Abstract
Motor resonance is defined as the internal activation of an observer's motor system, specifically attuned to the perceived movement. In social contexts, however, different patterns of observed and executed muscular activation are frequently required. This is the case, for instance, of seeing a key offered with a precision grip and received by opening the hand. Novel evidence suggests that compatibility effects in motor resonance can be altered by social response preparation. What is not known is how handedness modulates this effect. The present study aimed at determining how a left- and a right-handed actor grasping an object and then asking for a complementary response influences corticospinal activation in left- and right-handers instructed to observe the scene. Transcranial magnetic stimulation (TMS)-induced motor evoked potentials (MEPs) were thus recorded from the dominant hands of left- and right-handers. Interestingly, requests posed by the right-handed actor induced a motor activation in the participants' respective dominant hands, suggesting that left-handers tend to mirror right-handers with their most efficient hand. Whereas requests posed by the left-handed actor activated the anatomically corresponding muscles (i.e., left hand) in all the participants, right-handers included. Motor resonance effects classically reported in the literature were confirmed when observing simple grasping actions performed by the right-handed actor. These findings indicate that handedness influences both congruent motor resonance and complementary motor preparation to observed actions.
Highlights
A considerable amount of data suggests that primary motor and somatosensory cortices, as well as premotor and parietal areas, are modulated during action observation, providing evidence of an activation of the observer’s motor system
The main aim of the present study was to bring a substantial advancement in our knowledge of the role played by hand dominance in modulating motor resonant and complementary responses in social contexts
Are motor resonance and reciprocity shaped by handedness?
Summary
A considerable amount of data suggests that primary motor and somatosensory cortices, as well as premotor and parietal areas, are modulated during action observation, providing evidence of an activation of the observer’s motor system (i.e., motor resonance; see for example Grèzes and Decety, 2001; Avenanti et al, 2007, 2013a,b). The resonant response would originate in inferior frontal cortex (IFC, including ventral premotor cortex and posterior part of inferior frontal gyrus) and in inferior parietal lobule (IPL), and descend to spinal motoneurones via M1 (Nishitani and Hari, 2000) This is demonstrated by perturb-and-measure studies (Paus, 2005; Avenanti et al, 2007) in which off-line suppression of neural activity in IFC disrupts the motor facilitation induced by action observation (Avenanti et al, 2007, 2013a,b; Enticott et al, 2012) and dual coil studies in which stimulation of IFC and IPL modulates motor cortex reactivity to observed actions (Koch et al, 2010; Catmur et al, 2011).
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