Skip to content

Meditation is associated with increased brain network integration.

Remko Van Lutterveld, Edwin Van Dellen, Prasanta Pal, Hua Yang, Cornelis Jan Stam, Judson Brewer

NeuroImage September 1, 2017 Peer reviewed DOI: 10.1016/j.neuroimage.2017.06.071 via PubMed

Summary

Experienced meditators demonstrate greater integration of brain networks during meditation compared to novice meditators, as indicated by higher maximum betweenness centrality and lower diameter and average eccentricity in the alpha frequency band. Specifically, experienced meditators had a maximum betweenness centrality of 0.012, while leaf fraction showed a trend toward significance at 0.056. No significant differences were found in the theta and beta bands.

Study at a glance

Design observational cohort
Sample size 32
Population sixteen novice meditators and sixteen experienced meditators
Key finding Alpha band functional network topology is better integrated in experienced meditators than in novice meditators during meditation.

Abstract

This study aims to identify novel quantitative EEG measures associated with mindfulness meditation. As there is some evidence that meditation is associated with higher integration of brain networks, we focused on EEG measures of network integration. Sixteen novice meditators and sixteen experienced meditators participated in the study. Novice meditators performed a basic meditation practice that supported effortless awareness, which is an important quality of experience related to mindfulness practices, while their EEG was recorded. Experienced meditators performed a self-selected meditation practice that supported effortless awareness. Network integration was analyzed with maximum betweenness centrality and leaf fraction (which both correlate positively with network integration) as well as with diameter and average eccentricity (which both correlate negatively with network integration), based on a phase-lag index (PLI) and minimum spanning tree (MST) approach. Differences between groups were assessed using repeated-measures ANOVA for the theta (4-8 Hz), alpha (8-13 Hz) and lower beta (13-20 Hz) frequency bands. Maximum betweenness centrality was significantly higher in experienced meditators than in novices (P = 0.012) in the alpha band. In the same frequency band, leaf fraction showed a trend toward being significantly higher in experienced meditators than in novices (P = 0.056), while diameter and average eccentricity were significantly lower in experienced meditators than in novices (P = 0.016 and P = 0.028 respectively). No significant differences between groups were observed for the theta and beta frequency bands. These results show that alpha band functional network topology is better integrated in experienced meditators than in novice meditators during meditation. This novel finding provides the rationale to investigate the temporal relation between measures of functional connectivity network integration and meditation quality, for example using neurophenomenology experiments.

Comments

No comments yet.

Log in to comment