The study involved 94 healthy women, aged 30-60. Sixty-four women were recruited who were not regular meditators. Participants stayed at the same resort in California for six days, and randomized so that half were simply on vacation while the other half joined a meditation training program run by the Chopra Center for Well Being. The meditation program included training in mantra meditation, yoga, and self reflection exercises. It was designed by Deepak Chopra, MD, who did not participate in data collection or analysis.
For greater insight into the long-term effects of what scientists dubbed the “meditation effect” compared to the “vacation effect,” the team also studied a group of 30 experienced meditators who were already enrolled in the retreat that week. Researchers collected blood samples, and surveys, from all participants immediately before and after their stay, as well as surveys one month and ten months later.
“In the spirit of other research efforts we have pioneered with other groups, this work underscores the importance of studies focused on healthy people,” said Eric Schadt, PhD, senior author on the paper and the Jean C. and James W. Crystal Professor of Genomics at the Icahn School of Medicine at Mount Sinai, and Founding Director of the Icahn Institute for Genomics and Multiscale Biology. “By combining an interrogation of gene networks with advanced data analysis and statistics, we have generated clinically meaningful information about stress and aging that is relevant to the broader population.”
The research team examined the changes in 20,000 genes to determine which types of genes were changing before and after the resort experience. Scientists performed an integrative transcriptomic analysis, comparing gene expression networks across all three groups of participants and finding unique molecular profiles and pathway enrichment patterns. Study results show that all groups — novice meditators, experienced meditators, and vacationers — had significant changes in molecular network patterns after the week at the resort, with a clear signature distinguishing baseline from post-vacation biology. The most notable changes in gene activity were related to stress response and immune function.
Researchers assessed self-reported measures of well being. While all groups showed improvements up to one month later, the novice meditators had fewer symptoms of depression and less stress much longer than the non-meditating vacationers. The psychological effects appear to be enduring and it is unknown how much of this longer lasting benefit may be due to continued practice or lasting changes in how people view events in their lives.
“It’s intuitive that taking a vacation reduces biological processes related to stress, but it was still impressive to see the large changes in gene expression from being away from the busy pace of life, in a relaxing environment, in such a short period of time. These findings will have to be replicated to see if the changes are reliably invoked under the same circumstances, in future studies, and compared to an at-home control group,” said Elissa S. Epel, PhD, Professor of Psychiatry at University of California, San Francisco and first author of the study.
“Based on our results, the benefit we experience from meditation isn’t strictly psychological; there is a clear and quantifiable change in how our bodies function,” said Rudolph Tanzi, PhD, the Joseph P. and Rose F. Kennedy Professor of Neurology at Harvard University, and Director of the Genetics and Aging Research Unit at Massachusetts General Hospital. “Meditation is one of the ways to engage in restorative activities that may provide relief for our immune systems, easing the day-to-day stress of a body constantly trying to protect itself. The prediction is that this would then lead to healthier aging.”
Elissa S. Epel, et al. Meditation and vacation effects impact disease-associated molecular phenotypes. Translational Psychiatry. DOI: 10.1038/tp.2016.164