Sensitivity of the Action Observation Network to Physical and Observational Learning

Cross, Emily S.; Kraemer, David J. M.; Hamilton, Antonia F. de C.; Kelley, William M.; Grafton, Scott T.

doi:10.1093/cercor/bhn083

Cited by 388 publications

(349 citation statements)

References 49 publications

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“…The neural substrate underpinning this coupling is suggested (Cattaneo, Sandrini, & Schwarzbach, 2010;Kilner, Neal, Weiskopf, Friston, & Frith, 2009) to be the human mirror system (inferior frontal gyrus, premotor cortex, inferior parietal lobule), which supports the imitation of actions (Iacoboni et al, 1999) and the acquisition of motor skills via observation (Cross, Kraemer, Hamilton, Kelley, & Grafton, 2009). In addition to representing motor actions, imitation is a very important mechanism for developing of social rapport (Chartrand & Bargh, 1999) and feelings of affiliation (Lakin & Chartrand, 2003;van Baaren, Janssen, Chartrand, & Dijksterhuis, 2009).…”

Section: Introductionmentioning

confidence: 84%

Top-down social modulation of interpersonal observation–execution

Roberts

Bennett

Hayes

2015

Psychological Research

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Cyclical upper-limb movement can involuntarily deviate from its primary movement axis when the performer concurrently observes incongruent biological motion (i.e., interpersonal observation-execution). The current study examined the social modulation of such involuntary motor interference using a protocol that reflected everyday social interactions encountered in a naturalistic social setting. Eighteen participants executed cyclical horizontal arm movements during the observation of horizontal (congruent) or curvilinear (incongruent) biological motion. Both prior to, and during the interpersonal observation-execution task, participants also received a series of social words designed to prime a pro-social or anti-social attitude. The results showed greater orthogonal movement deviation, and thus interference, for the curvilinear compared to horizontal stimuli.Importantly, and opposite to most of the previous findings from work on automatic imitation and mimicry, there was a greater interference effect for the anti-social compared to pro-social prime condition. These findings demonstrate the importance of interpreting the context of social primes, and strongly support predictions of a comparison between the prime construct and the self-concept/-schema and the top-down response modulation of social incentives.

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Section: Introductionmentioning

confidence: 84%

Top-down social modulation of interpersonal observation–execution

Roberts

Bennett

Hayes

2015

Psychological Research

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“…The authors found that premotor and parietal regions demonstrate responses specifically tuned to motor familiarity of the observer, over and above responses seen in the same mirror system regions when the dancers watched movements that were visually familiar, but never executed. The second study used novice dancers learning simple dance sequences in a dance video game context, either by physical practice or passive observation (Cross, Kraemer, Hamilton, Kelley, & Grafton, 2009b). Among this population, there were similarities between physical and observational learning within parietal and premotor mirror system regions, with performance data adding additional support to the notion that physical and observational learning shape the brain and behavior in a similar manner.…”

Section: Neural Substrates Of Action Observationmentioning

confidence: 99%

Neurocognitive control in dance perception and performance

et al. 2012

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Dance is a rich source of material for researchers interested in the integration of movement and cognition. The multiple aspects of embodied cognition involved in performing and perceiving dance have inspired scientists to use dance as a means for studying motor control, expertise, and action-perception links. The aim of this review is to present basic research on cognitive and neural processes implicated in the execution, expression, and observation of dance, and to bring into relief contemporary issues and open research questions. The review addresses six topics: 1) dancers' exemplary motor control, in terms of postural control, equilibrium maintenance, and stabilization; 2) how dancers' timing and on-line synchronization are influenced by attention demands and motor experience; 3) the critical roles played by sequence learning and memory; 4) how dancers make strategic use of visual and motor imagery; 5) the insights into the neural coupling between action and perception yielded through exploration of the brain architecture mediating dance observation; and 6) a neuroesthetics perspective that sheds new light on the way audiences perceive and evaluate dance expression. Current and emerging issues are presented regarding future directions that will facilitate the ongoing dialog between science and dance

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“…This study thus demonstrates that changes in sensorimotor cortex were seen while observing dance track with actual physical ability to perform the movements, and these changes in the brain do not require years of rehearsal to manifest-a mere 6 weeks of rehearsal is enough to see marked changes in neural response profiles. These researchers have further explored the effects of de novo dance learning in populations of novice dancers, demonstrating the utility of dance learning paradigms to address questions of observational learning (Cross et al 2009b) and how different cues for learning dance are represented within the AON (Cross et al 2009a).…”

Section: Introductionmentioning

confidence: 99%

Neuroaesthetics and beyond: new horizons in applying the science of the brain to the art of dance

Cross

Ticini

2011

Phenom Cogn Sci

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Throughout history, dance has maintained a critical presence across all human cultures, defying barriers of class, race, and status. How dance has synergistically co-evolved with humans has fueled a rich debate on the function of art and the essence of aesthetic experience, engaging numerous artists, historians, philosophers, and scientists. While dance shares many features with other art forms, one attribute unique to dance is that it is most commonly expressed with the human body. Because of this, social scientists and neuroscientists are turning to dance and dancers to help answer questions of how the brain coordinates the body to perform complex, precise, and beautiful movements. In the present paper, we discuss how recent advances in neuroscientific methods provide the tools to advance our understanding of not only the cerebral phenomena associated with dance learning and observation but also the neural underpinnings of aesthetic appreciation associated with watching dance. We suggest that future work within the fields of dance neuroscience and neuroaesthetics have the potential to provide mutual benefits to both the scientific and artistic communities.

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Sensitivity of the Action Observation Network to Physical and Observational Learning

Cited by 388 publications

References 49 publications

Top-down social modulation of interpersonal observation–execution

Top-down social modulation of interpersonal observation–execution

Neurocognitive control in dance perception and performance

Neuroaesthetics and beyond: new horizons in applying the science of the brain to the art of dance

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