Touch supports processes crucial to human social behaviour, adding a bodily dimension to the perception and understanding of others’ feelings. Mirror cortical activity was proposed to underpin the interpersonal sharing of touch, allowing an automatic and unconscious simulation of others’ somatic states. However, recent evidence questioned the existence of a tactile shared representation in the primary somatosensory cortex (S1), and the neural correlates of self-other distinction in the somatosensory system remains unknown. We address these issues by exploring S1 reactivity, and the associated neural network oscillations and connectivity, to self and others’ touch. Transcranial Magnetic Stimulation combined with Electroencephalography (TMS-EEG) recordings were performed during tactile perception and observation, looking for differences in cortical activation and connectivity between felt and seen touch. The sight of a touch directed to a human body part, but not to an object, triggered an early activation of S1 as a felt touch did, which, in both conditions, propagated to fronto-parietal regions. Critically, touch perception and observation shared an effective connectivity network generated in the beta band, which is typically associated to unconscious tactile processing. Conversely, alpha band connectivity, a marker of conscious tactile processing, was detected only for real tactile stimulation. Alpha connectivity within a fronto-parietal pathway seems to underpin the ability to distinguish self and others’ somatosensory states, controlling and distinguishing shared tactile representations in S1.

Pisoni, A., Romero Lauro, L., Vergallito, A., Maddaluno, O., Bolognini, N. (2018). Cortical dynamics underpinning the self-other distinction of touch: A TMS-EEG study. NEUROIMAGE, 178, 475-484 [10.1016/j.neuroimage.2018.05.078].

Cortical dynamics underpinning the self-other distinction of touch: A TMS-EEG study

Pisoni, Alberto;Romero Lauro, Leonor Josefina
;
Vergallito, Alessandra;Maddaluno, Ottavia;Bolognini, Nadia
2018

Abstract

Touch supports processes crucial to human social behaviour, adding a bodily dimension to the perception and understanding of others’ feelings. Mirror cortical activity was proposed to underpin the interpersonal sharing of touch, allowing an automatic and unconscious simulation of others’ somatic states. However, recent evidence questioned the existence of a tactile shared representation in the primary somatosensory cortex (S1), and the neural correlates of self-other distinction in the somatosensory system remains unknown. We address these issues by exploring S1 reactivity, and the associated neural network oscillations and connectivity, to self and others’ touch. Transcranial Magnetic Stimulation combined with Electroencephalography (TMS-EEG) recordings were performed during tactile perception and observation, looking for differences in cortical activation and connectivity between felt and seen touch. The sight of a touch directed to a human body part, but not to an object, triggered an early activation of S1 as a felt touch did, which, in both conditions, propagated to fronto-parietal regions. Critically, touch perception and observation shared an effective connectivity network generated in the beta band, which is typically associated to unconscious tactile processing. Conversely, alpha band connectivity, a marker of conscious tactile processing, was detected only for real tactile stimulation. Alpha connectivity within a fronto-parietal pathway seems to underpin the ability to distinguish self and others’ somatosensory states, controlling and distinguishing shared tactile representations in S1.
Articolo in rivista - Articolo scientifico
Functional connectivity; Mirror touch; Primary somatosensory cortex; Self/other distinction; Tactile consciousness; TMS-EEG; α oscillations; β oscillations;
English
2018
178
475
484
reserved
Pisoni, A., Romero Lauro, L., Vergallito, A., Maddaluno, O., Bolognini, N. (2018). Cortical dynamics underpinning the self-other distinction of touch: A TMS-EEG study. NEUROIMAGE, 178, 475-484 [10.1016/j.neuroimage.2018.05.078].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/205758
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