Long-term meditators self-induce high-amplitude gamma synchrony during mental practice

Antoine Lutz, Lawrence L. Greischar, Nancy B. Rawlings, Matthieu Ricard, and Richard J. Davidson
PNAS November 16, 2004 101 (46) 16369-16373; https://doi.org/10.1073/pnas.0407401101

  1. Communicated by Burton H. Singer, Princeton University, Princeton, NJ, October 6, 2004 (received for review August 26, 2004)

Abstract

Practitioners understand “meditation,” or mental training, to be a process of familiarization with one's own mental life leading to long-lasting changes in cognition and emotion. Little is known about this process and its impact on the brain. Here we find that long-term Buddhist practitioners self-induce sustained electroencephalographic high-amplitude gamma-band oscillations and phase-synchrony during meditation. These electroencephalogram patterns differ from those of controls, in particular over lateral frontoparietal electrodes. In addition, the ratio of gamma-band activity (25-42 Hz) to slow oscillatory activity (4-13 Hz) is initially higher in the resting baseline before meditation for the practitioners than the controls over medial frontoparietal electrodes. This difference increases sharply during meditation over most of the scalp electrodes and remains higher than the initial baseline in the postmeditation baseline. These data suggest that mental training involves temporal integrative mechanisms and may induce short-term and long-term neural changes.

Footnotes

  • To whom correspondence may be addressed. E-mail: alutz{at}wisc.edu or rjdavids{at}wisc.edu.

  • Author contributions: A.L., M.R., and R.J.D. designed research; A.L. and N.B.R. performed research; A.L. and L.L.G. analyzed data; and A.L. and R.J.D. wrote the paper.

  • Abbreviations: ROI, region of interest; EEG, electroencephalogram.

  • Freely available online through the PNAS open access option.

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Long-term meditators self-induce high-amplitude gamma synchrony during mental practice
Antoine Lutz, Lawrence L. Greischar, Nancy B. Rawlings, Matthieu Ricard, Richard J. Davidson
Proceedings of the National Academy of Sciences Nov 2004, 101 (46) 16369-16373; DOI: 10.1073/pnas.0407401101
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