Meditators and Nonmeditators: A Descriptive Analysis Over Time with A Focus on Unusual and Extraordinary Experiences
J Kim Penberthy1*, Adam S Hodge2, Joshua N Hook2, Arnaud Delorme3, Marieta Pehlivanova1 and Cassandra Vieten3
1Department of Psychiatry & Neurobehavioral Sciences, University of Virginia School of Medicine, USA
2Department of Psychology, University of North Texas, USA
3 Institute of Noetic Sciences, USA
Submission: December 16, 2019; Published: January 27, 2020
*Corresponding author: J Kim Penberthy, Department of Psychiatry & Neurobehavioral Sciences, University of Virginia School of Medicine, USA
How to cite this article: J Kim Penberthy, Adam S Hodge, Joshua N Hook, Arnaud Delorme, Marieta Pehlivanova, Cassandra Vieten.Meditators and Nonmeditators: A Descriptive Analysis Over Time with A Focus on Unusual and Extraordinary Experiences. J Yoga & Physio. 2020; 8(3): 555744. DOI: 10.19080/JYP.2020.08.555744
Abstract
Background: Some research indicates that meditation increases mindfulness and paranormal experiences of precognition, telepathy, clairvoyance, and synchronicities. There is limited knowledge about the frequency or impact of these experiences in meditators and the general population.
Aims: Aims were to assess frequency and impact of self-reported mindfulness, paranormal experiences and performance on psi tasks in two groups over time.
Method: We explored frequency of mindfulness, psi, extraordinary experiences, abilities in meditation versus non-meditating groups and the impact of such.
Results: 118 participants completed the study. Those in the meditation group reported initial higher levels of paranormal experiences (M = 1.33; SD = 0.17) compared to the control group (M = 1.57; SD = 0.22), t(1,65.11) = 6.02, p < .001, (higher scores indicate fewer paranormal experiences). At post-test individuals in the meditation group (M = 1.63; SD = 0.22) again reported greater paranormal experiences compared to the control group (M = 1.84; SD = 0.19), t (1,107) = 5.16, p < .001. The meditation group reported higher levels of meaning attributed to those experiences (M = 78.10, SD = 17.04) than the control group (M = 64.89, SD = 25.40, p = .002).
Conclusions: The meditation group demonstrated increased mindfulness scores over time and mindfulness levels were positively associated with higher levels of reported paranormal experiences both before and after the intervention, when compared to the control group. Performance on psi tasks did not improve in either group over time and these tasks may not be sensitive enough to detect significant changes.
Keywords: Meditation; Mindfulness; Paranormal experiences; Unusual experiences
Abbreviations: UVA: University of Virginia; IONS: Institute of Noetic Sciences; DOPS: Division of Perceptual Studies; ASTI: Adult Self-Transcendence Inventory; AMPS: Applied Mindfulness Process Scale; FFMQ: Five Facet Mindfulness Questionnaire
Introduction
The field of meditation research has grown exponentially in the past two decades, driven largely by a growing appreciation of the potential for contemplative practices to positively affect psychophysiological functioning, reduce stress, and increase well-being Khoury & Goyal et al. [1,2]. In 1990, approximately 500 peer-reviewed scientific articles on the science of meditation existed, and today the number has increased to over 6,000. This body of research has shed light on the effects of meditation practices on basic mechanisms of attention, perception, and cognition Chiesa & Fox et al. [3,4]. Studies investigating the neural correlates of lifetime meditation practice Boccia & Fox et al. [5,6]. as well as changes in brain function and structure associated with short-term mindfulness interventions Hölzel et al, [7] have led to a robust new field of contemplative neuroscience.
However, many aspects of meditation experience and practice remain less researched. Experiences of oneness and interconnectedness; samadhi and siddhis; shakti and kundalini energies; spiritual transmission from teacher to student; past-life recall and reincarnation experiences; visions, synchronicities, precognition, extra-sensory perception; experiences of God, deities, and other non-physical entities; difficult stages of meditation, painful processes that can arise, and periods of disorientation and depersonalization - are described in the texts and teachings of most contemplative traditions. However, assessment of these experiences and abilities are rarely included, even in the most rudimentary way, in modern meditation scientific studies. People do report having extraordinary para-psychological experiences during, after, or as a result of meditation. Anecdotal, survey, and interview data indicate that these “extraordinary” aspects of meditation may be more prevalent than is commonly recognized and could represent important mediators or mechanisms by which meditation leads to beneficial cognitive, behavioral, and physiological outcomes Vieten & Vieten et al. [8]. Recent research by the scientists at the Institute of Noetic Sciences using cross-sectional, retrospective surveys showed that, among meditators, such experiences were more common than previously thought Vieten & Wahbeh, et al. [8,9]. For example, of 1,120 respondents with an average of 14 years of meditation practice and psychological health in alignment with population norms, over 50% reported “many times” or “almost always” for having extraordinary experiences such as experiencing of timelessness, being in a realm with no space boundaries, sensing the collective energy from a group, and experiencing increased synchronicities.
Additionally, over half reported experiencing clairvoyance or telepathy at least 2-5 times or more in the course of their meditation practice. In addition, far from being mere curiosities, when asked how meaningful or important these experiences were, 60% of respondents said “quite a bit” or “very much,” and another 20% responded “somewhat.” However, aside from a few studies using rudimentary techniques in the 1970’s and 1980’s, there has been very little empirical research investigating the relationship between meditation training and psi ability, and almost all has been retrospective. Roney-Dougal & colleagues [10] conducted a series of studies with meditation students, monks, Tibetan Lamas, and Rinpoches, and found a significant positive association between amount of lifetime meditation experience and performance on psi tasks.
Previous research has demonstrated positive correlations between those who endorse a longer history of meditation practice and performance on psi-related tasks. For example, one study by members of our team Radin & Vieten et al, [11], investigated whether EEG would show differences prior to light stimuli vs. sound stimuli in those with a history of meditation practice vs. those without a history of meditation practice. Results showed that among control group participants (i.e., nonmeditators) there was no difference in electrocortical signals between unpredictable light vs. sound stimuli, whereas in meditators, five of thirty-two channels showed significant differences between forthcoming light vs. sounds stimuli. This may reflect increased presentiment in those with a history of meditation. Likewise, in another study published in Physics Essays, Radin et al, [12], found that meditation experience was positively associated with effects of attention directed toward a double-slit apparatus on perturbations in the double-slit interference pattern, indicating that meditation experience may increase the so-called “observer effect.”
A meta-analysis by Seidlmeier et al, [13] confirming the benefits of meditation practice on psychological variables ended with this statement: “Both Hindu and Buddhist approaches hold that practitioners of meditation might develop a kind of super cognition, special abilities (siddhis) that exceed our normal abilities. Buddhist theory predicts that six kinds of siddhis might arise. Notably, the least spectacular one, destruction of the defiling impulses, is seen as the most significant. The others are psychokinesis, clairaudience, telepathic knowledge, retrocognitive knowledge, and clairvoyance. The Yoga Sutras report more of these siddhis as a result of extended yoga practice. Nonetheless, a theory about the effects of meditation would not be complete without consideration of these altered states of consciousness.”
It is possible that these aspects of meditation may happen more frequently than we understand and may be crucial to people’s psychological and spiritual development. Rather than being side-effects, these experiences could represent important outcomes of meditation practice, and may serve as mediators and/ or mechanisms by which meditation confers additional benefits. In this research, we explore the frequency of such experiences in both meditators and non-meditators and examine the impact of participating in a meditation or mindfulness retreat or class. Specifically, we examined factors such as self-reported aspects of mindfulness and paranormal experiences, as well as performance on psi tasks, assessed before and after meditation retreats. Additionally, we explored the salience of such experiences to those experiencing them. The aims of this study are to assess the frequency and impact of self-reported mindfulness, paranormal experiences, and performance on psi tasks in two groups over time: one group attending intensive meditation retreats, and the control group engaging in meditation rarely if at all (once per week or less) during the study period. Nearly all experiments to date have utilized retrospective measures of historical meditation practice. Our study focuses on the frequency and salience of extraordinary experiences, and changes in psi performance, prospectively, before and after intensive meditation training. We also examine self-reported mindfulness, paranormal experiences and performance on psi tasks of a comparison group who had little to no experience with meditation or mindfulness.
Materials and Methods
Participants
This study was conducted at the University of Virginia (UVA) School of Medicine, Division of Perceptual Studies (DOPS) in Charlottesville, VA and the Institute of Noetic Sciences (IONS) in Petaluma, CA, both leading research centers in the United States in the fields of consciousness studies and meditation. All procedures were reviewed and approved by the Institutional Review Boards of both institutions. Two participant populations were recruited – individuals who had signed up for meditation or mindfulness retreats or courses (on their own, not assigned by the investigators), and those who had little or no experience with meditation and did not engage in a retreat or course during the study period. The comparison group was non-randomized, unmatched, and primarily served to make sure that any changes observed over time in psychosocial outcomes or psi-related task performance could not be attributed to practice effects or repeated measurement over a relatively short (two week) time frame .We also wanted to know whether frequency of paranormal or psi experiences during the two-week time frame would differ from a normative sample. Participants were recruited from people who enrolled in meditation and mindfulness courses and retreats at UVA and meditation retreats at the Institute of Noetic Sciences and partnering retreat centers. Comparison group participants were recruited from the general public at both sites and were required to have little to no experience with meditation or mindfulness, and to not enroll in such a course during the study period.
Participants were recruited through flyers and advertisements, presentation of the study during enrollment in the classes or retreats, email, and word-of-mouth. Recruitment materials were intentionally masked to avoid over-recruitment of people who might be biased toward belief in paranormal experiences. We aimed to enroll 120 participants overall. Participants were required to be adults of any gender (ages 18 – 80) who did not have a history of hallucinations, delusions, mania, or psychosis. Investigators at both sites have extensive experience in conducting such research and both followed best practices for the research project and management. Participants were not individually reimbursed, but instead entered into a drawing for a free iPad. One iPad was given to a randomly selected participant at each site.
Measures
i. Demographic Information – including age, race/ethnicity, gender, marital status, education, household income and employment, psychiatric history, and history of spiritual/ religious/contemplative practices.
ii. Psychosocial Measures – Self-report measures were used to assess social connectedness (Social Connectedness and Social Reassurance Scale; Lee & Robbins [14], day-to-day mindfulness (Applied Mindfulness Process Scale, AMPS; Li, Black & Garland [15] the five facets of mindfulness (Five Facet Mindfulness Questionnaire, FFMQ; Baer et al, [16] self-transcendence (Adult Self-Transcendence Inventory, ASTI; Levenson et al. [17,18], and five-factor personality assessment (Brief Big 5; Goldberg [19]).
iii. Psi and Paranormal Beliefs and Experiences - We utilized a self-report measure of paranormal beliefs, paranormal experiences, psi beliefs and experiences (an early version of the Noetic Experiences and Beliefs Scale (NEBS) Wahbeh et al.
iv. Meditation Experiences – We assessed experiences people have during or related to their meditation practice using a modified version of the survey we have used in our retrospective studies of meditators. This survey examines
a) mystical, transcendent, or transformative experiences during or related to meditation practice
b) social, relational, and group aspects of meditation
c) contextual aspects of meditation practice
d) anomalous physical phenomena related to meditation
e) extended human capacities such as precognition, clairvoyance, or ESP
f) difficult states and stages of meditation practice. The survey asks respondents to report on whether any of these occurred in the course of their meditation retreat or time period (for controls), how frequently they occurred, and how important or meaningful they were to the respondent. These measures were used to assess frequency and salience of these experiences.
v. Psi Tasks - We assessed performance on tasks involving intuition (the Jar Intuition Task - intuiting the number of items in a jar with the image of the jar flashed too quickly to count the items), precognition (Bem [19-21] Task - intuiting which image would appear prior to the image being presented) and psychokinesis (Bubble Task - intending to shift the appearance of bubbles from scattered to arranged into a circle, linked to a random number generator that resulted in more scattering of bubbles as numbers increased in randomness, and more arrangement of bubbles into a circle when numbers decreased in randomness).
These tasks were administered twice at baseline and and twice after the meditation classes/retreats (or a period of two weeks for the comparison group), utilizing online tasks from the IONS Discovery Lab (IDL), with the average of the two presessions and the average of the two post-sessions used. Subjects completed the tasks two times over the course of a week prior to their class/retreat (PreSession 1 and PreSession 2) and two times over the course of two days after the class/retreat (PostSession 1 and PostSession 2) [. Averaging across the two sessions was intended to avoid idiosyncratic one-time failures or successes. See the Appendix for a detailed description of each task, along with scoring protocols. Self-report questionnaires and surveys were administered only once each and distributed across these two sessions to reduce participant burden and response fatigue [22- 26].
Procedures
After screening for eligibility and a brief study orientation, consent was obtained by a member of the research team, either in person or by phone with the consent form signed electronically. This study was considered very low risk by the Institutional Review Boards at each institution and received expedited approval. Subjects were asked to complete the baseline measures within one week of beginning their meditation class or retreat, and to complete the post-measures within the week following the class or retreat. The comparison group (participants who were not currently enrolled in a meditation retreat or course) were asked to complete the same assessments during equivalent time periods. All assessments were administered via computer and no adverse events were reported. All online questionnaires were created and administered using the online survey tool Qualtrics.
Results
We enrolled 127 participants at both sites, 9 participants were excluded due to not completing required components, and 118 participants (meditation group = 98; comparison group = 40) finished the study and their data was analyzed [27-30]. Demographic details of the participants in both groups can be found in (Table 1).
Baseline Comparisons and Associations
Since groups were self-selected (e.g. one group was enrolling in intensive meditation retreats, and the other was not), we anticipated observing baseline differences between groups. The meditation group reported higher levels of mindfulness at the beginning of the study than the comparison group. Indepent samples t-tests were also conducted to compare differences between the meditation group and the control group for
(a) psi beliefs and
(b) reporting psi experiences that went along with the beliefs measure. Each scale consisted of 12 items.
First, Levene’s test for equality of variances was found to be violated for the analysis comparing the meditation and control groups psi beliefs, F (1,109) = 39.58, p < .001. As a result, a t-test not assuming homogeneity of variance is reported. Individuals in the meditation group (M = 1.26; SD = 0.27) reported higher beliefs in paranormal experiences compared to the control group (M = 1.71; SD = 0.62), t(1,47.70) = 5.29, p < .001, where higher scores indicate less psi beliefs.
Second, a Levene’s test for equality of variances was found to be violated for the analysis comparing the meditation and control group when reporting whether they had personally experienced the paranormal experiences they stated they believed in, F(1,104) = 7.47, p = .007. As a result, a t-test not assuming homogeneity of variance is reported. Individuals in the meditation group (M = 1.37; SD = 0.24) reported higher beliefs in paranormal experiences compared to the control group (M = 1.52; SD = 0.633), t(1,51.43) = 2.43, p = .019, where higher scores indicate fewer psi experiences. Not surprisingly, there was also a positive correlation between paranormal beliefs and paranormal experiences (r = .61, p < .001), and between psi beliefs and reported psi experiences (r = .84, p < .001) [31-36].
We also examined the correlations between self-reported paranormal experiences variables and meditation, mindfulness, and self-transcendence variables at baseline. These are reported in Table 2. There was a trend for a positive correlation between openness and paranormal experiences (r = .18, p = .060). In addition, there was a positive correlation between participants’ response to “how important is your religious or spiritual practice to you now?” and both paranormal beliefs (r = .45, p < .0001) and paranormal experiences (r = .50, p < .0001) (Table 2).
Baseline characteristics and performance on psi tasks at baseline
We then examined history of meditation practice at baseline and performance on psi tasks at baseline. Having seriously engaged in a meditation practice was negatively related to the jar intuition difference at pretest (r = -.21, p = .023), indicating that people with a history of meditation were more accurate in guessing, how many objects were in a jar when the image of a jar filled with small colored objects was flashed too briefly to count (e.g. they had smaller differences between the actual number of objects in the jar and their guess). No other correlations were significant. There were trends toward correlations between higher paranormal beliefs and smaller time estimation difference (r = -.16, p = .092), meaning that time estimation trended toward being slightly more accurate in those with more paranormal beliefs vs. those with less. Importance of religion and spirituality in one’s life showed a trend toward being associated with more accuracy on the remote viewing task (r = .17, p = .063), and with greater presentiment on the Bem task (r = .20, p = .070).
Pre-Post Comparisons
Prevalence and salience of psi and paranormal experiences during retreats
First, we examined whether participants in the meditation group experienced more paranormal experiences during the two-week study period than the comparison group. Overall, those who were in the meditation group (and scored higher on the mindfulness variables at post-test) endorsed higher levels of paranormal experiences. At post-test, the meditation group (M = 1.81, SD = .15) was significantly more likely to report paranormal experiences over the preceding two-week period than the control group (M = 1.48, SD = .18) (p < .001). Additionally, in response to the question: “Was this experience important or meaningful to you?” rated from 1 to 100, the meditation group reported higher levels of meaning (M = 78.10, SD = 17.04) than the control group (M = 64.89, SD = 25.40, p = .002).
Changes in psychosocial measures and psi task performance
Then, we explored whether there were changes in psychosocial measures and psi task performance during the course of the twoweek study period. We conducted a mixed-ANOVA comparing treatment and comparison groups (at pre-test and post-test and examined the interaction between time and condition. We also tested for a main effect for time (e.g., whether all participants increased from pre to post or condition (e.g., whether data from participants in the meditation group were significantly different from participants in the control group).
Psychosocial measures
Results from measures of social connectedness, mindfulness, and self-transcendence are summarized in (Table 3). Multiple psychosocial measures improved in the meditation group, including increased social connectedness, increased day-today mindfulness as measured by the AMPS, all five facets of the measure of tendency toward mindfulness (FFMQ) except the observing scale which was borderline significant at p = .059, and the measure of self-transcendence (ASTI) (Table 3).
Psi task performance
Changes in performance on psi tasks were examined over time for both groups and are summarized in (Table 4 & 5). Our hypothesis based on previous retrospective studies that performance on psi tasks would improve after meditation classes and retreats was not supported. No differences on any of the psi tasks were observed from pre- to post-meditation retreat, with the exception of the comparison control group improving on accuracy of time estimation over the course of the study period (p < .05). With multiple comparisons, this may be a spurious result. Summary data comparing paranormal experiences for both the meditation and control groups at the beginning and end of the study are presented in (Table 6).
Independent samples t-tests were conducted to compare differences between the meditation group and the control group for reported paranormal experiences before and after the meditation retreats. At pre-test, Levene’s test for equality of variances was found to be violated, F (1,109) = 6.65, p = .011. As a result, a t-test not assuming homogeneity of variance is reported. Individuals in the meditation group (M = 1.33; SD = 0.17) reported greater paranormal experiences compared to the control group (M = 1.57; SD = 0.22), t(1,65.11) = 6.02, p < .001, where higher scores indicate fewer paranormal experiences. At post-test, homogeneity of variance can be assumed, and individuals in the meditation group (M = 1.63; SD = 0.22) reported greater paranormal experiences compared to the control group (M = 1.84; SD = 0.19), t(1,107) = 5.16, p < .001, where higher scores indicate fewer paranormal experiences.
Discussion
Our overarching research question was whether people engaging in intensive meditation retreats and classes over a brief period of time would have higher levels of mystical and paranormal experiences, and whether their performance on psi tasks would improve. This question is rooted in the theory that subjective experiences of oneness, interconnectedness, timelessness, and dissolution of ordinary limits of perception might have some basis in reality, and lead to increases in intuition and extrasensory perception. Our project examined people enrolling in intensive meditation classes and retreats, as well as a comparison group of people not engaging in meditation retreats. We chose this comparison in order to help rule out practice effects if performance on tasks did improve, and to compare how prevalence of paranormal and psi experiences during retreats would compare to a more normative sample of people not regularly engaged in meditation practices.
While there were no significant association of engaging in meditation retreats with performance on psi tasks, several other findings were notable. Interestingly, the best evidence for meditation potentially impacting paranormal experiences comes from the correlations at pretest. Those who said they had engaged in a meditation practice (and scored higher on the mindfulness variables) were more likely to report paranormal and psi beliefs and experiences as a part of their history. Reporting those beliefs and experiences was in turn significantly associated with a history of meditation practice, openness to experience, several facets of mindfulness (the ability to engage with moment-to-moment experiences with an accepting, curious, and nonjudgmental/ nonreactive stance), and scores on a measure of self-transcendence (feeling connected to something larger than oneself, selfknowledge and integration, peace of mind, nonattachment, presence in the here and now). Self-rated importance of religious and spiritual practice in one’s life was also significantly correlated with paranormal beliefs and experiences.
There were some tantalizing trends at baseline in the overall sample, showing that a higher amount of meditation practice was associated with a more accurate estimation of how many small items (such as M&Ms) were in a jar (r = -.21, p = .023), in an image flashed too quickly to be counted (or conversely, a lower amount of meditation practice associated with a larger difference between the estimated number of items in the jar and the actual number of items). In addition, paranormal beliefs trended toward being associated with more accurate time estimation (p = .092), and self-rated importance of spiritual and religious practices exhibited nonsignificant trends of being associated with more accuracy on the remote viewing task (p = .063) and greater presentiment on the Bem task [19-21]. (p = .070). Since these analyses utilized the whole sample, it may be that increased power is needed to detect associations of meditation with psi tasks. It also may be that people who have paranormal experiences are naturally drawn to meditation, and the combination of the two over the lifespan leads to effects on psi performance, as opposed to an acute effect that could be observed to result from an intensive retreat.
Nearly all of the psychosocial measures significantly improved over the course of the meditation retreat period, both within subjects and when compared to the comparison group. This is not a surprise, given the robust body of evidence linking meditation practice with an array of positive psychosocial outcomes. In addition, the group engaging in meditation retreats demonstrated increased mindfulness scores over time, and their mindfulness scores were positively associated with reporting higher levels of paranormal experiences both before and during the meditation retreat. The meditation retreat group reported more paranormal experiences during the two-week study period than the comparison group and reported that these experiences were more important or meaningful to them than the comparison group.
Conclusion
We conclude that this study provides enough evidence to warrant a more sophisticated examination of the relationship between meditation, paranormal and psi beliefs and experiences, and performance on psi tasks. We recommend that future research utilize both historical lifespan variables to predict psi performance, along with prospective designs that follow people for more than two weeks of practice. We also recommend increased sample sizes, to increase power, and studies that utilize a controlled design. Based on this preliminary data, we intend to further our research by conducting a randomized controlled prospective trial in which we randomly assign participants to either an intensive meditation group or an active control group that does not involve meditation, but controls for time and engagement. Such a design will help further explore the prevalence of extraordinary experiences and psi abilities in both populations and over time. We also wish to explore the endorsed impact of such experiences or abilities upon the individuals experiencing them. We will employ assessment strategies already developed to help capture information regarding psi performance in real time in order to assess whether people experience enhanced intuitive ability (i.e. psi) as a result of learning meditation and explore what this means to them (Appendix 1).
Acknowledgements
This research was supported by a grant #203/16 from the Bial Foundation, Portugal.
Conflict of Interest
All authors declare that they have no economic interest or gain from the reported work and that they have no conflicts of interests to report.
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