The Proactive Synergy Between Action Observation and Execution in the Acquisition of New Motor Skills

Motor learning can be defined as a process that leads to relatively permanent changes in motor behavior through repeated interactions with the environment. Different strategies can be adopted to achieve motor learning: movements can be overtly practiced leading to an amelioration of motor performanc...

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Published inFrontiers in human neuroscience Vol. 16; p. 793849
Main Authors Bazzini, Maria Chiara, Nuara, Arturo, Scalona, Emilia, De Marco, Doriana, Rizzolatti, Giacomo, Avanzini, Pietro, Fabbri-Destro, Maddalena
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 24.03.2022
Frontiers Media S.A
Subjects
action observation treatment (AOT)
Age
Human Neuroscience
imitation
Memory
mirror mechanisms
mirror neurons
Motor ability
motor control
Motor skill
Motor skill learning
Motor task performance
Neuropsychology
Observational learning
Questionnaires
sports training
Training
imitation
mirror mechanisms
sports training
mirror neurons
motor control
action observation treatment (AOT)
Online AccessGet full text
ISSN1662-5161
1662-5161
DOI10.3389/fnhum.2022.793849

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Abstract Motor learning can be defined as a process that leads to relatively permanent changes in motor behavior through repeated interactions with the environment. Different strategies can be adopted to achieve motor learning: movements can be overtly practiced leading to an amelioration of motor performance; alternatively, covert strategies (e.g., action observation) can promote neuroplastic changes in the motor system even in the absence of real movement execution. However, whether a training regularly alternating action observation and execution (i.e., Action Observation Training, AOT) may surpass the pure motor practice (MP) and observational learning (OL) remains to be established. To address this issue, we enrolled 54 subjects requiring them to learn tying nautical knots via one out of three types of training (AOT, MP, OL) with the scope to investigate which element mostly contributes to motor learning. We evaluated the overall improvement of each group, along with the predictive role that neuropsychological indexes exert on each treatment outcome. The AOT group exhibited the highest performance improvement (42%), indicating that the regular alternation between observation and execution biases participants toward a better performance. The reiteration of this sequence provides an incremental, adjunct value that super-adds onto the efficacy of motor practice or observational learning in isolation (42% > 25% + 10%, i.e., OL + MP). These findings extend the use of the AOT from clinical and rehabilitative contexts to daily routines requiring the learning and perfectioning of new motor skills such as sports training, music, and occupational activities requiring fine motor control.
AbstractList Motor learning can be defined as a process that leads to relatively permanent changes in motor behavior through repeated interactions with the environment. Different strategies can be adopted to achieve motor learning: movements can be overtly practiced leading to an amelioration of motor performance; alternatively, covert strategies (e.g., action observation) can promote neuroplastic changes in the motor system even in the absence of real movement execution. However, whether a training regularly alternating action observation and execution (i.e., Action Observation Training, AOT) may surpass the pure motor practice (MP) and observational learning (OL) remains to be established. To address this issue, we enrolled 54 subjects requiring them to learn tying nautical knots via one out of three types of training (AOT, MP, OL) with the scope to investigate which element mostly contributes to motor learning. We evaluated the overall improvement of each group, along with the predictive role that neuropsychological indexes exert on each treatment outcome. The AOT group exhibited the highest performance improvement (42%), indicating that the regular alternation between observation and execution biases participants toward a better performance. The reiteration of this sequence provides an incremental, adjunct value that super-adds onto the efficacy of motor practice or observational learning in isolation (42% > 25% + 10%, i.e., OL + MP). These findings extend the use of the AOT from clinical and rehabilitative contexts to daily routines requiring the learning and perfectioning of new motor skills such as sports training, music, and occupational activities requiring fine motor control.
Motor learning can be defined as a process that leads to relatively permanent changes in motor behavior through repeated interactions with the environment. Different strategies can be adopted to achieve motor learning: movements can be overtly practiced leading to an amelioration of motor performance; alternatively, covert strategies (e.g., action observation) can promote neuroplastic changes in the motor system even in the absence of real movement execution. However, whether a training regularly alternating action observation and execution (i.e., Action Observation Training, AOT) may surpass the pure motor practice (MP) and observational learning (OL) remains to be established. To address this issue, we enrolled 54 subjects requiring them to learn tying nautical knots via one out of three types of training (AOT, MP, OL) with the scope to investigate which element mostly contributes to motor learning. We evaluated the overall improvement of each group, along with the predictive role that neuropsychological indexes exert on each treatment outcome. The AOT group exhibited the highest performance improvement (42%), indicating that the regular alternation between observation and execution biases participants toward a better performance. The reiteration of this sequence provides an incremental, adjunct value that super-adds onto the efficacy of motor practice or observational learning in isolation (42% > 25% + 10%, i.e., OL + MP). These findings extend the use of the AOT from clinical and rehabilitative contexts to daily routines requiring the learning and perfectioning of new motor skills such as sports training, music, and occupational activities requiring fine motor control.Motor learning can be defined as a process that leads to relatively permanent changes in motor behavior through repeated interactions with the environment. Different strategies can be adopted to achieve motor learning: movements can be overtly practiced leading to an amelioration of motor performance; alternatively, covert strategies (e.g., action observation) can promote neuroplastic changes in the motor system even in the absence of real movement execution. However, whether a training regularly alternating action observation and execution (i.e., Action Observation Training, AOT) may surpass the pure motor practice (MP) and observational learning (OL) remains to be established. To address this issue, we enrolled 54 subjects requiring them to learn tying nautical knots via one out of three types of training (AOT, MP, OL) with the scope to investigate which element mostly contributes to motor learning. We evaluated the overall improvement of each group, along with the predictive role that neuropsychological indexes exert on each treatment outcome. The AOT group exhibited the highest performance improvement (42%), indicating that the regular alternation between observation and execution biases participants toward a better performance. The reiteration of this sequence provides an incremental, adjunct value that super-adds onto the efficacy of motor practice or observational learning in isolation (42% > 25% + 10%, i.e., OL + MP). These findings extend the use of the AOT from clinical and rehabilitative contexts to daily routines requiring the learning and perfectioning of new motor skills such as sports training, music, and occupational activities requiring fine motor control.
Motor learning can be defined as a process that leads to relatively permanent changes in motor behavior through repeated interactions with the environment. Different strategies can be adopted to achieve motor learning: movements can be overtly practiced leading to an amelioration of motor performance; alternatively, covert strategies (e.g., action observation) can promote neuroplastic changes in the motor system even in the absence of real movement execution. However, whether a training regularly alternating action observation and execution (i.e., Action Observation Training, AOT) may surpass the pure motor practice (MP) and observational learning (OL) remains to be established. To address this issue, we enrolled 54 subjects requiring them to learn tying nautical knots via one out of three types of training (AOT, MP, OL) with the scope to investigate which element mostly contributes to motor learning. We evaluated the overall improvement of each group, along with the predictive role that neuropsychological indexes exert on each treatment outcome. The AOT group exhibited the highest performance improvement (42%), indicating that the regular alternation between observation and execution biases participants towards a better performance. The reiteration of this sequence provides an incremental, adjunct value that super-adds onto the efficacy of motor practice or observational learning in isolation (42% > 25% + 10%, i.e., OL + MP). These findings extend the use of the AOT from clinical and rehabilitative contexts to daily routines requiring the learning and perfectioning of new motor skills such as sports training, music, and occupational activities requiring fine motor control.
Author Rizzolatti, Giacomo
Nuara, Arturo
Fabbri-Destro, Maddalena
Bazzini, Maria Chiara
De Marco, Doriana
Avanzini, Pietro
Scalona, Emilia
AuthorAffiliation 1 Consiglio Nazionale delle Ricerche, Istituto di Neuroscienze , Parma , Italy
3 Istituto Clinico Humanitas, Humanitas Clinical and Research Center , Milan , Italy
2 Dipartimento di Medicina e Chirurgia, Università degli Studi di Parma , Parma , Italy
AuthorAffiliation_xml – name: 1 Consiglio Nazionale delle Ricerche, Istituto di Neuroscienze , Parma , Italy
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– name: 3 Istituto Clinico Humanitas, Humanitas Clinical and Research Center , Milan , Italy
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Keywords imitation
mirror mechanisms
sports training
mirror neurons
motor control
action observation treatment (AOT)
Language English
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Reviewed by: Dimitrios Kourtis, University of Stirling, United Kingdom; Saeed Ghorbani, Islamic Azad University, Islamshahr, Iran; Fengxue Qi, Beijing Sport University, China; Laura Sperl, Friedrich Schiller University Jena, Germany; Roy Mukamel, Tel Aviv University, Israel
This article was submitted to Motor Neuroscience, a section of the journal Frontiers in Human Neuroscience
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Snippet Motor learning can be defined as a process that leads to relatively permanent changes in motor behavior through repeated interactions with the environment....
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SubjectTerms action observation treatment (AOT)
Age
Human Neuroscience
imitation
Memory
mirror mechanisms
mirror neurons
Motor ability
motor control
Motor skill
Motor skill learning
Motor task performance
Neuropsychology
Observational learning
Questionnaires
sports training
Training
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Title The Proactive Synergy Between Action Observation and Execution in the Acquisition of New Motor Skills
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Volume 16
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