grant

Using Exercise to Enhance Consolidation of Exposure-Based Therapeutic Learning in PTSD

Organization UNIVERSITY OF KENTUCKYLocation LEXINGTON, UNITED STATESPosted 16 Feb 2024Deadline 31 Jan 2027
NIHUS FederalResearch GrantFY202521+ years oldActive Follow-upAcuteAdultAdult HumanAerobic ActivityAerobic ExerciseAerobic TrainingAerobic fitnessAffectiveAfter CareAfter-TreatmentAftercareAmygdalaAmygdaloid BodyAmygdaloid NucleusAmygdaloid structureAnimal ModelAnimal Models and Related StudiesAnteriorAnxietyArousalBDNFBiological MarkersBrain-Derived Neurotrophic FactorCardiac ChronotropismCardiovascular DiseasesCell Communication and SignalingCell SignalingCentral LobeClinical assessmentsCuesDiagnosisDiseaseDisorderDorsalEmotionalEventExerciseExercise TestExposure toExtinctionFearFrightFunctional MRIFunctional Magnetic Resonance ImagingHeart RateInsulaInsula of ReilInterpersonal ViolenceInterventionIntracellular Communication and SignalingIsland of ReilKnowledgeLearningMR ImagingMR TomographyMRIMRIsMagnetic Resonance ImagingMeasuresMediatingMedical Imaging, Magnetic Resonance / Nuclear Magnetic ResonanceMental DepressionMonitorNMR ImagingNMR TomographyNeurobiologyNuclear Magnetic Resonance ImagingPTSDParticipantPatient outcomePatient-Centered OutcomesPatient-Focused OutcomesPeripheralPhasePhysical ExercisePhysiologic PsychologyPhysiological PsychologyPost-Traumatic NeurosesPost-Traumatic Stress DisordersPosttraumatic NeurosesPsyche structurePsychopathologyPsychophysiologicalPsychophysiologyPsychotherapyPublishingRandomizedReportingSafetySignal TransductionSignal Transduction SystemsSignalingSymptomsTestingTherapeuticTraumaVisitWalkingWritingZeugmatographyabnormal psychologyactive followupadulthoodalleviate symptomameliorating symptomamygdaloid nuclear complexanxiety reductionanxiousbio-markersbiologic markerbiological signal transductionbiomarkercandidate biomarkercandidate markercardiovascular disorderco-morbidco-morbiditycomorbiditydata modelingdecrease symptomdepressiondesigndesigningexercise intensityexposure to traumaexposure to violencefMRIfewer symptomsfollow upfollow-upfollowed upfollowupheart rate monitorimprovedindexinglearning extinctionmentalmodel of animalmodel of datamodel the datamodeling of the dataneuralneural circuitneural circuitryneurobiologicalneurocircuitrynovelpatient oriented outcomesperceived anxietyphysiopsychologypost treatmentpost-trauma stress disorderposttrauma stress disorderpreventpreventingpsycho-physiologicalpsychoeducationpsychologicpsychologicalrandomisationrandomizationrandomly assignedreduce symptomsrelieves symptomsself-reported anxietysymptom alleviationsymptom reductionsymptom reliefsynaptic circuitsynaptic circuitrytherapeutic outcometherapy outcometrauma exposuretrauma memoriestraumatic eventtraumatic memoriestraumatic neurosistreadmilltreatment planningviolence exposure
Sign up free to applyApply link · pipeline · email alerts
— or —

Get email alerts for similar roles

Weekly digest · no password needed · unsubscribe any time

Full Description

Project Summary
The proposed R61/R33 project would build on our published pilot data and animal models to demonstrate that
moderate intensity physical exercise delivered after exposure therapy engages fear circuitry and enhances the
consolidation of therapeutic safety learning, thereby enabling enhanced symptom reduction for PTSD. In the
R61 target engagement phase, adults with PTSD related to interpersonal violence (IPV) exposure would
complete an initial session of imaginal exposure to traumatic memory cues adapted for an MRI setting. This
would be followed by 30-mins of moderate intensity exercise or low intensity walking control. Participants
would return 24-hrs later to complete a second session of imaginal exposure with MRI. We hypothesize greater
between-session reductions in fear responding and fear circuit activation to traumatic memory cues 24-hrs
later among those who exercised following the first session compared to those in the walking control condition.
The R33 phase will build upon successful target engagement and adapt a brief version of prolonged exposure
(PE) therapy to include moderate-intensity exercise or walking control after imaginal exposure. We hypothesize
that PE with exercise will result in more rapid and larger reductions in PTSD symptoms and reduced fear-
related neurocircuitry activation and affective arousal to trauma cues compared to PE plus walking control.
Overall, this project is designed to demonstrate that a novel intervention (moderate intensity exercise) engages
key mechanisms of therapeutic exposure, thereby enhancing the efficacy of exposure therapy.

Grant Number: 5R61MH132722-02
NIH Institute/Center: NIH
Principal Investigator: Christal Badour

Sign up free to get the apply link, save to pipeline, and set email alerts.

Sign up free →

Agency Plan

7-day free trial

Unlock procurement & grants

Upgrade to access active tenders from World Bank, UNDP, ADB and more — with email alerts and pipeline tracking.

$29.99 / month

  • 🔔Email alerts for new matching tenders
  • 🗂️Track tenders in your pipeline
  • 💰Filter by contract value
  • 📥Export results to CSV
  • 📌Save searches with one click
Start 7-day free trial →

Explore more

📍 More grants in UNITED STATES🏷 More NIH opportunities🏷 More US Federal opportunities🏷 More Research Grant opportunities🏢 All nih_reporter opportunities