grant
A natural history study evaluating the use of multimodal signal acquisition techniques to characterize movement in children and young adults with movement disorders
Organization CLINICAL CENTERLocation UNITED STATES
NIHUS FederalResearch GrantFY20250-11 years oldAchievementAchievement AttainmentAgeAnkleAssistive TechnologyBackBrainBrain Nervous SystemCNS Nervous SystemCell Communication and SignalingCell SignalingCentral Nervous SystemCerebral PalsyChildChild YouthChildren (0-21)Contracting OpportunitiesContractsDataDorsumDyskinesia SyndromesEEGEchographyEchotomographyEffectivenessElectroencephalogramElectroencephalographyElectromyographyEncephalonEnrollmentFreedomGoalsImaging ProceduresImaging TechnicsImaging TechniquesIndividualIntracellular Communication and SignalingJointsKneeLibertyLinkMeasurementMeasuresMedical UltrasoundMedulla SpinalisMethodsMonitorMotionMovementMovement Disorder SyndromesMovement DisordersMuscleMuscle TissueNatural HistoryNeuraxisParticipantPatternPeripheral Nervous SystemPositionPositioning AttributeProtocolProtocols documentationRegio tarsalisSelf-Help DevicesSensorySignal TransductionSignal Transduction SystemsSignalingSkinSpinal CordStructureSurfaceTechniquesTimeTransmissionTravelUltrasonic ImagingUltrasonogramUltrasonographyUltrasound DiagnosisUltrasound Medical ImagingUltrasound TestWalkingWristadult youthagesassisted deviceassistive devicebiological signal transductionbody movementdiagnostic ultrasoundenrollexoskeletalexoskeletonfunctional assistancefunctional electrical stimulationfunctional electrostimulationhealthy volunteerjoint mobilityjoint mobilizationjoint movementkidskinematic modelkinematicslimb movementmotor impairmentmovement impairmentmovement limitationmulti-modal datamulti-modal datasetsmulti-modalitymultimodal datamultimodal datasetsmultimodalitymuscularpeerrobot exoskeletonrobotic exoskeletonsonogramsonographysound measurementtransmission processtreadmillultrasoundultrasound imagingultrasound scanningwearablewearable devicewearable electronicswearable roboticswearable systemwearable technologywearable toolwearablesyoung adultyoung adult ageyoung adulthoodyoungster
Description preview
Functional limb movement is initiated in the brain, where the signal then travels through the central nervous system via the subcortical brain structures and spinal cord, ultimately passing into the peripheral nervous system resulting in the coordinated activating/contracting of a set of muscles. Functional movement also relies on sensory…
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