1. Changing ideas about others' intentions: updating prior expectations tunes activity in the human motor system
- Author
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Alessandro Farnè, Anna M. Borghi, Alice C. Roy, Romeo Salemme, Pierre O. Jacquet, Valérian Chambon, and Karen T. Reilly
- Subjects
Adult ,Male ,medicine.medical_treatment ,media_common.quotation_subject ,Motion Perception ,Pyramidal Tracts ,Intention ,Motor Activity ,Action selection ,050105 experimental psychology ,Article ,Task (project management) ,03 medical and health sciences ,0302 clinical medicine ,Perception ,Motor system ,medicine ,Humans ,0501 psychology and cognitive sciences ,Motion perception ,Simulation ,media_common ,Mechanism (biology) ,Electromyography ,motor system - intention - social cognition ,05 social sciences ,Probabilistic logic ,Anticipation, Psychological ,Evoked Potentials, Motor ,Transcranial Magnetic Stimulation ,Biomechanical Phenomena ,Transcranial magnetic stimulation ,Mental Recall ,Female ,Psychology ,030217 neurology & neurosurgery ,multidisciplinary ,Cognitive psychology - Abstract
Predicting intentions from observing another agent’s behaviours is often thought to depend on motor resonance – i.e., the motor system’s response to a perceived movement by the activation of its stored motor counterpart, but observers might also rely on prior expectations, especially when actions take place in perceptually uncertain situations. Here we assessed motor resonance during an action prediction task using transcranial magnetic stimulation to probe corticospinal excitability (CSE) and report that experimentally-induced updates in observers’ prior expectations modulate CSE when predictions are made under situations of perceptual uncertainty. We show that prior expectations are updated on the basis of both biomechanical and probabilistic prior information and that the magnitude of the CSE modulation observed across participants is explained by the magnitude of change in their prior expectations. These findings provide the first evidence that when observers predict others’ intentions, motor resonance mechanisms adapt to changes in their prior expectations. We propose that this adaptive adjustment might reflect a regulatory control mechanism that shares some similarities with that observed during action selection. Such a mechanism could help arbitrate the competition between biomechanical and probabilistic prior information when appropriate for prediction.
- Published
- 2016
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