Time to Tango: Expertise and contextual anticipation during action observation

Predictive theories of action observation propose that we use our own motor system as a guide for anticipating and understanding other people's actions through the generation of context-based expectations. According to this view, people should be better in predicting and interpreting those acti...

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Detalles Bibliográficos
Autores principales: Amoruso, L., Sedeño, L., Huepe, D., Tomio, A., Kamienkowski, J., Hurtado, E., Cardona, J.F., Álvarez González, M.T., Rieznik, A., Sigman, M., Manes, F., Ibáñez, A.
Formato: JOUR
Materias:
Action observation
Context-based expectations
Dance
Motor expertise
N400
action observation
action potential
adult
anticipation
article
behavior
brain function
comprehension
controlled study
dancing
dynamics
event related potential
evoked cortical response
execution
female
frontal lobe
human
human experiment
male
middle temporal gyrus
motor cortex
motor expertise
nerve cell network
neuropsychological test
normal human
occipital lobe
parietal lobe
perceptive discrimination
post hoc analysis
prediction
premotor cortex
priority journal
semantics
skill
superior temporal gyrus
biological model
brain
electroencephalography
empathy
evoked response
executive function
individuality
motor activity
physiology
Adult
Anticipation, Psychological
Brain
Comprehension
Dancing
Electroencephalography
Empathy
Evoked Potentials
Executive Function
Female
Humans
Individuality
Male
Models, Neurological
Motor Activity
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_10538119_v98_n_p366_Amoruso
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_10538119_v98_n_p366_Amoruso
record_format dspace
spelling todo:paper_10538119_v98_n_p366_Amoruso2023-10-03T16:00:39Z Time to Tango: Expertise and contextual anticipation during action observation Amoruso, L. Sedeño, L. Huepe, D. Tomio, A. Kamienkowski, J. Hurtado, E. Cardona, J.F. Álvarez González, M.T. Rieznik, A. Sigman, M. Manes, F. Ibáñez, A. Action observation Context-based expectations Dance Motor expertise N400 action observation action potential adult anticipation article behavior brain function comprehension controlled study dancing dynamics event related potential evoked cortical response execution female frontal lobe human human experiment male middle temporal gyrus motor cortex motor expertise nerve cell network neuropsychological test normal human occipital lobe parietal lobe perceptive discrimination post hoc analysis prediction premotor cortex priority journal semantics skill superior temporal gyrus anticipation biological model brain dancing electroencephalography empathy evoked response executive function individuality motor activity physiology Adult Anticipation, Psychological Brain Comprehension Dancing Electroencephalography Empathy Evoked Potentials Executive Function Female Humans Individuality Male Models, Neurological Motor Activity Predictive theories of action observation propose that we use our own motor system as a guide for anticipating and understanding other people's actions through the generation of context-based expectations. According to this view, people should be better in predicting and interpreting those actions that are present in their own motor repertoire compared to those that are not. We recorded high-density event-related potentials (ERPs: P300, N400 and Slow Wave, SW) and source estimation in 80 subjects separated by their level of expertise (experts, beginners and naïves) as they observed realistic videos of Tango steps with different degrees of execution correctness. We also performed path analysis to infer causal relationships between ongoing anticipatory brain activity, evoked semantic responses, expertise measures and behavioral performance. We found that anticipatory activity, with sources in a fronto-parieto-occipital network, early discriminated between groups according to their level of expertise. Furthermore, this early activity significantly predicted subsequent semantic integration indexed by semantic responses (N400 and SW, sourced in temporal and motor regions) which also predicted motor expertise. In addition, motor expertise was a good predictor of behavioral performance. Our results show that neural and temporal dynamics underlying contextual action anticipation and comprehension can be interpreted in terms of successive levels of contextual prediction that are significantly modulated by subject's prior experience. © 2014 Elsevier Inc. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_10538119_v98_n_p366_Amoruso
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Action observation
Context-based expectations
Dance
Motor expertise
N400
action observation
action potential
adult
anticipation
article
behavior
brain function
comprehension
controlled study
dancing
dynamics
event related potential
evoked cortical response
execution
female
frontal lobe
human
human experiment
male
middle temporal gyrus
motor cortex
motor expertise
nerve cell network
neuropsychological test
normal human
occipital lobe
parietal lobe
perceptive discrimination
post hoc analysis
prediction
premotor cortex
priority journal
semantics
skill
superior temporal gyrus
anticipation
biological model
brain
dancing
electroencephalography
empathy
evoked response
executive function
individuality
motor activity
physiology
Adult
Anticipation, Psychological
Brain
Comprehension
Dancing
Electroencephalography
Empathy
Evoked Potentials
Executive Function
Female
Humans
Individuality
Male
Models, Neurological
Motor Activity
spellingShingle Action observation
Context-based expectations
Dance
Motor expertise
N400
action observation
action potential
adult
anticipation
article
behavior
brain function
comprehension
controlled study
dancing
dynamics
event related potential
evoked cortical response
execution
female
frontal lobe
human
human experiment
male
middle temporal gyrus
motor cortex
motor expertise
nerve cell network
neuropsychological test
normal human
occipital lobe
parietal lobe
perceptive discrimination
post hoc analysis
prediction
premotor cortex
priority journal
semantics
skill
superior temporal gyrus
anticipation
biological model
brain
dancing
electroencephalography
empathy
evoked response
executive function
individuality
motor activity
physiology
Adult
Anticipation, Psychological
Brain
Comprehension
Dancing
Electroencephalography
Empathy
Evoked Potentials
Executive Function
Female
Humans
Individuality
Male
Models, Neurological
Motor Activity
Amoruso, L.
Sedeño, L.
Huepe, D.
Tomio, A.
Kamienkowski, J.
Hurtado, E.
Cardona, J.F.
Álvarez González, M.T.
Rieznik, A.
Sigman, M.
Manes, F.
Ibáñez, A.
Time to Tango: Expertise and contextual anticipation during action observation
topic_facet Action observation
Context-based expectations
Dance
Motor expertise
N400
action observation
action potential
adult
anticipation
article
behavior
brain function
comprehension
controlled study
dancing
dynamics
event related potential
evoked cortical response
execution
female
frontal lobe
human
human experiment
male
middle temporal gyrus
motor cortex
motor expertise
nerve cell network
neuropsychological test
normal human
occipital lobe
parietal lobe
perceptive discrimination
post hoc analysis
prediction
premotor cortex
priority journal
semantics
skill
superior temporal gyrus
anticipation
biological model
brain
dancing
electroencephalography
empathy
evoked response
executive function
individuality
motor activity
physiology
Adult
Anticipation, Psychological
Brain
Comprehension
Dancing
Electroencephalography
Empathy
Evoked Potentials
Executive Function
Female
Humans
Individuality
Male
Models, Neurological
Motor Activity
description Predictive theories of action observation propose that we use our own motor system as a guide for anticipating and understanding other people's actions through the generation of context-based expectations. According to this view, people should be better in predicting and interpreting those actions that are present in their own motor repertoire compared to those that are not. We recorded high-density event-related potentials (ERPs: P300, N400 and Slow Wave, SW) and source estimation in 80 subjects separated by their level of expertise (experts, beginners and naïves) as they observed realistic videos of Tango steps with different degrees of execution correctness. We also performed path analysis to infer causal relationships between ongoing anticipatory brain activity, evoked semantic responses, expertise measures and behavioral performance. We found that anticipatory activity, with sources in a fronto-parieto-occipital network, early discriminated between groups according to their level of expertise. Furthermore, this early activity significantly predicted subsequent semantic integration indexed by semantic responses (N400 and SW, sourced in temporal and motor regions) which also predicted motor expertise. In addition, motor expertise was a good predictor of behavioral performance. Our results show that neural and temporal dynamics underlying contextual action anticipation and comprehension can be interpreted in terms of successive levels of contextual prediction that are significantly modulated by subject's prior experience. © 2014 Elsevier Inc.
format JOUR
author Amoruso, L.
Sedeño, L.
Huepe, D.
Tomio, A.
Kamienkowski, J.
Hurtado, E.
Cardona, J.F.
Álvarez González, M.T.
Rieznik, A.
Sigman, M.
Manes, F.
Ibáñez, A.
author_facet Amoruso, L.
Sedeño, L.
Huepe, D.
Tomio, A.
Kamienkowski, J.
Hurtado, E.
Cardona, J.F.
Álvarez González, M.T.
Rieznik, A.
Sigman, M.
Manes, F.
Ibáñez, A.
author_sort Amoruso, L.
title Time to Tango: Expertise and contextual anticipation during action observation
title_short Time to Tango: Expertise and contextual anticipation during action observation
title_full Time to Tango: Expertise and contextual anticipation during action observation
title_fullStr Time to Tango: Expertise and contextual anticipation during action observation
title_full_unstemmed Time to Tango: Expertise and contextual anticipation during action observation
title_sort time to tango: expertise and contextual anticipation during action observation
url http://hdl.handle.net/20.500.12110/paper_10538119_v98_n_p366_Amoruso
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