0000000000142203

AUTHOR

Elisa Straulino

showing 2 related works from this author

Co-registering kinematics and evoked related potentials during visually guided reach-to-grasp movements.

2013

Background:In non-human primates grasp-related sensorimotor transformations are accomplished in a circuit involving the anterior intraparietal sulcus (area AIP) and both the ventral and the dorsal sectors of the premotor cortex (vPMC and dPMC, respectively). Although a human homologue of such a circuit has been identified, the time course of activation of these cortical areas and how such activity relates to specific kinematic events has yet to be investigated.Methodology/Principal Findings:We combined kinematic and event-related potential techniques to explicitly test how activity within human grasping-related brain areas is modulated in time. Subjects were requested to reach towards and g…

MaleAnatomy and PhysiologyVisual Systemlcsh:MedicineKinematicsBioinformaticsBrain mappingParietal Lobelcsh:ScienceBrain MappingMultidisciplinaryHand StrengthMedicine (all)StatisticsParietal lobeMotor CortexSensory SystemsBiomechanical PhenomenaElectrophysiologymedicine.anatomical_structureMedicineFemaleMotor cortexHumanResearch ArticleAdultCognitive NeuroscienceMovementNeurophysiologyIntraparietal sulcusBiologyStimulus (physiology)BiostatisticsNeurological SystemPremotor cortexMotor ReactionsmedicineHumansStatistical MethodsBiologyMotor SystemsBiochemistry Genetics and Molecular Biology (all)Settore M-PSI/02 - Psicobiologia E Psicologia Fisiologicalcsh:RIndex fingerEvoked Potentials MotorHandbody regionsAgricultural and Biological Sciences (all)lcsh:QNeuroscienceMathematicsPsychomotor PerformanceNeurosciencePLoS ONE
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Object size modulates fronto-parietal activity during reaching movements

2014

In both monkeys and humans, reaching-related sensorimotor transformations involve the activation of a wide fronto-parietal network. Recent neurophysiological evidence suggests that some components of this network host not only neurons encoding the direction of arm reaching movements, but also neurons whose involvement is modulated by the intrinsic features of an object (e.g. size and shape). To date, it has yet to be investigated whether a similar modulation is evident in the human reaching-related areas. To fill this gap, we asked participants to reach towards either a small or a large object while kinematic and electroencephalographic signals were recorded. Behavioral results showed that …

AdultMaleEvent-related potentialMovementObject (grammar)Kinematicsevent-related potentialsYoung AdultNeural activityEvent-related potentialParietal LobeHumansCommunicationNeuroscience (all)Settore M-PSI/02 - Psicobiologia E Psicologia Fisiologicabusiness.industryGeneral NeuroscienceReachingElectroencephalographyNeurophysiologyevent-related potentials; human; kinematics; object size; reaching; visuo-motor integrationKinematicFronto parietalEvent-Related Potentials P300Biomechanical PhenomenaFrontal LobeVisuo-motor integrationkinematicsSpace PerceptionFemaleNerve NetbusinessPsychologyNeuroscienceObject sizePsychomotor PerformanceHumanEuropean Journal of Neuroscience
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