Autonomic and EEG Patterns during Eyes-Closed Rest and Transcendental Meditation (TM) Practice: The Basis for a Neural Model of TM Practice

In this single-blind within-subject study, autonomic and EEG variables were compared during 10-min, order-balanced eyes-closed rest and Transcendental Meditation (TM) sessions. TM sessions were distinguished by (1) lower breath rates, (2) lower skin conductance levels, (3) higher respiratory sinus arrhythmia levels, and (4) higher alpha anterior-posterior and frontal EEG coherence. Alpha power was not significantly different between conditions. These results were seen in the first minute and were maintained throughout the 10-min sessions. TM practice appears to (1) lead to a state fundamentally different than eyes-closed rest; (2) result in a cascade of events in the central and autonomic nervous systems, leading to a rapid change in state (within a minute) that was maintained throughout the TM session; and (3) be best distinguished from other conditions through autonomic and EEG alpha coherence patterns rather than alpha power. Two neural networks that may mediate these effects are suggested. The rapid shift in physiological functioning within the first minute might be mediated by a "neural switch" in prefrontal areas inhibiting activity in specific and nonspecific thalamocortical circuits. The resulting "restfully alert" state might be sustained by a basal ganglia-corticothalamic threshold regulation mechanism automatically maintaining lower levels of cortical excitability.

[1]  F. Travis,et al.  Pure Consciousness: Distinct Phenomenological and Physiological Correlates of “Consciousness Itself” , 2000, The International journal of neuroscience.

[2]  R. Kawashima,et al.  Participation of the prefrontal cortices in prospective memory: evidence from a PET study in humans , 1998, Neuroscience Letters.

[3]  Peter Achermann,et al.  Temporal evolution of coherence and power in the human sleep electroencephalogram , 1998, Journal of sleep research.

[4]  G. Pfurtscheller,et al.  Do changes in coherence always reflect changes in functional coupling? , 1998, Electroencephalography and clinical neurophysiology.

[5]  Mitsuru Kikuchi,et al.  Abnormal functional connectivity in Alzheimer’s disease: intrahemispheric EEG coherence during rest and photic stimulation , 1998, European Archives of Psychiatry and Clinical Neuroscience.

[6]  Ichiro Shimoyama,et al.  The time course of interhemispheric EEG coherence during a GO/NO-GO task in humans , 1997, Neuroscience Letters.

[7]  H Hirasawa,et al.  Quantitative EEG Correlates of Normal Aging in the Elderly , 1997, Clinical EEG.

[8]  H. Petsche,et al.  The possible meaning of the upper and lower alpha frequency ranges for cognitive and creative tasks. , 1997, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[9]  M. Hallett,et al.  Event-related coherence and event-related desynchronization/synchronization in the 10 Hz and 20 Hz EEG during self-paced movements. , 1997, Electroencephalography and clinical neurophysiology.

[10]  G. Marsh,et al.  Electrophysiological correlates of higher states of consciousness during sleep in long-term practitioners of the Transcendental Meditation program. , 1997, Sleep.

[11]  S H Uijtdehaage,et al.  Brain structure and function and the outcomes of treatment for depression. , 1997, The Journal of clinical psychiatry.

[12]  F. Travis,et al.  Autonomic patterns during respiratory suspensions: possible markers of Transcendental Consciousness. , 1997, Psychophysiology.

[13]  G. Berntson,et al.  Autonomic interactions and chronotropic control of the heart: heart period versus heart rate. , 1996, Psychophysiology.

[14]  J. Douillard,et al.  Invincible Athletics program: aerobic exercise and performance without strain. , 1996, The International journal of neuroscience.

[15]  S. Porges Orienting in a defensive world: mammalian modifications of our evolutionary heritage. A Polyvagal Theory. , 1995, Psychophysiology.

[16]  Bernard J. Baars,et al.  Tutorial Commentary: Surprisingly Small Subcortical Structures Are Needed for the State of Waking Consciousness, while Cortical Projection Areas Seem to Provide Perceptual Contents of Consciousness , 1995, Consciousness and Cognition.

[17]  W. Orrison Functional Brain Imaging , 1995 .

[18]  J. Saint-Cyr,et al.  Behavior and the basal ganglia. , 1995, Advances in neurology.

[19]  Raymond P. Kesner,et al.  Item and order dissociation in humans with prefrontal cortex damage , 1994, Neuropsychologia.

[20]  F. Travis,et al.  A second linked-reference issue: possible biasing of power and coherence spectra. , 1994, The International journal of neuroscience.

[21]  F. Travis The junction point model: A field model of waking, sleeping, and dreaming, relating dream witnessing, the waking/sleeping transition, and Transcendental Meditation in terms of a common psychophysiologic state. , 1994 .

[22]  M. Posner,et al.  Images of mind , 1994 .

[23]  I. Daum,et al.  Frontal-type memory impairment associated with thalamic damage. , 1994, The International journal of neuroscience.

[24]  M. Farah,et al.  A unified account of cognitive impairments following frontal lobe damage: the role of working memory in complex, organized behavior. , 1993, Journal of experimental psychology. General.

[25]  Paul J. Eslinger,et al.  Frontal lobe and frontal-striatal substrates for different forms of human cognitive flexibility , 1993, Neuropsychologia.

[26]  G. Pfurtscheller Event-related synchronization (ERS): an electrophysiological correlate of cortical areas at rest. , 1992, Electroencephalography and clinical neurophysiology.

[27]  Y Donchin,et al.  Cardiac vagal tone predicts outcome in neurosurgical patients , 1992, Critical care medicine.

[28]  P. Venables,et al.  A major effect of recording site on measurement of electrodermal activity. , 1992, Psychophysiology.

[29]  John E. Hunter,et al.  Methods of Meta-Analysis: Correcting Error and Bias in Research Findings , 1991 .

[30]  G. Farthing,et al.  The psychology of consciousness , 1991 .

[31]  P. Grossman,et al.  Prediction of tonic parasympathetic cardiac control using respiratory sinus arrhythmia: the need for respiratory control. , 1991, Psychophysiology.

[32]  Information Search following Damage to the Frontal Lobes , 1990, Psychological reports.

[33]  G Oakson,et al.  Neuronal activities in brain-stem cholinergic nuclei related to tonic activation processes in thalamocortical systems , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[34]  D. Orme-Johnson,et al.  The effects of the transcendental mediation technique and progressive muscle relaxation on EEG coherence, stress reactivity, and mental health in black adults. , 1989, The International journal of neuroscience.

[35]  S. Bressler,et al.  Event-related covariances during a bimanual visuomotor task. I. Methods and analysis of stimulus- and response-locked data. , 1989, Electroencephalography and clinical neurophysiology.

[36]  G Fein,et al.  Common reference coherence data are confounded by power and phase effects. , 1988, Electroencephalography and clinical neurophysiology.

[37]  D. Orme-Johnson,et al.  Physiological differences between transcendental meditation and rest. , 1987 .

[38]  EEG Changes of Transcendental Meditation Practitioners1 , 1987 .

[39]  Thomas Elbert,et al.  Threshold regulation - a key to the understanding of the combined dynamics of EEG and event-related potentials , 1987 .

[40]  R. Thatcher,et al.  Cortico-cortical associations and EEG coherence: a two-compartmental model. , 1986, Electroencephalography and clinical neurophysiology.

[41]  G. E. Alexander,et al.  Parallel organization of functionally segregated circuits linking basal ganglia and cortex. , 1986, Annual review of neuroscience.

[42]  M M Mesulam,et al.  Reversible go–no go deficits in a case of frontal lobe tumor , 1985, Annals of neurology.

[43]  P. Storace Varieties of religious experience , 1985 .

[44]  M. West Meditation and somatic arousal reduction , 1985 .

[45]  D. S. Holmes Meditation and somatic arousal reduction. A review of the experimental evidence. , 1984, The American psychologist.

[46]  D. Siddle,et al.  Orienting and habituation : perspectives in human research , 1983 .

[47]  A simple respiration transducer. , 1982, Electroencephalography and clinical neurophysiology.

[48]  G. Glass,et al.  Meta-analysis in social research , 1981 .

[49]  D. Orme-Johnson,et al.  EEG phase coherence, pure consciousness, creativity, and TM--Sidhi experiences. , 1981, The International journal of neuroscience.

[50]  M. Dillbeck,et al.  Short-term longitudinal effects of the transcendental meditation technique on EEG power and coherence. , 1981, The International journal of neuroscience.

[51]  J. Fuster Prefrontal Cortex , 2018 .

[52]  L. Garey,et al.  The use of ibotenic acid lesions for light and electron microscopic study of anterograde degeneration in the visual pathway of the cat , 1980, Neuroscience Letters.

[53]  Gert Pfurtscheller,et al.  Progress in clinical neurophysiology. Vol. 1. Attention, voluntary contraction and event-related cerebral potentials: J.E. Desmedt (Ed.) (Karger, Basel, 256 p., 95 figs., 6 tab., 1977, DM 98.—) , 1979 .

[54]  J E Skinner,et al.  Regulation of slow potential shifts in nucleus reticularis thalami by the mesencephalic reticular formation and the frontal granular cortex. , 1976, Electroencephalography and clinical neurophysiology.

[55]  S. Warrenburg,et al.  Sleep during transcendental meditation. , 1976, Science.

[56]  Andris K. TebeTcis,et al.  A Controlled Study of the EEG During Transcendental Meditation: Comparison With Hypnosis , 1975 .

[57]  R. Berger,et al.  Sleep during Transcendental Meditation , 1975, Perceptual and motor skills.

[58]  R. K. Wallace,et al.  Physiological Effects of Transcendental Meditation , 1970, Science.

[59]  R. Sternbach,et al.  Principles of Psychophysiology , 1966 .

[60]  F. Plum Handbook of Physiology. , 1960 .