Search results for "pointing movements"

showing 6 items of 6 documents

Direction-dependent activation of the insular cortex during vertical and horizontal hand movements

2016

International audience; The planning of any motor action requires a complex multisensory processing by the brain. Gravity - immutable on Earth - has been shown to be a key input to these mechanisms. Seminal fMRI studies performed during visual perception of falling objects and self-motion demonstrated that humans represent the action of gravity in parts of the cortical vestibular system; in particular, the insular cortex and the cerebellum. However, little is known as to whether a specific neural network is engaged when processing non-visual signals relevant to gravity. We asked participants to perform vertical and horizontal hand movements without visual control, while lying in a 3T-MRI sc…

AdultMale0301 basic medicineVisual perceptiongenetic structuresHorizontal and verticalMovementSocio-culturalefMRI; Gravitational force; Hand movements; Insular cortex; Internal model; Neuroscience (all)gravity-fieldMotor Activityarm movementsInsular cortexBrain mappingVisual controlpositron-emission-tomographyYoung Adult03 medical and health sciences0302 clinical medicinesensory predictionmotioninternal-modelsVertical directionHumansgravitational forcepointing movementsCerebral CortexVestibular systemBrain Mappinginternal modelhuman vestibular cortexNeural correlates of consciousnessNeuroscience (all)hand movementsGeneral NeurosciencefMRIBrainMiddle Agedmanual interceptionsHandMagnetic Resonance Imaging030104 developmental biology[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]insular cortex[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]PsychologyNeuroscience030217 neurology & neurosurgeryGravitationNeuroscience
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The Temporal Structure of Vertical Arm Movements

2011

Import JabRef | WosArea Life Sciences and Biomedicine - Other Topics; International audience; The present study investigates how the CNS deals with the omnipresent force of gravity during arm motor planning. Previous studies have reported direction-dependent kinematic differences in the vertical plane; notably, acceleration duration was greater during a downward than an upward arm movement. Although the analysis of acceleration and deceleration phases has permitted to explore the integration of gravity force, further investigation is necessary to conclude whether feedforward or feedback control processes are at the origin of this incorporation. We considered that a more detailed analysis of…

AdultMaleCORTEXAnatomy and PhysiologyTime FactorsMovementAccelerationlcsh:MedicineNeurophysiologyKinematicsRotationNeurological SystemMotor Neuron DiseasesBehavioral NeuroscienceAccelerationGRAVITYHumanslcsh:ScienceBiologyMotor SystemsDIRECTIONAL ISOMETRIC FORCESENSORIMOTORPhysicsMultidisciplinaryMovement (music)lcsh:RMOTOR CORTICAL REPRESENTATIONBiomechanicsVertical planePOINTING MOVEMENTSGeodesyBiomechanical PhenomenaMODELSIGNAL-DEPENDENT NOISEAmplitudeNeurologySAGITTAL PLANEDuration (music)[ SCCO.NEUR ] Cognitive science/NeuroscienceArmMedicinelcsh:QINTEGRATIONResearch ArticleNeurosciencePLoS ONE
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''Investigating reduction of dimensionality during single-joint elbow movements: a case study on muscle synergies''

2013

Chiovetto, Enrico | Berret, Bastien | Delis, Ioannis | Panzeri, Stefano | Pozzo, Thierry; International audience; ''A long standing hypothesis in the neuroscience community is that the central nervous system (CNS) generates the muscle activities to accomplish movements by combining a relatively small number of stereotyped patterns of muscle activations, often referred to as" muscle synergies." Different definitions of synergies have been given in the literature. The most well-known are those of synchronous, time-varying and temporal muscle synergies. Each one of them is based on a different mathematical model used to factor some EMG array recordings collected during the execution of variety…

Computer scienceNeuroscience (miscellaneous)triphasic patternADJUSTMENTS''Variation (game tree)ORGANIZATIONTemporal musclelcsh:RC321-571NATURAL MOTOR BEHAVIORSnon-negative matrix factorizationACTIVATION03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineEMGEncoding (memory)muscle synergiesMATRIX FACTORIZATIONFeature (machine learning)Original Research ArticleSet (psychology)lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry030304 developmental biologydimensionality reductionARM MOVEMENTSELECTROMYOGRAPHIC PATTERNS0303 health sciencesbusiness.industryDimensionality reductionCOMBINATIONS[SCCO.NEUR]Cognitive science/Neuroscienceelbow rotationsNeurophysiologyADJUSTMENTSBODY POINTING MOVEMENTS[ SCCO.NEUR ] Cognitive science/Neuroscience''NATURAL MOTOR BEHAVIORSArtificial intelligencebusiness030217 neurology & neurosurgeryCognitive psychologyCurse of dimensionalityNeuroscienceTRIPHASIC EMG PATTERN
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Energy-related optimal control accounts for gravitational load: comparing shoulder, elbow, and wrist rotations.

2013

International audience; Gaveau J, Berret B, Demougeot L, Fadiga L, Pozzo T, Papaxanthis C. Energy-related optimal control accounts for gravitational load: comparing shoulder, elbow, and wrist rotations. J Neurophysiol 111: 4-16, 2014. First published October 16, 2013; doi: 10.1152/jn.01029.2012.-We permanently deal with gravity force. Experimental evidences revealed that moving against gravity strongly differs from moving along the gravity vector. This directional asymmetry has been attributed to an optimal planning process that optimizes gravity force effects to minimize energy. Yet, only few studies have considered the case of vertical movements in the context of optimal control. What kin…

DYNAMICSAdultMaleGravity (chemistry)REPRESENTATIONShoulderRotationPhysiologyMovementTORQUE-CHANGE MODELContext (language use)[ SCCO.PSYC ] Cognitive science/PsychologyKinematicsRotationModels Biologicaloptimal controlFEEDBACK-CONTROLGRAVITYControl theoryElbowTorqueHumansgravity forceMathematicsdistal[SCCO.NEUR]Cognitive science/NeuroscienceGeneral NeuroscienceMOTOR ADAPTATIONWork (physics)reaching movementVertical planeWristBiomechanical PhenomenaJerkproximalSAGITTAL PLANE[SCCO.PSYC]Cognitive science/Psychology[ SCCO.NEUR ] Cognitive science/NeuroscienceThermodynamicsNEURAL-CONTROL[ SCCO ] Cognitive scienceTRAJECTORIESsensorimotor controlARM POINTING MOVEMENTSGravitation
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''Motor Resonance Mechanisms Are Preserved In Alzheimer's Disease Patients''

2012

Bisio, A. | Casteran, M. | Ballay, Y. | Manckoundia, P. | Mourey, F. | Pozzo, T.; International audience; ''This study aimed to better characterize the sensorimotor mechanisms underlying motor resonance, namely the relationship between motion perception and movement production in patients suffering from Alzheimer's disease (AD). This work first gives a kinematic description of AD patients' upper limb movements, then it presents a simple paradigm in which a dot with different velocities is moved in front of the participant who is instructed to point to its final position when it stopped. AD patients' actions, as well as healthy elderly participants, were similarly influenced by the dot veloc…

MaleMILD COGNITIVE IMPAIRMENTData InterpretationInhibition (Psychology)DiseaseNeuropsychological TestsHUMAN AUTONOMYExecutive FunctionCognition80 and overAged 80 and overMovement observation-executionGeneral NeuroscienceMIRROR NEURONSCognitionStatisticalAction-perception matchingAction-perception matching; Ageing; Automatic imitation; Dementia; Movement observation-execution; Aged; Aged 80 and over; Alzheimer Disease; Arm; Biomechanical Phenomena; Cognition; Data Interpretation Statistical; Executive Function; Female; Humans; Inhibition (Psychology); Linear Models; Male; Movement; Neuropsychological Tests; Photic Stimulation; Psychomotor Performance; Neuroscience (all)Biomechanical PhenomenaInhibition PsychologicalSOCIAL COGNITIONData Interpretation Statistical[ SCCO.NEUR ] Cognitive science/NeuroscienceArmFemaleAlzheimer's diseasePsychologyMovementStimulus (physiology)Alzheimer DiseaseCOLOR-WORD TESTmedicineHumansDementiaREACTION-TIME''Motion perceptionREACTION-TIMENEURAL MECHANISMSMotor resonanceAgedNeuroscience (all)Healthy elderlyPOINTING MOVEMENTSmedicine.diseaseFRONTAL LOBESVISUOMOTOR INTEGRATIONAgeing''MILD COGNITIVE IMPAIRMENTLinear ModelsDementiaNeuroscienceAutomatic imitationPhotic StimulationPsychomotor Performance
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Anticipatory Postural Adjustments and kinematic arm features when postural stability is manipulated

2018

International audience; Beyond the classical paradigm that presents the Anticipatory Postural Adjustments (APAs) as a manner to create forces that counteract disturbances arising from the moving segment during a pointing task, there is a controversial discussion about the role APAs to facilitate the movement and perform a task accurately. In addition, arm kinematics features are classically used to infer the content of motor planning for the execution and the control of arm movements, The present study aimed to disentangle the conflicting role of APAs during an arm-pointing task in which the subjects reach a central diode that suddenly turns on, while their postural stability was manipulate…

voluntary movementreaching taskseated subjectslcsh:RPosturelcsh:MedicinespeedKinesiologytrunkequilibriumstabilizationwhole-bodysagittal plane[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC][SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Surface electromyographypointing movementsStandingStabilitypsychological phenomena and processesSittingAntecipatory postural adjutmentsPeerJ
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