Search results for "Kinesthesia"

showing 2 items of 2 documents

Stronger proprioceptive BOLD-responses in the somatosensory cortices reflect worse sensorimotor function in adolescents with and without cerebral pal…

2020

Graphical abstract

CP-oireyhtymäCHILDRENSM1PASSIVE FINGERDP diplegic3124 Neurology and psychiatryEVOKED-POTENTIALSBRAINChildMOTOR CORTEXPassive movementTE echo timeEM expectation maximizationliikeaistiBOLD Blood-Oxygen-Level-Dependent signalRegular ArticleMagnetic Resonance ImagingTD typically-developedTR repetition timeSIIGMFCS Gross Motor Function Classification SystemMANCOVA Multivariate analysis of covarianceEPI echo planar imagingHP hemiplegicfMRI functional magnetic resonance imagingFemaleTACTILE STIMULATIONhalvausAGE-RELATED DIFFERENCESAdolescentComputer applications to medicine. Medical informaticsR858-859.7HemiplegiaORGANIZATIONDiplegiatuntoaistiMOVEMENTSIPT Sensory Integration and Praxis TestsROI regions of interestHumansSISII cortex secondary somatosensory cortexCP cerebral palsyRC346-429ComputingMethodologies_COMPUTERGRAPHICSGLM General Linear ModelCerebral Palsy3112 NeurosciencesSPM Statistical Parametric MappingSomatosensory CortexHandProprioceptionSI cortex primary somatosensory cortexGABA CONCENTRATIONKinesthesiaNeurology. Diseases of the nervous systemPSC percent signal change
researchProduct

Proprioceptive response strength in the primary sensorimotor cortex is invariant to the range of finger movement

2023

Available online 13 February 2023 Proprioception is the sense of body position and movement that relies on afference from the proprioceptors in muscles and joints. Proprioceptive responses in the primary sensorimotor (SM1) cortex can be elicited by stim- ulating the proprioceptors using evoked (passive) limb movements. In magnetoencephalography (MEG), propri- oceptive processing can be quantified by recording the movement evoked fields (MEFs) and movement-induced beta power modulations or by computing corticokinematic coherence (CKC) between the limb kinematics and cortical activity. We examined whether cortical proprioceptive processing quantified with MEF peak strength, relative beta supp…

movement rangeAccelerationSomatosensoryproprioseptioMechanoreceptorsomatosensoryrange of motionmovement evoked fieldsMagnetoencelphalographyMuscle spindleMovement evoked fieldBeta modulationCortico-kinematic coherenceRange of motionPassive movementjerk of movementMEGliikeaistisormetaccelerationProprioceptionliikeSensorimotor cortexaivokuoriKinesthesiacorticokinematic coherenceMovement evoked fieldsaivotkinesthesiamuscle spindlemechanoreceptorasennot (ruumiinasennot)Corticokinematic coherence
researchProduct