Abstract
IntroductionResearch indicates that both observed and imagined actions can be represented in the brain as two parallel sensorimotor representations. One proposal is that higher order cognitive processes would align these two hypothetical action simulations.MethodsWe investigated this hypothesis using an automatic imitation paradigm, with functional near‐infrared spectroscopy recordings over the prefrontal cortex during different motor simulation states. On each trial, participants (n = 14) observed a picture of a rhythmical action (instructed action) followed by a distractor movie showing the same or different action. Participants then executed the instructed action. Distractor actions were manipulated to be fast or slow, and instructions were manipulated during distractor presentation: action observation (AO), combined action observation and motor imagery (AO+MI) and observe to imitate (intentional imitation). A pure motor imagery (MI) condition was also included.ResultsKinematic analyses showed that although distractor speed effects were significant under all instructions (shorter mean cycle times in execution for fast compared to slow trials), this imitation bias was significantly stronger for combined AO+MI than both AO and MI, and stronger for intentional imitation than the other three automatic imitation conditions. In the left prefrontal cortex, cerebral oxygenation was significantly greater for combined AO+MI than all other instructions. Participants reported that their representation of the self overlapped with the observed model significantly more during AO+MI than AO.ConclusionLeft prefrontal activation may therefore be a neural signature of AO+MI, supporting attentional switching between concurrent representations of self (MI, top‐down) and other (AO, bottom‐up) to increase imitation and perceived closeness.
Highlights
Research indicates that both observed and imagined actions can be represented in the brain as two parallel sensorimotor representations
Analyzing the mean response cycle times over all experimental conditions revealed a significant difference between the two distractor speeds (t(14) = −8.2, p < .001, d = 3.9), wherein mean cycle times were shorter for fast compared to slow trials (813 vs. 980 ms, respectively)
We predicted that the imitation bias and the perceived closeness would be stronger for combined action observation (AO)+motor imagery (MI) compared to both the AO and MI instructions, and that the related neurophysiological response would be stronger for AO+MI than for AO, MI, and intentional imitation
Summary
Research indicates that both observed and imagined actions can be represented in the brain as two parallel sensorimotor representations. Methods: We investigated this hypothesis using an automatic imitation paradigm, with functional near-infrared spectroscopy recordings over the prefrontal cortex during different motor simulation states. In the left prefrontal cortex, cerebral oxygenation was significantly greater for combined AO+MI than all other instructions Participants reported that their representation of the self overlapped with the observed model significantly more during AO+MI than AO. Combined AO+MI typically involves participants imagining the kinesthetic experience and sensations of an action, while at the same time observing a visual display of the same action (Eaves, Riach, et al, 2016). We employed an automatic imitation paradigm to investigate this hypothesis, with functional near-infrared spectroscopy (fNIRS) recordings obtained over the prefrontal cortex during different motor simulation states
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