Infants'Processing of Actions and Goals: A Social Neuroscience Approach. How do we come to understand the actions of other people? What neural systems are associated with understanding others, and how do these systems develop? Addressing these critical questions has far- reaching implications for understanding both typical and atypical human development. Much current interest in this area concerns whether the neural systems involved in infants'own production of actions are also active during the perception of similar actions by others. Debate in this area has centered on the nature and function of this putative shared activation in terms of its role in early action understanding. Until recently, such discussions have largely been speculative, calling for more data, rather than being able to summarize empirical results. Studies from our own and others'laboratories have begun to modify this picture through the application of electroencephalographic (EEG) techniques to the study of intermodal links between perception and production in infants'action processing. Recent work in this area has focused on a particular measure, the desynchronization of the sensor motor mu rhythm during action observation by infants. However, it remains very difficult to say exactly what is being reflected by changes in the mu rhythm while infants are viewing other people's actions. In this proposal we take a highly innovative, integrative approach to this issue by tackling a key question that needs to be addressed in order to move the field forward: What specific aspects of observed actions is the infant mu rhythm response sensitive to? In the proposed work we will make significant inroads into this critical problem by connecting recent findings from neuroscience with the extant literature on infant imitation, leading to a potentially powerful confluence of subfields within developmental science. The proposed work is a step toward building bridges between the emerging infant neuroscience work and the corpus of behavioral evidence showing the flexibility of human imitation.
The proposed research addresses specific questions concerning how human infants process other people's actions, and as such is relevant to understanding how children typically develop an understanding of others. Developing an integrative knowledge base in this area has important implications for the study of both typical and atypical development. As such, knowledge gained through the proposed work may contribute to the study of developmental disorders which are characterized by deficits in social relatedness (e.g., autism).
|Marshall, Peter J; Meltzoff, Andrew N (2014) Neural mirroring mechanisms and imitation in human infants. Philos Trans R Soc Lond B Biol Sci 369:20130620|
|Quandt, Lorna C; Marshall, Peter J (2014) The effect of action experience on sensorimotor EEG rhythms during action observation. Neuropsychologia 56:401-8|
|Quandt, Lorna C; Marshall, Peter J; Bouquet, Cedric A et al. (2013) Somatosensory experiences with action modulate alpha and beta power during subsequent action observation. Brain Res 1534:55-65|
|Saby, Joni N; Meltzoff, Andrew N; Marshall, Peter J (2013) Infants' somatotopic neural responses to seeing human actions: I've got you under my skin. PLoS One 8:e77905|
|Marshall, Peter J; Saby, Joni N; Meltzoff, Andrew N (2013) Infant Brain Responses to Object Weight: Exploring Goal-Directed Actions and Self-Experience. Infancy 18:|
|Marshall, Peter J; Saby, Joni N; Meltzoff, Andrew N (2013) Imitation and the Developing Social Brain: Infants' Somatotopic EEG Patterns for Acts of Self and Other. Int J Psychol Res (Medellin) 6:22-29|
|Marshall, Peter J (2013) Coping with complexity: developmental systems and multilevel analyses in developmental psychopathology. Dev Psychopathol 25:1311-24|
|Saby, Joni N; Marshall, Peter J; Meltzoff, Andrew N (2012) Neural correlates of being imitated: an EEG study in preverbal infants. Soc Neurosci 7:650-61|
|Quandt, Lorna C; Marshall, Peter J; Shipley, Thomas F et al. (2012) Sensitivity of alpha and beta oscillations to sensorimotor characteristics of action: an EEG study of action production and gesture observation. Neuropsychologia 50:2745-51|
|Saby, Joni N; Marshall, Peter J (2012) The utility of EEG band power analysis in the study of infancy and early childhood. Dev Neuropsychol 37:253-73|