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Paired Brain and Spinal Cord Stimulation to Strengthen Spinal Sensorimotor Circuits

Organization COLUMBIA UNIVERSITY HEALTH SCIENCESLocation NEW YORK, UNITED STATESPosted 15 Dec 2020Deadline 30 Nov 2025 ⚠️
NIHUS FederalResearch GrantFY2025AddressAffectApoplexyAxonBehavioralBrainBrain Nervous SystemBrain StemBrain Vascular AccidentBrainstemCerebral StrokeCerebrovascular ApoplexyCerebrovascular StrokeCervical InjuryCervical Portion of Spinal CordCervical Spinal CordCervical spinal cord injuryCervical spinal cord structureChronicClinicalClinical ResearchClinical StudyClinical TrialsCommon Rat StrainsCortical CordDataDiameterDiseaseDisorderDorsalE-stimElectric StimulationElectrodesEncephalonFoodForelimbGeneticGoalsH-ReflexHandHand functionsHourHyperreflexiaIndividualJointsKnowledgeLeannessLocationMeasuresMediatingMedulla SpinalisMissionMotorMotor CellMotor CortexMotor NeuronsMotor PathwaysMovementMuscleMuscle TensionMuscle TissueMuscular TensionNational Institutes of HealthNatureNeurostimulation procedures of spinal cord tissuePainPainfulPalsyParalysedPathway interactionsPatternPersonsPhysiologyPlegiaPositionPositioning AttributeProprioceptive Sensory NeuronProprioceptorPublic HealthRatRats MammalsRattusRecoveryRecovery of FunctionResearchReticular FormationSensorySiteSourceSpecificitySpinalSpinal CordSpinal Cord StimulationSpinal Cord TraumaSpinal TraumaSpinal cord injuredSpinal cord injuryStimulusStrokeSupinationSystemTechniquesTestingTherapeuticThinnessTimeTranslatingTraumatic MyelopathyTreatment ProtocolsTreatment RegimenTreatment ScheduleUnited States National Institutes of HealthUsing handsViralWalkingarmarm functionarm functionalityawakebody movementbrain attackcerebral vascular accidentcerebrovascular accidentdecrease disabilitydecrease in disabilitydesigndesigningdexteritydisability reductionelectrostimulationepidural spaceexperiencefunctional recoveryhandsimprovedinjury and repairinnovateinnovationinnovativeinventionlessen disabilityminimize disabilitymitigate disabilitymotoneuronmuscularneuralneural circuitneural circuitryneurocircuitrynew approachesnovel approachesnovel strategiesnovel strategyoptogeneticsparalysisparalyticpathwaypredict responsivenesspredicting responsereduction in disabilityrepairrepairedresponsesensorimotor systemsensory motor systemsensory systemskillsslow disabilitystrokedstrokessynaptic circuitsynaptic circuitrytool

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Description preview

SUMMARY
Experience leads to behavioral change through the associated activity of neural circuits. Using this
principle, paired stimulation has been used to selectively strengthen circuits, targeting either the relatively
sparse connections between motor cortex and motoneurons or sensory and motor connections in cortex. In
contrast, we propose to…

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