SignalingLeadLegal patentLengthLightMR ImagingMR TomographyMRIMRI ScansMRIsMagnetic Resonance ImagingMagnetic Resonance Imaging ScanMapsMeasuresMedical Imaging, Magnetic Resonance / Nuclear Magnetic ResonanceMetastasisMetastasizeMetastatic LesionMetastatic MassMetastatic NeoplasmMetastatic TumorMiceMice MammalsModalityModern ManMolecularMotionMurineMusNMR ImagingNMR TomographyNational Research CouncilNegative Beta ParticleNegatronsNeoplasm MetastasisNuclear Magnetic Resonance ImagingOpticsPETPET ScanPET imagingPETSCANPETTPatentsPatternPb elementPerformancePhotonsPhotoradiationPhysiologic pulsePositionPositioning AttributePositronPositron Emission Tomography Medical ImagingPositron Emission Tomography ScanPositron-Emission TomographyPulmonary imagingPulseRad.-PETRadiationResolutionRodentRodentiaRodents MammalsRoleSPECTSPECT imagingSecondary NeoplasmSecondary TumorSeriesShapesSi elementSignal TransductionSignal Transduction SystemsSignalingSiliconSingle-Photon Emission-Computed Radionuclide TomographySoftwareSpanishSpecificitySurfaceTechnologyTemperatureTestingTissuesTubeUniversitiesVirginiaVisualizationWorkZeugmatographyabsorptionanatomic imaginganatomical imagingattenuationbio-markersbiologic markerbiological signal transductionbiomarkercancer metastasiscancer progressionclinical imagingdesigndesigningdetectorfabricationheavy metal Pbheavy metal leadimage-based methodimagingimaging methodimaging modalityimprovedindustrial partnershipindustry partnerindustry partnershipinstrumentationinterestinventionlung imaginglung scanningmagnetic fieldmolecular imagingmolecule imagingmouse modelmulti-modalitymultimodalitymurine modelneoplasm progressionneoplastic progressionnovelopticalphotomultiplierphoton detectionphoton-counting detectorpositron emission tomographic (PET) imagingpositron emission tomographic imagingpositron emitting tomographypre-clinicalpre-clinical imagingpreclinicalpreclinical imagingresolutionsresponsesensorsingle photon detectorsingle photon emission computed tomographysocial rolesoft tissuetumor cell metastasistumor progressionwater diffusion
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Full Description

Project Summary. PET (positron emission tomography) is the most sensitive imaging modality available
that can be used both for small animals and humans. We propose to build with our industrial and academic
partners a new generation of PET scanners based on a single crystal tube (ScintoTube – ST‐PET). This will
effectively remove edges from current generation PET scanners. There are distortions at the edges of
scanner elements that effectively reduce spatial resolution and sensitivity. The propose scanner has been
designed and will be built to be used in a magnetic resonance imaging (MRI) scanner. This is an
Academic/Industrial partnership grant. The University of Virginia (UVa) will lead the project. Their partners
include i3M (CSIC ‐ Spanish National Research Council) and Bruker Española. The UVa team has expertise
in testing/validating novel PET scanners, MRI software (pulse programming) and hardware design, and
mouse PET and MRI scanning. I3M and their colleagues at Bruker have a wealth of expertise in designing
and building multimodal scanners, including the Albira trimodal PET/SPECT/CT mouse scanner. Much of
the technology needed for the ST‐PET scanner has been developed by i3M/Bruker and will be ported as
part of this project to the ST‐PET. The proposed work includes: (1) Fabricate a ST‐PET insert for a high field
MRI scanner. The insert will be implemented by i3M and Bruker. Test and validate the ST‐PET scanner
outside the magnet first at i3M and then at UVa. (2) Integrate and test the ST‐PET insert with the 7T
ClinScan MRI at UVa. (3) As a proof‐of‐principle project, use the newly developed ST‐PET/MRI to image
lung cancer progression and metastasis in a mouse model.

Grant Number: 5R01EB029450-05
NIH Institute/Center: NIH
Principal Investigator: STUART BERR

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