WO2007094699A1 - Procédé de détermination de l'aptitude de l'être humain à concentrer l'énergie de la conscience à partir de données d'électroencéphalogramme - Google Patents
Procédé de détermination de l'aptitude de l'être humain à concentrer l'énergie de la conscience à partir de données d'électroencéphalogramme Download PDFInfo
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- WO2007094699A1 WO2007094699A1 PCT/RU2006/000059 RU2006000059W WO2007094699A1 WO 2007094699 A1 WO2007094699 A1 WO 2007094699A1 RU 2006000059 W RU2006000059 W RU 2006000059W WO 2007094699 A1 WO2007094699 A1 WO 2007094699A1
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/24—Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
- A61B5/316—Modalities, i.e. specific diagnostic methods
- A61B5/369—Electroencephalography [EEG]
- A61B5/372—Analysis of electroencephalograms
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/16—Devices for psychotechnics; Testing reaction times ; Devices for evaluating the psychological state
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/16—Devices for psychotechnics; Testing reaction times ; Devices for evaluating the psychological state
- A61B5/165—Evaluating the state of mind, e.g. depression, anxiety
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/24—Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
- A61B5/316—Modalities, i.e. specific diagnostic methods
- A61B5/369—Electroencephalography [EEG]
Definitions
- the invention relates to medicine, in particular to the field of studying the ability of a person to concentrate energy of consciousness, determined according to the electroencephalogram, which reflects a person’s ability to extrasensory perception, to the energy-informational spatio-temporal structure of the active medium and can be used in testing healers, psychics, bioenergotherapists and other persons with unusual abilities.
- a known method of determining a person’s ability to expand the natural possibilities of consciousness using the transcendental meditation technique, which is accompanied by a person’s improvement in the perception of stimuli, improvement of intuition, analysis of stimuli and improvement of locomotor acts, is determined by the expansion of the zones of representation of evoked potentials in the cerebral cortex in response to peripheral stimuli (Lyubimov CH. "Structural and functional organization and reorganization of somatosensory affe of rental projections in humans in normal conditions and with damage to the central nervous system. "Abstract of thesis for the postgraduate degree. Candidate of Medical Sciences, M., 1997, p.20).
- the disadvantage of this method is that its use does not reveal the physical reality of the properties of consciousness that provide the ability to concentrate the energy of consciousness, since the conscious activity of a person is determined indirectly through neural activity that forms evoked potentials on the surface of the head.
- the known method also does not disclose properties of the physical reality of consciousness, providing the ability to concentrate Ener ⁇ ology consciousness.
- the known method can be used. only in the case of the interaction of two persons, but cannot be used to determine the ability of extrasensory perception and energy-informational impact in one person in the absence of the second and does not determine the potential, but not yet realized, abilities.
- EEG electroencephalogram
- the closest to the proposed invention is a method for determining (physiological analysis) of energy of consciousness according to the electroencephalogram, with which an increase in the value of the difference of electric potentials in the occipital and frontal areas of the right hemisphere of the brain during extrasensory perception and an increase in the value of the difference of electric potentials are evaluated in the occipital and frontal areas of the left hemisphere of the brain with non-contact movement of objects (Life Imformatiop Science journal, vol. 20, N ° 2, Ser t. 2002, p. 345, article
- the known method does not disclose the physical reality of the properties of consciousness that provide the ability to concentrate the energy of consciousness, since it is determined indirectly through changes in the electric potentials on the surface of the head without calculating the coordinates of the spatial localization of equivalent dipole potential sources of the selected frequency range.
- the invention is based on the task of increasing the reliability of determining the ability of a person to concentrate the energy of consciousness, including persons with a potential, but not yet conscious ability, as well as a differentiated definition of the properties of consciousness, expressed in the ability to extrasensory perception existence, mental (energy-informational) impact, including spatio-temporal structuring of the active medium, for example, the brain or other organ, and the ability to release consciousness energy from the body in the process of achieving an out-of-body experience (effect).
- the method of determining a person’s ability to concentrate energy of consciousness according to the electroencephalogram includes multi-channel recording of the electroencephalogram while measuring potentials from the surface of the standard points of the head and assessing the capabilities of consciousness according to the amplitude-frequency characteristics of the potentials of the cerebral cortex, in the frequency range of 0.1 ... 75 Hz, the frequency range of the oscillations of the brain potentials corresponding to the combination of the maximum values of the spectral power and coherence indicators for the above standard head points, calculate the spatial localization coordinates of equivalent dipole potential sources of the selected frequency range, assess the nature of localization, and with 30 to 100% sources with a dipole coefficient of 0.90 ...
- the essence of the claimed invention lies in the fact that the concentration of energy of consciousness is determined indirectly by the distribution (directed flow) of equivalent dipole sources calculated according to the electroencephalogram based on spatial localization algorithms of equivalent sources of brain electrical activity using a current dipole model (Gnezditsky V . V., Koptelov Yu.M., “Specific localization of sources of EEG rhythms based on the equivalent dipole model”, materials of the 8th All-Union Conference on the Electrophysiology of the Central nervous system, Yerevan, Academy of Sciences of Arm. CCP, 1980, p. 256-257).
- the coordinates of equivalent dipole sources are calculated on the basis of an algorithm into which the values of the parameters of potential oscillations recorded from the surface of the head are entered that integrally reflect brain activity, the calculation results reflect this activity in the next step of integrating the whole brain activity. Therefore, the distribution of equivalent dipole sources in the space of the interhemispheric region reflects there is a degree of symmetry of the participation of the cerebral hemispheres in activities related to the spatio-temporal structuring of the active medium and the formation of a stream of equivalent dipole sources in the process of concentration of consciousness energy.
- the direction of the flux of equivalent dipole sources is influenced by the systemic activity of the brain with alternating predominance of activity of individual regions of the right or left hemisphere, which is manifested in the temporal dynamics of extrasensory and energy-informational properties of consciousness (i.e., the ability to spatiotemporally structure the active medium, for example, the brain or another organ of an individual).
- Figure 1 presents the results of multi-channel recording of potentials from the surface of standard points of the head during a calm state of wakefulness (background)
- Fig. 2 shows an example of recording an EEG (electroencephalogram) of an operator during concentration of energy of consciousness
- FIG. 3 shows diagrams of the distribution of the spectral power of the oscillations of the EEG potentials
- FIG. 4 is a diagram showing the number of coherent bonds
- FIG. 5 (1, 2, 3) presents examples of the formation of consciousness energy flows for various types of human abilities.
- the determination of the ability to concentrate the energy of consciousness begins with the procedure of multichannel registration of EEG in the frequency range 0.1 ... 75 Hz by simultaneously diverting the brain's biopotentials for 80 ... 100 seconds from the surface of 8 ... 256 standard points of the head accepted international electrical location system trodes on the head (Nomap RW, Herman J., Purdu P. Serébal losatiop of iptematiopal 10-20 system elastrod rlacemet. EEG a. Slip. Neurhorhusiol., 1987, v.66, pp.376-382).
- the number of standard head points for recording the bio-potentials of the brain affects the accuracy of calculating the coordinates of the spatial localization of equivalent dipoles.
- the minimum number of 8 points is determined by the algorithm for numerically solving the inverse problem of electroencephalography (Koptelov Yu.M. Research and numerical solution of some inverse problems of electroencephalography. Yu. Diss. For the degree program of Ph.D. M., 1988 ), the maximum number of 256 points is a limitation associated with the technical capabilities of creating a multi-channel amplifier-encephalograph in modern production.
- rhythmic activity of the brain is activated in the ranges of 0 delta and theta oscillations (0.1 ... 7 Hz) (Aftanas L.I., Golosheykin CA. Dynamics cortical activity in an altered state of consciousness: the study of meditation using high-resolution EEG (Human Physiology, 2003, v.29, N ° 2, p. 18-27), with extrasensory perception - additionally in the range of beta and 5 gamma oscillations (13 ...
- the values of the spectral power of the EEG in a certain frequency range correspond according to the data of neurophysiology of logical studies (Zenkov L.P., Ronkin M.A. Functional diagnosis of nervous diseases. M., "Medicine", 1991, p.640 ) involvement in the activity of neurons with refractory periods corresponding to this frequency range.
- An increase in the spectral power value may be due to both an increase in the number
- frequency clusters are distinguished by indicators of alternating maxima and minima of the spectral power values and 5 are compared with indicators of coherence.
- the values of the previous and subsequent minima are taken with respect to the maximum of the spectral power indices.
- the criterion of novelty is the sign of the allocation of a frequency cluster with a maximum spectral power, the frequency of which at the same time corresponds to the maximum number of coherent connections between regions of the cerebral cortex with a coherence coefficient of 0.8 ... 1.
- EEG data is filtered, highlighting the rhythmic fluctuations of the potential in the frequency range of the found cluster, and according to
- the distribution of equivalent dipole sources in the space of the interhemispheric region reflects the degree of symmetry of the participation of the cerebral hemispheres in activities related to the spatio-temporal structuring of the active medium and the formation of energy flow in the process of concentration of consciousness energy.
- the concentration of energy of consciousness is affected by the systemic activity of the brain with alternating predominance of activity of individual areas of the right or left hemisphere, which is manifested in the time dynamics of extrasensory and energy-informational 15 properties of consciousness of an individual human operator.
- the declared decision has optional attributes characterizing its particular cases, specific forms of its execution, namely:
- the numbers on the left side indicate areas of the cerebral cortex corresponding to the following values of standard points of the head: 1 - Fz (central frontal); 2 - F4 (right frontal); 3 - C4 (right center); 4 - P4 (right parietal); 5 - O2 (right occipital); 6 - Cz (central sagittal); 7 - F ⁇ (left frontal); 8 - SZ (left central); 9 - RE 5 (left parietal); 10 - Ol (left occipital); 11 - F8 (right frontotemporal); 12 - T4 (lower right central); 13 - T6 (right lower shadow); 14 - F7 (left frontotemporal); 15 - TK (lower left central); 16 - T5 (left lower shadow).
- the time scale is 1 second, on the right is the value of the potential difference 50 ⁇ V.
- FIG. Figure 2 gives an example of recording the operator's EEG during concentration of consciousness energy.
- the designations are the same as in FIG. 1.
- FIG. Figure 3 shows the distribution diagrams of the spectral power of the oscillations of the EEG potentials.
- the numbers indicate the corresponding standard points on the surface of the head, as in FIG. 1.
- FIG. Figure 4 presents diagrams reflecting the number of connections between 16 regions of the cerebral cortex corresponding to 16 standard points on the surface of the head, determined by the coherence coefficient of 0.8 ... 1 (scale on the right) at each frequency with 5 steps of 1 Hz in the range 0 .. .7 Hz (scale below). The maximum number of bonds is observed in the range of 80 ... 100 at a frequency of 5 ... 6 Hz.
- FIG. Figure 5-1 gives an example of a stream of consciousness energy emanating from the center of the brain and directed to the forehead of the right hemisphere in an operator with extrasensory abilities.
- the coordinates of the equivalent dipole current sources highlighted in white are given in accordance with the coordinate axes of the brain schematic.
- the X axis passes between the central points of the nasolabial fossa (passiop) and the occipital protuberance (ipiop); Y axis - between the central points of the ear holes; the Z axis is the line perpendicular to the intersection point of the X and Y axes.
- Brain diagrams are given: A - projection from the side from left to right, B - projection from top to bottom, C - projection from front to back. In the lower left corner is given the scale of the length of the axes (cm).
- FIG. Figure 5-2 gives an example of a stream of energy of consciousness emanating from the center of the brain and directed to the forehead of the left hemisphere, in an operator with the ability of energy-informational influence. Designations as in FIG. four.
- FIG. Figure 5-3 gives an example of a stream of consciousness energy directed from the zone of the rostral part of the brain stem to the surface of the head in the crown area of an operator with out-of-body perception. 5
- the implementation of the method is as follows.
- the human operator is located in a room equipped for electroencephalography with sensors of brain biopotentials attached to the head. Operator sensors are switched with an electroencephalograph.
- a standard international scheme of biopotential lead leads from the surface of the head is used (Nomap RW, Herman J., Purdu P. 5 Cerebral location of international 10-20 sustem elstgod rlacemet. EEG a. CHn. Neurhusiol., 1987, ⁇ .66, p ⁇ . 376-382).
- a monopolar lead system is used, where an integrated pair of ear sensors is connected as an indifferent one.
- Brain biopotentials from electroencephalograph amplifiers are entered into a computer using an analog-to-digital converter and form files in the operator’s database. After viewing the files, checking and eliminating artifacts, the EEG is processed in the frequency band of 0.1 ... 75 Hz using computer programs for spectral and coherent analysis.
- the EEG used the method of fast Fourier transform (J. J. W., Tuke J. W. An Algorithm forte Mashepe Salutiop of Comlex Forrieres. Mathematic of Comtatiop, 1965, v. 19, No. 90, p. 97).
- the energy 0 in the time domain is equal to the energy in the frequency domain, i.e. the mean square of the signal amplitude is equal to the total power of the spectrum.
- the dispersion i.e., the averaged squared amplitude
- the spectral power in this range (A. Mitrofanov, Computer-aided system for analysis and topographic mapping of electrical activity Brain “Vraipsus. Statokin, 1999, p.65).
- the indicators of the coherence of potential fluctuations between separate regions of the cerebral cortex at a frequency of of the selected cluster and determine the number of coherent bonds by indicators of the coherence function A 2 xy , having values of 0.8 ... 1 between all areas of the cerebral cortex.
- the coherence analysis is based on the use of coherence functions (Bendat D., Pirsol A. Applications of correlation and spectral analysis. M., 1983, p. 312).
- the frequency range of the oscillations of the brain potentials corresponding to the combination of the maximum values of the spectral power and coherence is selected, then the potential fluctuations are filtered within the selected frequency range and the three-dimensional localization coordinates of the equivalent dipole sources of potentials are calculated, and then the nature of localization is determined sources, and when 30 ... 100% of sources with a dipole coefficient equal to 0.90 ... I 5 OO 5 in directional flow
- the flow direction is determined by the distribution of equivalent dipole potential sources of the selected frequency range 0.
- the properties of consciousness are determined, expressed in extrasensory perception, energy-informational impact and out-of-body experience (effect).
- Example 1 During an extrasensory diagnosis of the patient's condition, healer P. EEG was recorded - extrasensory. The results of multi-channel recording of potentials from the surface of 16 standard points of his head during a state of calm wakefulness (background) are presented in Figure 1, and the results during concentration of energy of consciousness in the process of extrasensory perceptions are presented in figure 2. Compared with the registration data during a state of calm wakefulness, the features of the EEG during extrasensory perception are expressed in periodic changes in the EEG rhythm - a decrease in the amplitude of the main alpha-5 rhythm with a frequency of 8 ... 13 vibrations per second and an increase in the amplitude of the theta rhythm with a frequency of 5.
- EEG is filtered in the frequency band of 5 ... 6 Hz and the distribution of equivalent dipole sources of the origin of the EEG rhythm of 5 ... 6 Hz is calculated.
- Equivalent dipole current sources are distributed in the form of a directed flow coming from the depth of the brain and entering the frontal region of the right hemisphere ( Figure 5-0 1).
- the observed phenomenon reflects the ability of the healer P. to concentrate the energy of consciousness, accompanied by extrasensory perception - diagnosis, and corresponds to the claimed signs according to paragraphs. 1 and 2 of the claims.
- Example 2 During the energy-informational effect of the healer L., a bioenergotherapist, the patient was performed to record the EEG of the healer. After the registration of the EEG, spectral and coherent analysis, and the allocation of the frequency range with the maximum values of the spectral of power and coherence, the coordinates of the equivalent dipole sources of potential oscillations are calculated and their directional flow coming from the depth of the brain and entering the forehead of the left hemisphere is determined ( Figure 5-2). The observed phenomenon reflects 5 the ability of the healer L. to concentrate the energy of consciousness, accompanied by energy-informational impact, and corresponds to the claimed signs in p.p. 1 and 3 of the claims.
- Example 3 During testing of test subject V. for the ability to achieve an out-of-body experience (effect), the EEG was recorded, spectral and coherent analysis, and the frequency range was selected with the maximum values of the spectral power and coherence indicators. Then we calculated the coordinates of the equivalent dipole sources of potential oscillations and determined the direction of their flow, ascending from the center of the brain to
- the stated advantages of the proposed method provide the possibility of its use for testing healers and persons involved in psychotechnics, as well as for monitoring the development of natural capabilities of consciousness and self-regulation of health, including those with a potential, but not yet conscious ability to concentrate the energy of consciousness.
- the proposed method can be used for an expert assessment of a person’s abilities when applying for healing courses, in the preparation and training of techniques (methods) for the development of extrasensory, energy-informational, psychokinetic capabilities, as well as for the selection and assessment of the professionalism of healers, psychics, bioenergotherapists and other individuals with unusual abilities.
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Abstract
La présente invention relève du domaine de la médecine et concerne en particulier l'étude de l'aptitude d'un être humain à l'égard de la perception extrasensorielle, de la guérison et de la réalisation d'expériences hors du corps (effet). Pour accroître la fiabilité de détermination de l'aptitude d'un être humain à concentrer l'énergie de la conscience, le procédé de cette invention consiste à réaliser un enregistrement multicanaux d'un électroencéphalogramme tout en mesurant les potentiels depuis des points standards du crâne et à évaluer les degrés de conscience selon des caractéristiques d'amplitude et de fréquence des potentiels du cortex cérébral, à calculer les coordonnées de localisation spatiale de sources dipolaires équivalentes de potentiels de la gamme de fréquences attribuée, à évaluer le caractère de localisation et à déterminer l'aptitude de l'être humain à l'égard de la perception extrasensorielle, de la structuration spatio-temporelle d'un milieu actif ou de la réalisation d'effet hors du corps.
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Citations (2)
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WO2002100267A1 (fr) * | 2001-06-13 | 2002-12-19 | Compumedics Limited | Methodes et dispositif pour diriger la conscience |
RU2214164C1 (ru) * | 2002-04-30 | 2003-10-20 | Государственное учреждение "Российский научно-исследовательский нейрохирургический институт им. проф. А.Л. Поленова" | Способ прогнозирования исходов лечения больных с персистирующим вегетативным состоянием |
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Publication number | Priority date | Publication date | Assignee | Title |
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WO2002100267A1 (fr) * | 2001-06-13 | 2002-12-19 | Compumedics Limited | Methodes et dispositif pour diriger la conscience |
RU2214164C1 (ru) * | 2002-04-30 | 2003-10-20 | Государственное учреждение "Российский научно-исследовательский нейрохирургический институт им. проф. А.Л. Поленова" | Способ прогнозирования исходов лечения больных с персистирующим вегетативным состоянием |
Non-Patent Citations (1)
Title |
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KUKSOVA N.S. ET AL.: "Lokakizatsya ekvivalentnykh dipolnykh istochnikov fenomena bilateralno-sinkhronoi generalizovannoi aktivnosti na EEG metodom "BRAINLOC". Dipolnye istochniki ritmov EEG v neirofiziologii i klinike. Rabochee Soveschanie", MOSCOW, INSTITUT VYSSHEI NERVNOI DEYATELNOSTI I NEIROFIZIOLOGII RAN, ASSOTSYATSYA KLINICHESKIKH NEIROFIZIOLOGOV I ENTSEFALOGRAFTISTOV, 2002, pages 29 - 30 * |
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