Abstract
Understanding the intentions of others while observing their actions is a fundamental aspect of social behavior. However, the differences in neural and functional mechanisms between observing actions from the first-person perspective (1PP) and third-person perspective (3PP) are poorly understood. The present study had two aims: (1) to delineate the neural basis of action observation and understanding from the 1PP and 3PP; and (2) to identify whether there are different activation patterns during action observation and understanding from 1PP and 3PP. We used a blocked functional magnetic resonance imaging (fMRI) experimental design. Twenty-six right-handed participants observed interactions between the right hand and a cup from 1PP and 3PP. The results indicated that both 1PP and 3PP were associated with similar patterns of activation in key areas of the mirror neuron system underlying action observation and understanding. Importantly, besides of the core network of mirror neuron system, we also found that parts of the basal ganglia and limbic system were involved in action observation in both the 1PP and 3PP tasks, including the putamen, insula and hippocampus, providing a more complete understanding of the neural basis for action observation and understanding. Moreover, compared with the 3PP, the 1PP task caused more extensive and stronger activation. In contrast, the opposite comparison revealed that no regions exhibited significantly more activation in the 3PP compared with the 1PP condition. The current results have important implications for understanding the role of the core network underlying the mirror neuron system, as well as parts of the basal ganglia and limbic system, during action observation and understanding.
Highlights
In the social world, observing, understanding and imitating others’ actions and movements is fundamental to understanding the behaviors, intentions and feelings of others
Most previous neuroimaging studies of action observation and understanding focused on the mirror neuron system (MNS), including the supplementary motor area (SMA) (Grezes and Decety, 2001; Cross et al, 2009; Balser et al, 2014; Li et al, 2015), middle frontal gyrus (MFG) (Caspers et al, 2010; Plata et al, 2014), inferior frontal gyrus (IFG) (Grezes and Decety, 2001; Caspers et al, 2010), middle temporal gyrus (MTG) (Tamura et al, 2013), inferior parietal lobule (IPL) (Balser et al, 2014; Plata et al, 2014), putamen (Willems and Hagoort, 2009; Jelsone-Swain et al, 2015), and insula (Caspers et al, 2010; Plata et al, 2014)
The current study provides a preliminary step in the neuroscientific investigation of the neural correlates of action observation and understanding from 1PP and 3PP
Summary
In the social world, observing, understanding and imitating others’ actions and movements is fundamental to understanding the behaviors, intentions and feelings of others. A longitudinal study showed the appearance and the development of the abilities of children to understanding the intentions of mothers in the first 2 years of life (Capobianco and Cerniglia, 2017; Capobianco et al, 2017), which indicated that gesture-speech combinations play specific roles in children’s early language development. This result is consistent with Liew et al.’s conclusion that the MNS plays a key role in language-related abilities (Liew and Aziz-Zadeh, 2013)
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