Year : 2008 | Volume
: 1 | Issue : 2 | Page : 66--71
Investigating paranormal phenomena: Functional brain imaging of telepathy
Ganesan Venkatasubramanian1, Peruvumba N Jayakumar1, Hongasandra R Nagendra2, Dindagur Nagaraja1, R Deeptha2, Bangalore N Gangadhar1,
1 National Institute of Mental Health and Neurosciences, Bangalore, India
2 Swami Vivekananda Yoga Anusandhana Samsthana, Vivekananda Yoga Research Foundation, Bangalore, India
Department of Psychiatry, National Institute of Mental Health and Neurosciences, Bangalore - 560 029
Aim: «DQ»Telepathy«DQ» is defined as «DQ»the communication of impressions of any kind from one mind to another, independently of the recognized channels of sense«DQ». Meta-analyses of «DQ»ganzfield«DQ» studies as well as «DQ»card-guessing task«DQ» studies provide compelling evidence for the existence of telepathic phenomena. The aim of this study was to elucidate the neural basis of telepathy by examining an individual with this special ability.
Materials and Methods: Using functional MRI, we examined a famous «DQ»mentalist«DQ» while he was performing a telepathic task in a 1.5 T scanner. A matched control subject without this special ability was also examined under similar conditions.
Results: The mentalist demonstrated significant activation of the right parahippocampal gyrus after successful performance of a telepathic task. The comparison subject, who did not show any telepathic ability, demonstrated significant activation of the left inferior frontal gyrus.
Conclusions: The findings of this study are suggestive of a limbic basis for telepathy and warrant further systematic research.
|How to cite this article:|
Venkatasubramanian G, Jayakumar PN, Nagendra HR, Nagaraja D, Deeptha R, Gangadhar BN. Investigating paranormal phenomena: Functional brain imaging of telepathy.Int J Yoga 2008;1:66-71
|How to cite this URL:|
Venkatasubramanian G, Jayakumar PN, Nagendra HR, Nagaraja D, Deeptha R, Gangadhar BN. Investigating paranormal phenomena: Functional brain imaging of telepathy. Int J Yoga [serial online] 2008 [cited 2018 Jun 23 ];1:66-71
Available from: http://www.ijoy.org.in/text.asp?2008/1/2/66/43543
"Telepathy" is defined as "the communication of impressions of any kind from one mind to another, independently of the recognized channels of sense".  With the help of various rigorous paradigms over the last 70 years, systematic research has lent support to the reality of telepathy.  Meta-analyses of "ganzfield" studies  as well as "card-guessing task"  studies provide compelling evidence for the existence of telepathy. This mysterious phenomenon has implications not only in the cognitive sciences but also in the biological and healing sciences.  It has long been assumed that conscious intention has the capacity to affect living systems across a distance. Intercessory prayers, healing energy, and similar other methods have long been a part of medicine.  Hence, analyzing the underpinnings of telepathy might potentially help in understanding the "distant-healing" phenomena also.
Examining people with extraordinary capabilities involving paranormal phenomena might help in a better understanding of these puzzling entities.  Previous such studies examining people with "special talents" , yielded significant insights. Similarly, studies have been conducted on people experiencing paranormal phenomena. A functional MRI study on "distant intentionality" (defined as sending thoughts at a distance) examined the brain activation pattern in a recipient of thoughts from healers who espoused some form for connecting or healing at a distance. The recipient demonstrated significant brain activations in the anterior and middle cingulate areas, precuneus, and the frontal regions.  Previous studies , examining subjects with telepathic ability suggested an association of paranormal phenomena with the right cerebral hemisphere. It has been reported that correlated neural signals may be detected by fMRI in the brains of subjects who are physically and sensorily isolated from each other.  In light of these previous studies, we aimed to examine the functional neuroanatomical correlates of telepathy in Mr. Gerard Senehi, an "expert with telepathic ability (mentalist)" using functional Magnetic Resonance Imaging (fMRI).
Materials and Methods
Mr. Gerard Senehi [Mr. GS] (aged 46 years) is well known for his abilities to perform various paranormal tasks such as telekinesis, mind reading, and telepathy (http://www.experimentalist.com). Mr. JS, the comparison subject, is a 43 -year-old male, who was aware of various paranormal phenomena including telepathy, but did not have any paranormal abilities to the best of his knowledge. Both the subjects were right-handed  and possessed Master's Degrees. Both the subjects were screened using the General Health Questionnaire  and a comprehensive mental status examination was done to rule out any psychiatric disorder. Neither of them had any history suggestive of substance abuse or dependence, medical or neurological disorders. Neither had any contraindication for MRI. The study procedures were explained to the subjects and written informed consent was obtained. The study protocol was reviewed and approved by the institute's ethics committee.
One of the investigators (PNJ) drew an image in the presence of other investigators [HRN, BNG, and GVS]. [Figure 1A] and [Figure 2A] were the images drawn by PNJ for the "mentalist" and the control subject while both were seated in separate rooms. Neither the mentalist [GS] nor the control subject [JS] knew what the image was. The subject was then shifted to the MRI scanner and the investigator (PNJ) was seated in the MRI console room (about 15 feet away). Adequate precautions were taken to avoid sensory leakages by following the guidelines of Hyman and Honorton.  During the scan, the subject was instructed to perform the act of telepathy to think about and identify the probable image that would have been drawn by the investigator during the designated epochs of "activation" and not to engage in this task during the periods of "rest". The subjects were visually cued (using a mirror attached to the head coil which reflected the cues projected on a screen) by green and red stars to indicate the respective onset of activation and rest epochs. The investigator (PNJ) was also given the same cues and was engaged in transmitting the image to the subject in the MRI scanner during the "activation" periods, stopping during the periods of rest. After the scanning, the subject was asked to draw the image that he was able to obtain by performing telepathy. [Figure 1B] was the image reproduced by the "mentalist" and [Figure 2B] was the image reproduced by the control. Both the subjects were scanned on the 3 rd day of the lunar cycle and at the same time of the day (1400 hours IST) separated by a three-month interval.
MRI was done with 1.5 Tesla Magnetom 'vision' scanner. First, a T 1 -weighted three-dimensional Magnetization Prepared Rapid Acquisition Gradient Echo sequence was performed (TR = 9.7 msec; TE = 4 msec; nutation angle = 12°; FOV = 250 mm; slice thickness 1 mm; NEX = 1; matrix = 200 x 256; 160 sagittal slices). After obtaining the anatomical MR images, echo-planar images (EPI) were obtained. They consisted of 112 functional acquisitions, with each acquisition consisting of 16 slices (slice thickness = 8 mm without any interslice gap) in the axial plane covering the entire brain. The parameters for a multishot EPI sequence using Blood Oxygen Level Dependent (BOLD) contrast were as follows: repetition time = 4000 msec; echo time = 76 msec; flip angle = 90°; FOV = 250 mm; matrix 128 X 128. The acquisitions were grouped in blocks of eight, yielding 14 blocks. The condition for successive blocks alternated between "rest" and the "telepathic" task, starting with "rest". This "rest-telepathy" paradigm yielded seven sets of "rest" and "telepathy".
The fMRI analysis was performed using Statistical Parametric Mapping-2 (SPM2) (http://www.fil.ion.ucl.ac.uk/spm). The EPI images were realigned and corrected for slice timing variations. The images were then normalized  to the Montreal Neurological Institute (MNI) space.  Finally, the images were smoothened with a gaussian kernel of 6 mm full-width, half-maximum.
SPM2 combines the General Linear Model and Gaussian field theory to draw statistical inferences from BOLD response data regarding deviations from the null hypothesis in three-dimensional brain space.  The images were analyzed using a block design paradigm with a canonical hemodynamic response function. The epochs of rest were subtracted from the epochs of the telepathic task performance. The voxel-wise analysis produced a statistical parametric map of brain activation associated with the telepathic task in the MNI space. Significance corrections for multiple comparisons were performed using a False Discovery Rate (FDR) correction  ( P  into the stereotactic space of Talairach and Tournoux  using nonlinear transform.  The brain regions were localized from the Talairach and Tournoux co-ordinates using automated software. 
The image [Figure 1B] reproduced by the "mentalist" showed striking similarity to the original image drawn by the investigator (PNJ) whereas the one reproduced by the control subject [Figure 2B] did not. The mentalist showed significant activation involving the right parahippocampal gyrus [Number of voxels = 160; Talairach and Tournoux co-ordinates of peak activation: 'x' = 32, 'y' = -41, 'z' = -6; T = 4.88; P (uncorrected) P = 0.018] [Figure 3] whereas the control subject showed significant activation involving the left inferior frontal gyrus [number of voxels = 363; Talairach and Tournoux co-ordinates of peak activation: 'x' = -42, 'y' = 25, 'z' = -8; T = 4.21; P (uncorrected) P = 0.037] [Figure 4].
To our knowledge, this is the first fMRI study to examine the brain correlates of telepathy. Previous studies have employed other functional brain mapping techniques such as Single Photon Emission Computed Tomography (SPECT)  and electroencephalography (EEG) and MRI  to investigate paranormal phenomena in selected individuals. In our study, telepathy was associated with significant activation of the right parahippocampal gyrus; whereas the control subject without telepathic ability, activated the left inferior frontal gyrus under similar task conditions.
A previous study  on Mr. Ingo Swann (who had the special ability of remote-viewing) showed that the proportions of unusual 7-Hz EEG spike and slow wave activity over the occipital lobes per trial had a correlation with the ratings of response accuracy. Neuropsychological and MRI analyses suggested a differential structural and functional organization within the parieto-occipital region of Mr. Swann's right hemisphere.
Another SPECT study  examined Mr. Sean Harribance, who routinely experienced "flashes of images" of objects that were hidden and of accurate personal information concerning people with whom he was not familiar. The "extrasensory" processes in Mr. Harribance correlated quantitatively with morphological and functional changes involving the right parietotemporal cortices (or its thalamic inputs) and hippocampal formation.
Together, these two studies suggest that paranormal phenomena might have a relationship with the right cerebral hemisphere, especially the right posterior cortical and hippocampal regions. The parahippocampal region is very closely linked to the hippocampus, both structurally and functionally.  So, the current study findings also support the association between the right hippocampal system and paranormal phenomena.
In our study, the control subject activated his left inferior frontal gyrus during his unsuccessful telepathic task performance; this brain area is implicated in the "Theory of Mind [ToM]".  The attribution of mental states, such as desires, intentions, and beliefs, to others has been referred to as ToM.  Empathy, conceptually related to ToM, is described as the ability to infer and share the emotional experiences of another.  An earlier study reported that psychic mind readers had greater cognitive empathy than individuals without these abilities.  Importantly, hippocampal brain regions are important for empathy.  Thus, our observations derive indirect support from this earlier study. 
Superior empathizing abilities have been hypothesized to be important for both telepathy  as well as for distant intentionality.  Interestingly, the cuneus (a brain region associated with empathy  ) has been reported to be linked with distant intentionality.  Also, in our study, the hippocampal region (associated with empathy  ) is implicated in telepathy. These observations support the hypothesized link between empathy and special abilities. It is possible that people with telepathy or distant healing abilities might possess the ability to activate differentially specific brain regions (in localization, e.g ., anterior vs posterior brain regions or in lateralization, e.g , right vs left brain) related to the empathy circuit in comparison to individuals without these abilities.
On the contrary, empathy deficits  and cuneus  and parahippocampal abnormalities  and anomalous right hemisphere overactivation  have been reported in schizophrenia. Most of these "left-hemisphere dominance failure" findings have been conceptualized as being "abnormal" in their tendency to increase a person's proclivity towards psychosis. Paradoxically, evolutionary theories on psychosis propose an alternative possibility that some of these traits might be of crucial utility.  It has been proposed that this dominance failure (and consequent right hemisphere overactivation) facilitates the emergence of paranormal and delusion-like ideas by way of right hemispheric associative processing characteristics, i.e ., coarse rather than focused semantic activation. Interestingly, the ability to detect subtle magnetic field energies might underlie paranormal phenomena.  Moreover, magnetic field abnormalities have been described to be the underlying basis for psychotic symptoms. , However, it is yet to be examined whether a conglomeration of these features ( i.e ., reduced left hemispheric dominance, paranormal beliefs) are also indicative of an inherent advantage towards acquiring "special" abilities in some people (of course, with enhancement towards psychosis in others) possibly due to an enhanced tendency to perceive subtle geomagnetic energy alterations.
Ours is probably the first fMRI study to examine the neuroanatomical correlates of telepathy. fMRI offers methodological advantages of nonradioactive and noninvasive real-time imaging of the brain. We have employed a well-researched and validated image analysis paradigm with optimal correction for false positive results. Our study methodology strictly adhered to the guidelines for research on paranormal phenomena proposed by Hyman and Honorton.  These include rigorous precautions against sensory leakage, extensive security procedures to prevent malpractices, full documentation of all experimental procedures and equipment, and complete specifications about statistical analyses.
Nonetheless, one has to be cautious while interpreting the study findings due to the following limitations: i) ideally, it would have been methodologically more rigorous if Mr. Gerard had replicated the successful telepathic task with similar brain activation during another session of fMRI on a different occasion. As Mr. Gerard had reported some inexplicable discomfort in the few days following the fMRI, this could not be done; Ii) examination of just one control subject is another limiting factor.
In summary, this study's findings are suggestive of an association between telepathy and the right parahippocampal gyrus. The methodological rigor, isolated and robust brain activation with telepathy, and established theoretical relevance of this brain region with reference to paranormal phenomena highlight the need for further studies using advanced fusion imaging techniques (simultaneous fMRI, EEG, and magnetoencephalography) to examine telepathy.
We sincerely thank Mr. Gerard Senehi and the comparison subject [Mr. JS] for consenting to be subjects for this study.
|1||Myers FW. Human personality and its survival of bodily death. London: Longmans; 1903. |
|2||Leder D. "Spooky actions at a distance": Physics, psi, and distant healing. J Altern Complement Med 2005;11:923-30. |
|3||Radin D. The Conscious Universe. San Francisco: Harper-San Francisco; 1997. p. 73-89. |
|4||Radin D. The Conscious Universe. San Francisco: Harper-SanFrancisco; 1997. p. 96. |
|5||Dziobek I, Rogers K, Fleck S, Hassenstab J, Gold S, Wolf OT, et al . In search of "master mind readers": Are psychics superior in reading the language of the eyes? Brain Cogn 2005;58:240-4. |
|6||Pesenti M, Zago L, Crivello F, Mellet E, Samson D, Duroux B, et al . Mental calculation in a prodigy is sustained by right prefrontal and medial temporal areas. Nat Neurosci 2001;4:103-7. |
|7||Achterberg J, Cooke K, Richards T, Standish LJ, Kozak L, Lake J. Evidence for correlations between distant intentionality and brain function in recipients: A functional magnetic resonance imaging analysis. J Altern Complement Med 2005;11:965-71. |
|8||Roll WG, Persinger MA, Webster DL, Tiller SG, Cook CM. Neurobehavioral and neurometabolic (SPECT) correlates of paranormal information: Involvement of the right hemisphere and its sensitivity to weak complex magnetic fields. Int J Neurosci 2002;112:197-224. |
|9||Persinger MA, Roll WG, Tiller SG, Koren SA, Cook CM. Remote viewing with the artist Ingo Swann: Neuropsychological profile, electroencephalographic correlates, magnetic resonance imaging (MRI), and possible mechanisms. Percept Mot Skills 2002;94:927-49. |
|10||Richards TL, Kozak L, Johnson LC, Standish LJ. Replicable functional magnetic resonance imaging evidence of correlated brain signals between physically and sensory isolated subjects. J Altern Complement Med 2005;11:955-63. |
|11||Annett M. The binomial distribution of right, mixed and left handedness. Q J Exp Psychol 1967;19:327-33. |
|12||Goldberg DP, Gater R, Sartorius N, Ustun TB, Piccinelli M, Gureje O, et al . The validity of two versions of the GHQ in the WHO study of mental illness in general health care. Psychol Med 1997;7:191-7. |
|13||Hyman R, Honorton C. A joint communiquι: The psi Ganzfeld controversy. J Parapsychol 1986;50:351-62. |
|14||Friston KJ, Ashburner J, Frith CD. Spatial registration and normalization images. Hum Brain Mapp 1995;2:165-9. |
|15||Evans AC, Collins DL, Mills SR. 3D statistical neuroanatomical models from 305 MRI volumes. IEEE Nucl Sci Symp Med Imaging Conf Proc 1993;108:1877-8. |
|16||Holmes A, Poline J-B, Friston KJ. Characterizing brain images with the general linear model. In: Frackowiak RS, Friston KJ, Frith CD, Dolan RJ, Mazziotta JC, editors. Human Brain Function. USA: Academic Press; 1997. p. 59-84. |
|17||Genovese CR, Lazar NA, Nichols T. Thresholding of statistical maps in functional neuroimaging using the false discovery rate. Neuroimage 2002;15:870-8. |
|18||Talairach P, Tournoux JA. A stereotactic co-planar atlas of human brain. Stuttgart: Thieme; 1988. |
|19||Brett M, Johnsrude IS, Owen AM. The problem of functional localization in the human brain. Nat Rev Neurosci 2002;3:243-9. |
|20||Lancaster JL, Woldorff MG, Parsons LM, Liotti M, Freitas CS, Rainey L, et al . Automated talairach atlas labels for functional brain mapping. Hum Brain Mapp 2000;10:120-31. |
|21||Squire LR, Stark CE, Clark RE. The medial temporal lobe. Annu Rev Neurosci 2004;27:279-306. |
|22||Abu-Akel A. A neurobiological mapping of theory of mind. Brain Res Brain Res Rev 2003;43:29-40. |
|23||Frith CD, Frith U. Interacting minds: A biological basis. Science 1999;286:1692-5. |
|24||Gallese V. The roots of empathy: The shared manifold hypothesis and the neural basis of intersubjectivity. Psychopathology 2003;36:171-80. |
|25||Gorno-Tempini ML, Rankin KP, Woolley JD, Rosen HJ, Phengrasamy L, Miller BL. Cognitive and behavioral profile in a case of right anterior temporal lobe neurodegeneration. Cortex 2004;40:631-44. |
|26||Jackson PL, Brunet E, Meltzoff AN, Decety J. Empathy examined through the neural mechanisms involved in imagining how I feel versus how you feel pain. Neuropsychologia 2006;44:752-61. |
|27||Langdon R, Coltheart M, Ward PB. Empathetic perspective-taking is impaired in schizophrenia: Evidence from a study of emotion attribution and theory of mind. Cognit Neuropsychiatry 2006;11:133-55. |
|28||O'Driscoll GA, Benkelfat C, Florencio PS, Wolff AL, Joober R, Lal S, et al . Neural correlates of eye tracking deficits in first-degree relatives of schizophrenic patients: A positron emission tomography study. Arch Gen Psychiatry 1999;56:1127-34. |
|29||Jayakumar PN, Venkatasubramanian G, Gangadhar BN, Janakiramaiah N, Keshavan MS. Optimized voxel-based morphometry of gray matter volume in first-episode, antipsychotic-naive schizophrenia. Prog Neuropsychopharmacol Biol Psychiatry 2005;29:587-91. |
|30||Ganesan V, Hunter MD, Spence SA. Schneiderian first-rank symptoms and right parietal hyperactivation: A replication using FMRI. Am J Psychiatry 2005;162:1545. |
|31||Leonhard D, Brugger P. Creative, paranormal, and delusional thought: A consequence of right hemisphere semantic activation? Neuropsychiatry Neuropsychol Behav Neurol 1998;11:177-83. |
|32||Persinger MA, Healey F. Experimental facilitation of the sensed presence: Possible intercalation between the hemispheres induced by complex magnetic fields. J Nerv Ment Dis 2002;190:533-41. |
|33||Kasai K, Yamada H, Kamio S, Nakagome K, Iwanami A, Fukuda M, et al . Neuromagnetic correlates of impaired automatic categorical perception of speech sounds in schizophrenia. Schizophr Res 2003;59:159-72. |
|34||Bureau YR, Persinger MA. Geomagnetic activity and enhanced mortality in rats with acute (epileptic) limbic lability. Int J Biometeorol 1992;36:226-32.|