Scientific Reports (May 2023)

Distinguishing intentional from nonintentional actions through eeg and kinematic markers

  • C. C. Derchi,
  • E. Mikulan,
  • A. Mazza,
  • S. Casarotto,
  • A. Comanducci,
  • M. Fecchio,
  • J. Navarro,
  • G. Devalle,
  • M. Massimini,
  • C. Sinigaglia

DOI
https://doi.org/10.1038/s41598-023-34604-y
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 10

Abstract

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Abstract How can an intentional movement be distinguished from the same movement done nonintentionally? How can this distinction be drawn without asking the subject, or in patients who are unable to communicate? Here we address these questions, by focusing on blinking. This is one of the most frequent spontaneous actions in our daily life, but it can also be done intentionally. Furthermore, blinking is often spared in patients with severe brain injuries, and for some, it is the only way to report complex meanings. Using kinematic and EEG-based measures, we found that intentional and spontaneous blinking are preceded by different brain activities, even when they are indistinguishable. Unlike spontaneous ones, intentional blinks are characterized by a slow negative EEG drift, resembling the classic readiness potential. We investigated the theoretical implication of this finding in stochastic decision models as well as the practical significance of using brain-based signals to improve the discrimination between intentional and nonintentional actions. As proof of principle, we considered three brain-injured patients with rare neurological syndromes characterized by motor and communicative impairments. Although further research is needed, our results indicate that brain-based signals can offer a feasible way to infer intentionality even in absence of overt communication.