The effects of learning and intention on the neural network involved in the perception of meaningless actions

PET was used to explore the neural network involved in the perception of meaningless action. In two conditions, subjects observed learned and unknown meaningless actions without any purpose. In two other conditions, subjects observed the same type of stimuli for later imitation. The control conditio...

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Published in	Brain (London, England : 1878) Vol. 122; no. 10; pp. 1875 - 1887
Main Authors	Grèzes, J., Costes, N., Decety, J.
Format	Journal Article
Language	English
Published	Oxford Oxford University Press 01.10.1999 Oxford Publishing Limited (England)
Subjects	action Adult BA = Brodmann area Biological and medical sciences Brain - blood supply Brain - diagnostic imaging Brain - physiology Brain Mapping Cerebrovascular Circulation Cognitive science Fundamental and applied biological sciences. Psychology Hand - physiology Humans Imitative Behavior - physiology intention Learning - physiology Life Sciences Male Miscellaneous Motion Perception - physiology Motivation motor knowledge Movement Nerve Net - blood supply Nerve Net - physiology Neurons and Cognition Perception Perception - physiology PET Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology rCBF = regional cerebral blood flow SPM = statistical parametric map Time Factors Tomography, Emission-Computed Visual Perception - physiology Radionuclide study Human Motion Exploration Perception Neural network Positron Emission tomography
Online Access	Get full text
ISSN	0006-8950 1460-2156
DOI	10.1093/brain/122.10.1875

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Abstract	PET was used to explore the neural network involved in the perception of meaningless action. In two conditions, subjects observed learned and unknown meaningless actions without any purpose. In two other conditions, subjects observed the same type of stimuli for later imitation. The control condition, which consisted of the presention of stationary hands, served as a baseline. Unsurprisingly, a common network that forms part of the dorsal pathway was engaged in all conditions when compared with stationary hands, and this was interpreted as being devoted to the analysis of hand movements. One of the most striking results of the present study was that some brain areas were strongly modulated by the learning level, independent of the subject's intention. Two different effects were observed: a reduced activity in posterior regions within the common network, which correlated with specific increases in the frontopolar area 10 and in the angular gyrus during the perception of learned meaningless actions compared with the perception of unknown actions. Finally, the major effect of the subject's intention to imitate was a strong increase in the dorsal pathway extending to the lateral premotor cortex and to the dorsolateral prefrontal cortex, which reflects the information processing needed for prospective action. Overall, our results provide evidence for both an effect of the visuomotor learning level and of the subject's intention on the neural network involved during the perception of human meaningless actions.
AbstractList	PET was used to explore the neural network involved in the perception of meaningless action. In two conditions, subjects observed learned and unknown meaningless actions without any purpose. In two other conditions, subjects observed the same type of stimuli for later imitation. The control condition, which consisted of the presention of stationary hands, served as a baseline. Unsurprisingly, a common network that forms part of the dorsal pathway was engaged in all conditions when compared with stationary hands, and this was interpreted as being devoted to the analysis of hand movements. One of the most striking results of the present study was that some brain areas were strongly modulated by the learning level, independent of the subject's intention. Two different effects were observed: a reduced activity in posterior regions within the common network, which correlated with specific increases in the frontopolar area 10 and in the angular gyrus during the perception of learned meaningless actions compared with the perception of unknown actions. Finally, the major effect of the subject's intention to imitate was a strong increase in the dorsal pathway extending to the lateral premotor cortex and to the dorsolateral prefrontal cortex, which reflects the information processing needed for prospective action. Overall, our results provide evidence for both an effect of the visuomotor learning level and of the subject's intention on the neural network involved during the perception of human meaningless actions. PET was used to explore the neural network involved in the perception of meaningless action. In two conditions, subjects observed learned and unknown meaningless actions without any purpose. In two other conditions, subjects observed the same type of stimuli for later imitation. The control condition, which consisted of the presention of stationary hands, served as a baseline. Unsurprisingly, a common network that forms part of the dorsal pathway was engaged in all conditions when compared with stationary hands, and this was interpreted as being devoted to the analysis of hand movements. One of the most striking results of the present study was that some brain areas were strongly modulated by the learning level, independent of the subject's intention. Two different effects were observed: a reduced activity in posterior regions within the common network, which correlated with specific increases in the frontopolar area 10 and in the angular gyrus during the perception of learned meaningless actions compared with the perception of unknown actions. Finally, the major effect of the subject's intention to imitate was a strong increase in the dorsal pathway extending to the lateral premotor cortex and to the dorsolateral prefrontal cortex, which reflects the information processing needed for prospective action. Overall, our results provide evidence for both an effect of the visuomotor learning level and of the subject's intention on the neural network involved during the perception of human meaningless actions.PET was used to explore the neural network involved in the perception of meaningless action. In two conditions, subjects observed learned and unknown meaningless actions without any purpose. In two other conditions, subjects observed the same type of stimuli for later imitation. The control condition, which consisted of the presention of stationary hands, served as a baseline. Unsurprisingly, a common network that forms part of the dorsal pathway was engaged in all conditions when compared with stationary hands, and this was interpreted as being devoted to the analysis of hand movements. One of the most striking results of the present study was that some brain areas were strongly modulated by the learning level, independent of the subject's intention. Two different effects were observed: a reduced activity in posterior regions within the common network, which correlated with specific increases in the frontopolar area 10 and in the angular gyrus during the perception of learned meaningless actions compared with the perception of unknown actions. Finally, the major effect of the subject's intention to imitate was a strong increase in the dorsal pathway extending to the lateral premotor cortex and to the dorsolateral prefrontal cortex, which reflects the information processing needed for prospective action. Overall, our results provide evidence for both an effect of the visuomotor learning level and of the subject's intention on the neural network involved during the perception of human meaningless actions.
Author	Grèzes, J. Costes, N. Decety, J.
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Snippet	PET was used to explore the neural network involved in the perception of meaningless action. In two conditions, subjects observed learned and unknown...
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SubjectTerms	action Adult BA = Brodmann area Biological and medical sciences Brain - blood supply Brain - diagnostic imaging Brain - physiology Brain Mapping Cerebrovascular Circulation Cognitive science Fundamental and applied biological sciences. Psychology Hand - physiology Humans Imitative Behavior - physiology intention Learning - physiology Life Sciences Male Miscellaneous Motion Perception - physiology Motivation motor knowledge Movement Nerve Net - blood supply Nerve Net - physiology Neurons and Cognition Perception Perception - physiology PET Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology rCBF = regional cerebral blood flow SPM = statistical parametric map Time Factors Tomography, Emission-Computed Visual Perception - physiology
Title	The effects of learning and intention on the neural network involved in the perception of meaningless actions
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