Elsevier

Cortex

Volume 117, August 2019, Pages 323-335
Cortex

Research Report
Human action sounds elicit sensorimotor activation early in life

https://doi.org/10.1016/j.cortex.2019.05.009Get rights and content

Abstract

In human adults the auditory representation of others’ actions is capable to activate specific areas of the motor and premotor cortices. Here, we examined the early origins of the neural processing of action sounds to investigate whether and how infants rely on auditory information to understand their close social environment. Sensorimotor activity, as indexed by μ rhythm suppression, was measured using electroencephalography in 14-month-old infants who listened to hand- and foot-produced action sounds (i.e., footsteps and clapping) and to mechanical sounds (i.e., blender). Footstep sounds elicited activation at midline electrodes over the foot area (Cz), and not in correspondence of lateralized clusters over the hand areas (C3 and C4). Greater activation in response to clapping compared to blender and footstep sounds was recorded at electrodes in the left central cluster, over the hand sensorimotor cortex (i.e., C3), but extended to some extent over the midline electrode cluster. Furthermore, our results underscore the role of natural locomotor experience in shaping sensorimotor activation, since infants who gained more walking experience exhibited stronger sensorimotor activation for footstep sounds over left central electrodes. Taken together, current results provide the first evidence that action sounds produced by another person are capable to elicit sensorimotor activation during infancy.

Section snippets

Participants

Thirty 14-month-old infants and their families were recruited from a diverse urban environment including the metropolitan and suburban areas of XXX. All infants were born at term (37–42 weeks gestation), had a normal birth weight (>2500 g), did not suffer of any neurological or other medical conditions, and had normal vision and hearing for their age. The final sample consisted of seventeen 14-month-old infants (10 females, mean age = 439.2 days; SD = 8.4; range 421–453 days). An additional 13

Results

An initial 5 × 3 repeated measures analysis of variance (ANOVA) was conducted with Category (clapping, footsteps, blender) and Electrode Cluster (C3, Cz, C4, Occipital, Frontal) as within-subject factors. The ANOVA revealed only a significant Category × Electrode Cluster interaction, F(8,128) = 2.15; p = .04, ηp2 = .118 (all other ps > .44).

In order to compare the scalp distribution of sensorimotor alpha suppression over central electrode sites during the listening of hand and foot movements in

Discussion

Very little is known about the electrophysiological responses to action-related sounds in infancy (Geangu, Quadrelli, et al., 2015) and fewer studies have examined if and how these sounds can generate sensorimotor activation in the first years of life (Gerson et al., 2015, Paulus et al., 2012). The present research investigated whether naturally experienced human action sounds elicit sensorimotor cortex activation and whether the spatial distribution of the sensorimotor μ rhythm is linked to

Data availability

Data cannot be made publicly available as the dataset contains sensitive and identifying information. The authors confirm that the data and experimental stimuli will be made available upon request. Requests may be sent to the corresponding author. No part of the study procedures and analyses was pre-registered prior to the research being conducted.

CRediT authorship contribution statement

Ermanno Quadrelli: Conceptualization, Methodology, Formal analysis, Investigation, Data curation, Writing - original draft, Writing - review & editing, Visualization. Elena Geangu: Conceptualization, Methodology, Writing - review & editing. Chiara Turati: Conceptualization, Methodology, Writing - review & editing, Resources, Supervision, Funding acquisition.

Acknowledgments

We are very grateful to all the infants and parents who participated in this study. We would also like to thank Elisa Roberti for assistance with testing and videocoding. This work was supported by an European Research Council Starting Grant to Prof. Chiara Turati on a project entitled “The origins and development of the human mirror neuron system” – ODMir No. 241176.

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