about
Action observation: mirroring across our spontaneous movement tempoMotor cortical plasticity induced by motor learning through mental practice.The tool as the last piece of the athlete's gesture imagery puzzle.Automatic versus voluntary motor imitation: effect of visual context and stimulus velocity.Motor contagion during human-human and human-robot interactionTime perception of visual motion is tuned by the motor representation of human actions.Voluntary Imitation in Alzheimer's Disease Patients.The ITALK project: a developmental robotics approach to the study of individual, social, and linguistic learning.Evaluation of Handwriting Movement Kinematics: From an Ecological to a Magnetic Resonance Environment.This racket is not mine: The influence of the tool-use on peripersonal space.Provision of somatosensory inputs during motor imagery enhances learning-induced plasticity in human motor cortex.Spontaneous movement tempo can be influenced by combining action observation and somatosensory stimulation.Quantitative assessment of finger motor performance: Normative data.Motor resonance mechanisms are preserved in Alzheimer's disease patients.Sensorimotor Skills Impact on Temporal Expectation: Evidence from Swimmers.An Emotion-Enriched Context Influences the Effect of Action Observation on Cortical Excitability.The kinematics of handwriting movements as expression of cognitive and sensorimotor impairments in people with multiple sclerosis.Dynamic Shaping of the Defensive Peripersonal Space through Predictive Motor Mechanisms: When the "Near" Becomes "Far".Motor training and the combination of action observation and peripheral nerve stimulation reciprocally interfere with the plastic changes induced in primary motor cortex excitability.Observing and perceiving: A combined approach to induce plasticity in human motor cortex.Learning by observing: the effect of multiple sessions of action-observation training on the spontaneous movement tempo and motor resonance.Motor sequence learning and intermanual transfer with a phantom limb.Reach endpoint formation during the visuomotor planning of free arm pointing.Postural Stabilization Strategies to Motor Contagion Induced by Action Observation Are Impaired in Parkinson's Disease.Boosting and consolidating the proprioceptive cortical aftereffect by combining tendon vibration and repetitive TMS over primary motor cortexEffects of Two Types of 9-Month Adapted Physical Activity Program on Muscle Mass, Muscle Strength, and Balance in Moderate Sarcopenic Older WomenEmbodied Language Learning and Cognitive Bootstrapping: Methods and Design PrinciplesMeasuring Human-Robot Interaction Through Motor ResonanceBoosting Action Observation and Motor Imagery to Promote Plasticity and LearningDefensive peripersonal space is modified by a learnt protective postureAction Observation Combined With Conventional Training Improves the Rugby Lineout Throwing Performance: A Pilot StudyWhen "Extraneous" Becomes "Mine". Neurophysiological Evidence of Sensorimotor Integration During Observation of Suboptimal Movement Patterns Performed by People with Multiple SclerosisSelective sensorimotor modulation operates during cognitive representation of movementKinaesthetic illusion shapes the cortical plasticity evoked by action observationIs the 12 minute-walk/run test a predictive index of cognitive fitness in young healthy individuals? A pilot study on aerobic capacity and working memory in a real-life scenario
P50
Q30410569-814E9CD5-A7AF-4155-B72B-DB56CF323FE0Q30412088-04DDC4DA-1FF4-4665-9623-CE3B930C9037Q33357792-386B67E3-8643-433D-B116-42B601BFE27BQ33728103-93AEB32A-5771-40E3-B0F4-B33634990308Q33728103-AEC7275E-178B-4994-9A24-BC99B2A2969EQ34084092-5223BE93-DF52-458C-AF68-F1217310E86BQ36572983-007F8056-D07A-414C-9F2D-338D3E942843Q36656540-A12D7566-2283-443A-A394-435A14AD70ABQ39175194-A2CFE2E1-E124-4ADD-8721-8B4E8DE0944CQ39285715-20EF35A7-AB54-403E-BAE9-DA6441614F9BQ39442651-1C5E1CEF-961E-409F-8EFB-A832633E29A6Q41518300-9C04BBDB-9976-44BC-8F48-D70B67508EA9Q42173282-93471746-7CEE-424C-A2A2-5F1264DA552AQ42658302-D1738D4B-64EE-4900-9D79-8D59ACEDD886Q42659808-C0C0E007-54C9-4DCB-B538-F310D1ED8A63Q46617100-106BA0C2-E11E-4480-99EE-EBF2F40DF9E3Q47162214-BBF3335D-C999-44F2-BFA3-8BDD7C6636BBQ47165509-A0286322-609E-4BAE-A681-0B80A7545FE5Q48282164-E9DAEF54-09D2-459C-BB9A-E581541A48A3Q48302803-AD0B98F4-7866-4FBD-AD0B-5BD9841EA140Q48432363-34A125EF-A1BB-4311-8029-C2C6824F13FFQ48466258-AE87F9DB-A037-4B21-80DA-3A0DAEF8BB71Q50421837-A8921225-5078-4ED2-8AC4-3FD12A06DA70Q51410530-4BAF75EB-81A6-4D97-8CD3-FA486157D5C0Q53433082-907A0FFF-6F52-40D9-83B7-04E674E1B401Q57459428-9CEC2931-9881-4C1B-A7E3-40F22F4FC0CDQ58699300-B5D5F952-C9DE-4BD2-8CCA-DD7813C05E12Q59403545-A606D137-6F5B-4167-AA5E-38740AE13D74Q59403600-308A06E5-F011-447E-97BE-29F5D79C35DFQ59798710-A00D378A-B462-4689-9F0C-24E9875D12ACQ64077058-03A5C316-46A7-4E46-BD00-042B52175410Q64094393-0EED5C42-EBA4-4CC5-9CB5-89876A4D9C2BQ90024740-224E02A0-C205-4E69-879E-99A30DE2EC66Q91561419-56420A92-9052-4F14-8832-43572F844E0AQ91907326-DB1392DB-D52B-4867-BB94-D3747C41E055Q92081379-7D093C5C-31B8-418C-8884-1207F2EE3C3F
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
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հետազոտող
@hy
name
Ambra Bisio
@ast
Ambra Bisio
@en
Ambra Bisio
@es
Ambra Bisio
@nl
type
label
Ambra Bisio
@ast
Ambra Bisio
@en
Ambra Bisio
@es
Ambra Bisio
@nl
prefLabel
Ambra Bisio
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Ambra Bisio
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Ambra Bisio
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Ambra Bisio
@nl
P1053
N-4309-2013
P106
P1153
36620946300
P21
P2798
P31
P3829
P3835
ambra-bisio
P496
0000-0002-9385-1714