• Title of article

    Do meditators have higher awareness of their intentions to act?

  • Author/Authors

    Jo، نويسنده , , Han-Gue and Hinterberger، نويسنده , , Thilo and Wittmann، نويسنده , , Marc and Schmidt، نويسنده , , Stefan، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2015
  • Pages
    10
  • From page
    149
  • To page
    158
  • Abstract
    Intuitively, being aware of oneʹs inner processes to move should be crucial for the control of voluntary movements. However, research findings suggest that we are not always aware of the processes leading to movement execution. The present study investigated induced first-person access to inner processes of movement initiation and the underlying brain activities which contribute to the emergence of voluntary movement. Moreover, we investigated differences in task performance between mindfulness meditators and non-meditators while assuming that meditators are more experienced in attending to their inner processes. Two Libet-type tasks were performed; one in which participants were asked to press a button at a moment of their own decision, and the other one in which participantsʹ attention was directed towards their inner processes of decision making regarding the intended movement which lead them to press the button. Meditators revealed a consistent readiness potential (RP) between the two tasks with correlations between the subjective intention time to act and the slope of the early RP. However, non-meditators did not show this consistency. Instead, elicited introspection of inner processes of movement initiation changed early brain activity that is related to voluntary movement processes. Our findings suggest that compared to non-meditators, meditators are more able to access the emergence of negative deflections of slow cortical potentials (SCPs), which could have fundamental effects on initiating a voluntary movement with awareness.
  • Keywords
    intention , volition , Libet experiment , Readiness potential , Meditation
  • Journal title
    Cortex
  • Serial Year
    2015
  • Journal title
    Cortex
  • Record number

    2302233