Abstract
The present study explored cortical correlates of gesture execution and observation in peripersonal space, using functional near-infrared spectroscopy (fNIRS). Moreover, a direct comparison was realized between resting state condition and execution/observation. Meaningful gestures produced in the presence (transitive action) or in the absence (intransitive action) of the object were considered in a real context (situated representation of gestures). Subjects were required to execute or observe transitive versus intransitive gestures during fNIRS registration. Gesture execution was related to higher brain activity (increased oxygenated hemoglobin levels) with respect to observation in motor areas (premotor cortex, PMC; supplementary motor cortex, SM1). In contrast, the posterior parietal cortex was similarly activated in case of both execution and observation task. Moreover, both tasks showed increased brain activity within these areas compared to resting state. Finally, it was shown that action execution and observation of transitive gestures was supported by similar parietal posterior areas. These findings support the hypothesis of a partial common network for observation and execution of gestures within peripersonal space, mainly in transitive condition.
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References
Andric M, Small SL (2012) Gesture’s neural language. Front Psychol 3:99
Bajaj S, Drake D, Butler A, Dhamala M (2014) Oscillatory motor network activity during rest and movement: an fNIRS study. Front Syst Neurosci 4:8–13
Balconi M, Caldiroli C (2011) Semantic violation effect on object-related action comprehension. N400-like event-related potentials for unusual and incorrect use. Neuroscience 197:191–199
Caspers S, Zilles K, Laird AR, Eickhoff SB (2010) ALE meta-analysis of action observation and imitation in the human brain. Neuroimage 50(3):1148–1167
Culham JC, Danckert SL, DeSouza JF et al (2003) Visually guided grasping produces fMRI activation in dorsal but not ventral stream brain areas. Exp Brain Res 153:180–189
Fridman EA, Immisch I, Hanakawa T et al (2006) The role of the dorsal stream for gesture production. Neuroimage 29:417–428
Grèzes J, Decety J (2001) Functional anatomy of execution, mental simulation, observation, and verb generation of actions: a meta-analysis. Hum Brain Mapp 12:1–19
Koehler S, Egetemeir J, Stenneken P et al (2012) The human execution/observation matching system investigated with complex everyday task: a functional near-infrared spectroscopy (fNIRS) study. Neurosci Lett 508(2):73–77
Króliczak G (2013) Representations of transitive and intransitive gestures: perception and imitation. J Neurosci Neuroeng 2:195–210
Leff DR, Orihuela-Espina F, Elwell CE et al (2011) Assessment of the cerebral cortex during motor task behaviours in adults: a systematic review of functional near infrared spectroscopy (fNIRS) studies. Neuroimage 54:2922–2936
Lewis JW, Brefczynski JA, Phinney RE et al (2005) Distinct cortical pathways for processing tool versus animal sounds. J Neurosci 25(21):5148–5158
Molenberghs P, Cunnington R, Mattingley JB (2012) Brain regions with mirror properties: a meta-analysis of 125 human fMRI studies. Neurosci Biobehav Rev 36(1):341–349
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Balconi, M., Vanutelli, M.E., Bartolo, A. et al. Transitive and intransitive gesture execution and observation compared to resting state: the hemodynamic measures (fNIRS). Cogn Process 16 (Suppl 1), 125–129 (2015). https://doi.org/10.1007/s10339-015-0729-2
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DOI: https://doi.org/10.1007/s10339-015-0729-2