grant

SV2A PET in Spinal Cord Injury Imaging

Organization YALE UNIVERSITYLocation NEW HAVEN, UNITED STATESPosted 1 Jul 2022Deadline 30 Jun 2027
NIHUS FederalResearch GrantFY2025AD dementiaAffinityAgeAilmentary SystemAlimentary SystemAlzheimer Type DementiaAlzheimer disease dementiaAlzheimer sclerosisAlzheimer syndromeAlzheimer'sAlzheimer's DiseaseAlzheimers DementiaAnimal ModelAnimal Models and Related StudiesAnimalsAntibody TherapyApoplexyAssayBehavioralBindingBinding SitesBioassayBiological AssayBiological MarkersBody TissuesBrainBrain Nervous SystemBrain Vascular AccidentBruiseCAT scanCNS plasticityCT X RayCT XrayCT imagingCT scanCell Communication and SignalingCell SignalingCerebral StrokeCerebrovascular ApoplexyCerebrovascular StrokeChestClinicClinicalClinical ManagementClinical TrialsCognitiveCombining SiteCommon Rat StrainsComputed TomographyContusionsDNA Molecular BiologyDiagnosisDigestive SystemDiseaseDisorderDysfunctionElectron MicroscopyEmotionalEncephalonEpilepsyEpileptic SeizuresEpilepticsEvaluationEventFunctional disorderGastrointestinal Body SystemGastrointestinal Organ SystemGlycoproteinsHistologicHistologicallyHistologyHumanIND FilingIND applicationIND packageIND submissionImageImaging in rodentImmunoblottingImmunohistochemistryImmunohistochemistry Cell/TissueImmunohistochemistry Staining MethodIn VitroIn vivo analysisInjuryInterventionIntracellular Communication and SignalingInvestigational New Drug ApplicationLevetiracetamLigandsLiteratureM mulattaM. mulattaMR ImagingMR TomographyMRIMRIsMacaca mulattaMacaca rhesusMagnetic Resonance ImagingMeasuresMedical Imaging, Magnetic Resonance / Nuclear Magnetic ResonanceMedulla SpinalisMental DepressionMethodsModalityModelingModern ManMolecular BiologyMolecular InteractionMonkeysMotorNMR ImagingNMR TomographyNeuronal PlasticityNuclear Magnetic Resonance ImagingOutcomePETPET ScanPET imagingPETSCANPETTParalysis AgitansParkinsonParkinson DiseasePatientsPersonsPhysiologicPhysiologicalPhysiopathologyPositron Emission Tomography Medical ImagingPositron Emission Tomography ScanPositron-Emission TomographyPrimary ParkinsonismPrimary Senile Degenerative DementiaPrognosisRad.-PETRatRats MammalsRattusReactive SiteReceptor ProteinRecoveryResearchRhesus MacaqueRhesus MonkeyRodentRodent ModelRodentiaRodents MammalsSCI PatientsScanningSchizophreniaSchizophrenic DisordersSeizure DisorderSensorySeveritiesSeverity of illnessSignal TransductionSignal Transduction SystemsSignalingSpecificitySpinal CordSpinal Cord ContusionsSpinal Cord TraumaSpinal TraumaSpinal cord injuredSpinal cord injurySpinal cord injury patientsStrokeSynapsesSynapticSynaptic Vesicle P38 Membrane ProteinSynaptic Vesicle Protein P38Synaptic VesiclesSynaptophysinTestingTherapeuticTherapeutic EffectThoraceThoracicThoraxTimeTissuesTomodensitometryTracerTranslatingTraumatic MyelopathyTreatment outcomeUnited StatesValidationWestern BlottingWestern ImmunoblottingX-Ray CAT ScanX-Ray Computed TomographyX-Ray Computerized TomographyXray CAT scanXray Computed TomographyXray computerized tomographyZeugmatographyagesantibody based therapiesantibody treatmentantibody-based therapeuticsantibody-based treatmentbehavior testbehavioral testbio-markersbiologic markerbiological signal transductionbiomarkerbrain attackcatscancentral nervous system plasticitycerebral vascular accidentcerebrovascular accidentclinical translationclinical validationclinically translatablecomputed axial tomographycomputer tomographycomputerized axial tomographycomputerized tomographycostdementia praecoxdensitydepressiondetermine efficacydisease severitydosimetrydrug detectiondrug testingefficacy analysisefficacy assessmentefficacy determinationefficacy evaluationefficacy examinationepilepsiaepileptogenicevaluate efficacyexamine efficacyexperimentexperimental researchexperimental studyexperimentsgastrointestinal systemimage-based methodimagingimaging agentimaging approachimaging based approachimaging methodimaging modalityimaging studies in rodentimaging studies of rodentimaging studyimprovedin vitro Assayin vivo evaluationin vivo testinginjuriesinjury recoverymodel of animalneuralneural plasticityneuroplasticneuroplasticityneuropsychiatric diseaseneuropsychiatric disordernon-contrast CTnon-human primatenon-invasive imagingnoncontrast CTnoncontrast computed tomographynonhuman primatenoninvasive imagingnoveloutcome predictionpathophysiologypositron emission tomographic (PET) imagingpositron emission tomographic imagingpositron emitting tomographyprimary degenerative dementiaprotein blottingpublic health relevancequantitative imagingradiolabelradiolabelsradiotracerreceptorrecovery after injuryrecovery following injuryrecovery post injuryrespiratoryresponse to therapyresponse to treatmentrodent imagingroutine imagingschizophrenicsenile dementia of the Alzheimer typespinal cord imagingstrokedstrokessynapsetherapeutic evaluationtherapeutic responsetherapeutic testingtherapy responsetooltreatment effecttreatment responsetreatment responsivenessuptakeurinaryvalidations
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Full Description

ABSTRACT
Traumatic spinal cord injuries (SCI) involve serious neural damage events that can lead to long-term motor and
sensory deficits, as well as cognitive and emotional dysfunctions. Computed tomography (CT) and magnetic
resonance imaging (MRI) are routinely used in the clinical management of SCI. However, neither method
provides physiological information of SCI progression and recovery. We propose to fill this gap by applying
quantitative PET imaging using our newly developed synaptic vesicle glycoprotein 2A (SV2A) radiotracer to track
the synaptic density changes and neuroplasticity over the disease course. Quantitative SV2A PET imaging has
been used to reveal the synaptic density changes in a variety of neuropsychiatric disorders, including Alzheimer’s
disease, Parkinson’s disease, depression, epilepsy, schizophrenia, and stroke. Our pilot PET imaging studies
using the recently developed SV2A PET imaging agents indicate that SV2A PET could be used to quantify
synapse density in the spinal cord of rodents, monkeys, and human. Our pilot SV2A PET rodent imaging study
proved the feasibility of using SV2A PET to detect subtle synaptic loss at 10 days post moderate thoracic
contusion injury. Based on these preliminary results and literature evidence, we hypothesize that altered SV2A
level is a biomarker for neuroplasticity in SCI and SV2A PET can be used to facilitate the diagnose and prognosis
of SCI and to evaluate therapeutic effects in clinical trials. We propose to test the hypotheses through the
following aims: 1) to determine the expression levels and dynamics of synaptic markers in rodent model of SCI
over time, using molecular biology and quantitative in vitro imaging approach; 2) to validate SV2A PET imaging
in the SCI rodent model through small animal PET, ex vivo and in vitro assays and behavioral tests and to apply
SV2A PET imaging in the objective evaluation of therapeutic effects of an anti-Nogo antibody treatment; 3) as a
key step for clinical translation and validation, we will select the most promising SV2A PET tracer for spinal cord
imaging using nonhuman primate as the animal model. Successful completion of this project will yield a sensitive,
reliable, and quantitative imaging method ready to be tested in SCI patients as a diagnosis and prognosis
modality, as well as a research tool to probe the neuroplasticity in SCI animal models and patients. It will also
allow for the objective and longitudinal tracking of SCI progression and recovery.

Grant Number: 5R01NS123183-04
NIH Institute/Center: NIH
Principal Investigator: Zhengxin Cai

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