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Our focus of attention naturally fluctuates between different sources of information even when we desire to focus on a single object. Focused attention (FA) meditation is associated with greater control over this process, yet the neuronal mechanisms underlying this ability are not entirely understood. Here, we hypothesize that the capacity of attention to transiently focus and swiftly change relates to the critical dynamics emerging when neuronal systems balance at a point of instability between order and disorder. In FA meditation, however, the ability to stay focused is trained, which may be associated with a more homogeneous brain state. To test this hypothesis, we applied analytical tools from criticality theory to EEG in meditation practitioners and meditation-naïve participants from two independent labs. We show that in practitioners-but not in controls-FA meditation strongly suppressed long-range temporal correlations (LRTC) of neuronal oscillations relative to eyes-closed rest with remarkable consistency across frequency bands and scalp locations. The ability to reduce LRTC during meditation increased after one year of additional training and was associated with the subjective experience of fully engaging one's attentional resources, also known as absorption. Sustained practice also affected normal waking brain dynamics as reflected in increased LRTC during an eyes-closed rest state, indicating that brain dynamics are altered beyond the meditative state. Taken together, our findings suggest that the framework of critical brain dynamics is promising for understanding neuronal mechanisms of meditative states and, specifically, we have identified a clear electrophysiological correlate of the FA meditation state.
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Findings from animal as well as human neuroimaging studies suggest that reward delivery is associated with the activation of subcortical limbic and prefrontal brain regions, including the thalamus, the striatum, the anterior cingulate and the prefrontal cortex. The aim of the present study was to explore if these reward-sensitive regions are also activated during the anticipation of reinforcers that vary with regard to their motivational value. A differential conditioning paradigm was performed, with the presentation of a rewarded reaction time task serving as the unconditioned stimulus (US). Depending on their reaction time, subjects were given (or not given) a monetary reward, or were presented with a verbal feedback consisting of being fast or slow. In a third control condition no task needed to be executed. Each of the three conditions was introduced by a different visual cue (CS). Brain activation of 27 subjects was recorded using event-related functional magnetic resonance imaging. The results showed significant activation of the substantia nigra, thalamic, striatal, and orbitofrontal brain regions as well as of the insula and the anterior cingulate during the presentation of a CS signalling a rewarded task. The anticipation of a monetary reward produced stronger activation in these regions than the anticipation of positive verbal feedback. The results are interpreted as reflecting the motivation-dependent reactivity of the brain reward system with highly motivating stimuli (monetary reward) leading to a stronger activation than those less motivating ones (verbal reward).
Erkunden
Eintragsart
Sprache
- Englisch (2)
Thema
- Brain/*physiology
- absorption (1)
- Adult (2)
- Attention/*physiology (1)
- Brain Waves/*physiology (1)
- Cohort Studies (1)
- Conditioning, Operant/*physiology (1)
- criticality (1)
- Emotions/physiology (1)
- Feedback/physiology (1)
- Female (2)
- Gyrus Cinguli/physiology (1)
- Humans (2)
- Image Processing, Computer-Assisted (1)
- long-range temporal correlations (1)
- Magnetic Resonance Imaging (1)
- Male (2)
- *Meditation (1)
- meditation (1)
- Middle Aged (1)
- Neostriatum/physiology (1)
- Occipital Lobe/physiology (1)
- Practice, Psychological (1)
- Prefrontal Cortex/physiology (1)
- Psychomotor Performance/physiology (1)
- Reaction Time (1)
- Rest (1)
- *Reward (1)
- Signal Processing, Computer-Assisted (1)
- Thinking/physiology (1)
- Time Factors (1)
- Young Adult (1)