RU2180516C2 - Method for electropuncturing diagnosis of human organism condition - Google Patents

Abstract

FIELD: medicine, reflexodiagnosis and may be applicable for diagnosis of physiologic and mental state. SUBSTANCE: biologically active points of twelve twin meridians are subjected to action with simultaneous measurement of skin conductance. To this end, the biologically active points are subjected to action by electric current of negative polarity during at least 3s. The current strength does not exceed 10 μΑ. The state of the meridians is calculated according to the obtained values of conductance of the biologically active points. The general condition, form of pathology, psychological type are determined on the strength of the aggregate of the states of the meridians. EFFECT: enhanced efficiency of diagnosis. 1 dwg, 8 tbl

Description

 The invention relates to medical devices used to determine the location or stimulation of specific reflex points on the surface of the body, and in particular to means for electropuncture diagnostics of the state of the human body, and can be used to diagnose the state of the body as a whole, including psychological.

 There are various methods for diagnosing diseases, based on measuring the bioelectric potentials of the skin, consisting in applying two electrodes to the skin and taking measurements of DC resistance [F.G. Tailors. Electropuncture reflexology. Riga, "Zinatne", 1988, pp. 5-11].

 According to these methods, the pathological zones of the examined patient are established by reducing the electrical resistance of the skin areas 10-15 times lower than the resistance of the remaining parts of the body surface.

 These methods do not allow to reliably diagnose the condition of patients, since the same skin areas are connected in some cases with different human organs, and therefore can not provide information about the degree of illness of the subject.

 More advanced are diagnostic methods based on electrical studies of acupuncture points used in reflexology.

 Diagnostic methods based on this principle are based on the effect of direct electric current on acupuncture points, followed by measurement of the conductivity of the points and meridians of the right and left hands [RF Patent 2007987, RF Patent 2007988, Patent 2007990, MKI 6 A 61 H 39/00, 1991 .] In this case, a metal plate is connected to the passive electrode circuit, on which enterosorbent is placed. These methods are quite laborious and not accurate enough.

 The essence of these methods lies in the fact that conductivity measurements of biologically active points (BAP) of 12 paired meridians (24 or 12 points on the left and right) are carried out. At the same time, a positive potential is supplied to the electrode installed in the BAP, and a negative potential is supplied to the electrode clamped in the hand. Then the average electrical conductivity of all meridians is determined.

 The results of measurements of electrical conductivity are entered into a diagnostic card made on a carrier in the form of a frame divided into 26 (13) vertical cells, in the extreme of which on both sides the average (statistical) electrical conductivity of all meridians (determined empirically) is connected, corridor within the error ± 5, which is defined as the physiological corridor of the norm, and in the remaining 24.

 However, these diagnostic methods did not find wide application because of low accuracy, since a constant value of the physiological standard corridor is used for all people and a different scale of 24 (12) vertical cells of the diagnostic map is not always justified (manual - less meridians, more foot ones ), this does not allow to fully take into account the individual properties of the normal BAT electrical conductivity of each person.

 Partially, these disadvantages were eliminated in the method of electropuncture diagnostics [RF patent 2011373, cl. A 61 H 39/00, application. 1992, publ. 04/30. 1994], which includes the action of an electric current of both positive and negative polarity of 2-10 μA for 1-3 s on the BAT of acupuncture of the right twelve pair meridians, measuring the electrical conductivity of these BAT. The measured conductivity values are entered in the diagnostic table. In this case, the measurement results when the current is negative polarity simulates the state of the meridians of the left half of the body, positive - the right. Then the calculations are made: the biopotential as the absolute difference in electrical conductivity when exposed to currents of different polarity, the sum of all biopotentials, the average value of the potential, the standard deviation of the biopotential for 12 meridians. The biopotential value of each meridian is normal if it does not go beyond the standard deviation from the average potential value of a given patient. The strength vector of each meridian is also determined by comparing the electrical conductivity of each previous meridian to each subsequent meridian, the magnitude of it is taken as the absolute difference between these values, and the direction of its vector is from greater to less conductivity. If the direction of the vector coincides with the traditional one, then it is defined as direct, if it does not coincide, then as the opposite. The ratio of the absolute value of the tension vector to the biopotential of the meridian in percent, which is called the energy load of the meridian, is determined, it characterizes the degree of disease of the main organ for which the meridian is responsible. Percentage of the meridian is defined as the ratio of the sum of the energy loads of the meridian to the biopotential of the meridian. It characterizes the pain syndromes of the body and is compared with the stress of the body, which is defined as the ratio of the sum of all tension vectors to the sum of all biopotentials of meridians. The pathology in the organs is determined by comparing the tension of each meridian with the stress of the body.

 Determination of additional characteristics improves the accuracy of diagnosis.

 But this method has a number of significant drawbacks.

 Firstly, the current is applied to the BAP within 1-3 s, for such a short time interval the maximum value that appears on the indicator at the time of exposure is fixed, and this maximum value is used for diagnostics.

 But for the diagnosis of the general condition of the body, including the mental one, the maximum leap is not indicative, since this is an indicator of a possible emotional outburst associated, for example, with the first pain or others.

 Secondly, exposure to a positive polarity current has a sedative effect (energy reduction - decrease in relative conductivity) [V.D. Molostov. "Guide to the techniques of acupressure, electro- and acupuncture in the treatment of various diseases", Minsk, Ed. 000 "The Modern Word", 1997]. Therefore, measurements when exposed to current of positive polarity are not accurate and introduce a significant error into the diagnosis.

 In addition, as can be seen from the description, they act only on the BAT on the right side with currents of negative and positive polarity, and the states of the meridians of the left half of the human body are modeled on the basis of measurements of the BAT conductivity when exposed to a current of negative polarity, which cannot give an accurate assessment of the state of paired organs, for which the left meridians are responsible for their various pathologies (stones in the left kidney, damage to the left lung, etc.).

 All of the above reasons do not allow to obtain reliable information about the psychological state of a person, without which diagnostics and treatment are ineffective.

 The task of the invention is to increase the reliability of the diagnosis by increasing the accuracy of measurements of the conductivity of the BAT and determining the psychological state of a person (his psychological type).

The problem is solved in that in the known method of electro-puncture diagnostics, including exposure to an electric current of not more than 10 μA on acupuncture biologically active points (BAP) of 12 paired meridians with simultaneous measurement of the electrical conductivity of the skin at representative points, registration of measurement results and determination of absolute differences in electrical conductivity between the subsequent and previous meridians in the hourly cycle of activity, they are exposed to an electric current of negative polar spans for at least 3 s per person and additionally determine the difference between the electrical conductivity of the right and left meridians, the average electrical conductivity of all the meridians, the average absolute difference in electrical conductivity of the twelve meridians, the average absolute difference between the electrical conductivity of the left and right meridians, the value of the physiological normal range as the sum of the last two differences, and the value of the physiological risk corridor as twice the size of the normal corridor, the relative excitation of the meridian as rel the ratio of the absolute difference in its electrical conductivities to the average value of the absolute differences in electrical conductivities of all meridians, after which the state of the meridian is determined by comparing the electrical conductivity of the meridian with the corridor of norm and relative excitation of the meridian, and if
(EPP + EPL) / (2СЭ + КР)> 1, OB> 1.5, then the meridian function is considered to be very high, if
(EPP + EPL) / (2СЭ + КН)> 1, OB≤1.5, then the meridian function is considered slightly overestimated, but if
(EPp + EPl) / (2SE-KR) <1, OB <0.67, then the meridian function is considered significantly underestimated, but if
(EPP + EPL) / (2SE-KN) <1, OB≥0.67, then the meridian function is considered to be underestimated slightly, and when
(EPP + EPL) / (2SE-KN) (1≥5) and
when (EPP + EPL) / (2СЭ + КН) ≤1, 0.67≤OB≤1.5 (6), then the meridian function is considered normal,
Where
EPP - electrical conductivity of the right meridians,
EPL - electrical conductivity of the left meridians,
SE - average electrical conductivity of meridians,
KR - the risk corridor,
KN - the corridor of the norm,
OM - relative excitation,
and the general condition, forms of pathology and psychological type are diagnosed by the totality of the states of the meridians separately left and right, manual and foot, centrifugal and centripetal, Yin and Yang.

 A comparative analysis of the proposed solution with the prototype shows that the claimed method differs from the known one in that they act with a negative polarity current for at least 3 seconds on the BAP of 12 paired meridians, measure the electrical conductivity at these points, and diagnose the state of the body by comparing the electrical conductivity of the meridian with the location of the corridor norms defined as the sum of the average absolute difference in electrical conductivity of the twelve meridians and the average absolute difference between the electrical conductivity of the left and right meridians, analysis of the relative excitability of the meridian, defined as the ratio of the absolute difference in its electrical conductivity to the average value of the absolute difference in electrical conductivity of all meridians.

 Thus, the claimed method meets the criterion of "novelty."

 The essence of the proposed solution is as follows.

 As you know, the human body is a complex system in which psychological characteristics are inextricably linked with the functional state of its organs and systems. The individual personality traits largely determine the physiological processes taking place in the body, and vice versa, a change in the functioning of individual organs leads to an accentuation of certain psychological characteristics.

 The psychological type of personality (archetype) is an innate mental structure that defines a specific type of information exchange of the individual with the environment. But with pathological changes in the organs of a person, a change in his psychological type is possible. And, conversely, when the psychological type changes as a result of external influences, certain measurements take place in the human body [Jung K. G. Psychological types. Moscow, ACT "University Book", 1992; Maslyaev O.I. Psychology of Personality. - Donetsk, "Stanker", 1997].

 According to Jung’s typology, people can be divided into types according to the following characteristics: extrovert (E), introvert (I), sensoric (S), intuitive (N), logician (T), ethics (F), irrationalist (P).

 Studies conducted by many doctors and psychologists in the study of the dependence of the electrical conductivity of the skin near representative BAT meridians of a person on the state of his organs and the accentuation of the characteristics of the archetype (see Table A), it was found that, for example, corresponds to the syndrome of "JAN" (in the vast majority of cases ) high electrical conductivity and excited state of the meridians, and the syndrome "YIN" - low electrical conductivity and inhibited state of the meridians [V.D. Molostov "Guide to the use of acupressure, electric current and acupuncture in the treatment of various diseases." Minsk, "The Modern Word", 1997].

 The energy state of meridians is determined by the electrical conductivity of biologically active points (BAP), that is, places on the human body where you can feel the flow of vital energy.

 Therefore, it is possible to evaluate the state of meridians from the data of conductivity measurements obtained with a stable state of BAT, i.e. when there will be a stable reading on the device.

 The experiments showed that the minimum time during which a stable reading was established on the instrument was at least 3 seconds, and a maximum after 10-15 seconds. The duration of this period depends on the patient's condition, testing time, gender and other facts.

 Studies have shown that exposure to a positive polarity current has a quick sedative effect (energy reduction - decrease in relative conductivity).

 Therefore, measurements when exposed to current of positive polarity are not accurate and introduce a significant error into the diagnosis. Whereas negative currents either do not excite or are insignificant at all, and indications obtained in this way can give more reliable data for the diagnosis.

 Thus, the new mode of exposure and measurement allows us to increase the accuracy of measurements of the BAT conductivity, which allows us to determine the energy state of meridians for which these points are representative, and therefore the psychological state of a person (his psychological type), and thereby increase the reliability of the diagnosis of general state of the body, which allows us to conclude that the criterion of "inventive step".

 The method is as follows.

 To obtain information about the state of organs and systems of the test person, the relative electrical conductivity of the skin is measured near representative BAT (P9, G15, E42, RP3, C7, IG5 (IG4), V65 (V64), R3 (R4), MC7, TR4, VB40, F2 ( F3) of each of the twelve meridians under the influence of direct current. In brackets are indicated additional points that can be used in case of damage to the skin at the locations of the main representative points.

 The examination is carried out by the device for electropuncture exposure, which contains active and passive electrodes, a power source, a measurement unit.

 The pressure strength of the active electrode of the diagnostic tool at representative points should correspond to the maximum deflection of the arrow on the gauge. In this case, the passive electrode is held in the opposite hand if the conductivity of the hand meridians (P, MS, C, IG, TR, GI) is measured and in any hand if the conductivity of the foot meridians (P, F, R, V, VB, F) is measured .

 The passive electrode is held by three fingers (index and middle) of one hand, and representative points are found on the other hand and both legs and an active electrode is applied to them, made in the form of a tip with a diameter of 7 mm. Moving the electrode in different directions in the vicinity of the proposed point by 1.5-2 mm, determine the place where the reading of the device is maximum, slightly pressing the electrode. After the readings of the device become constant (stable), the results of measurements and analysis are entered in the diagnostic card, a diagram of which is shown in the drawing.

 The card is made on media in the form of a frame, divided horizontally into three parts.

 In the upper part there is a diagram - a pointer to biologically active points on the right and left limbs, in which conductivity is measured - these are P9, G15, E42, RP3, C7, IG5 (IG4), V65 (V64), R3 (R4), MC7, TR4, VB40, F2 (F3). In brackets are indicated additional points that can be used in case of damage to the skin at the locations of the main representative points.

 The lower part of the map is divided vertically into 3 sections.

 Tabular symptoms are entered in the left section of the central part of the map: medical problems, psychological problems, and in its right section are the results of the patient’s examination and questioning: physiological data, identified problems according to the examination results.

 The central vertical section is divided into 8 vertical cells.

 The extreme cells on the left and on the right are scale bars of electrical conductivity. 6 central cells, according to the theory of "five elements" [V. D. Molostov "Reference on the use of acupressure, electric current and acupuncture in the treatment of various diseases." Minsk, "The Modern Word", 1997] from left to right are named: metal, earth, fire on the left and water, fire and wood on the right. Each cell is divided into 2, meridians corresponding to these elements, representative of these BAT meridians on the left and right limbs.

 For the left limb it will be: metal - P (9), G1 (5), earth - E (42), RP (3), fire (L) - C (7), IG (5 or 4), for the right - water - V (65 or 64), fire (P) - MS (7), TR (P) tree - VB (40) F (2 or 3).

 The same data is plotted below where the scale bars end.

 Under this column, two horizontal cells are indicated: in the first of which the direction vectors of energy are shown with a centrifugal direction (from the brain ->) and centripetal (to the brain <-), in the second - the time of the most activity in the daily cycle corresponding to each meridian .

In the corresponding cells under these graphs are recorded the results of measurements of the electrical conductivity of the right EPP and EPL of the left meridians and structural sticks are drawn. They are obtained by connecting among themselves in the columns of each meridian points corresponding to the measured values of EPP and EPL. Then the necessary characteristics are calculated and entered into the appropriate cells of the map to determine the state of meridians:
1. Absolute differences between the values of the electrical conductivities of the subsequent and previous hourly activity cycles of meridians (separately, right and left):
An (P) = | EPn (GI) - EPn (P) (1),
Al (P) = | EPL (GI) -EPL (P) (2)
2. The differences between the electrical conductivity of the right and left meridians:
PL (P) = EPn (P) -EPl (P) (3),
PL (GI) = EPP (GI) -EPL (GI) (4).

3. The average conductivity of the meridians:
SE = [EPP (P) + EPL (P) + EPP (GI) + EPL (GI) + ... + EPP (F) + EPL (F)] / 24 (5).

 Through the columns of the corresponding meridians in the diagnostic table, a horizontal line is drawn through the points corresponding to the SE value.

4. The average value of the absolute differences in the electrical conductivity of the twelve meridians:
Ac = [An (P) + Al (P) + An (GI) + A (GI) + ... An (F) + Al (F)] / 24 (6).

5. The average value of the absolute values of the differences between the right and left indicators of the electrical conductivity of the meridians:
PLS = [| PL (P) | + | PL (GI) | + | ... | + | PL (F) |] / 12 (7),
6. The value of the physiological corridor of the norm:
KN = Ac + PLs (8).

 On the diagnostic card, two parallel lines are drawn on both sides of the midline at the same distance from it, equal to KH / 2.

7. The value of the physiological risk corridor:
KP = 2 • KH (9).

 On the diagnostic map, two parallel lines of the risk corridor are drawn in the same way as the normal corridor was built.

8. The values of the relative excitations of each of the twelve meridians:
ORP (P) = An (P) / Ac (10),
OVl (P) = Al (P) / Ac (11),
OB (P) = [ORP (P) + OBL (P)] / 2 (12).

 Experimental studies have established that the meridian is excited at OB> 1.5, inhibited at OB <0.67, normally 0.67 ≤ OB ≤ 1.5.

 9. The sums of the values of the absolute differences in the electrical conductivities (A) of the meridians with the centrifugal direction of energy (from the brain) and centripetal (to the brain), separately of the manual and foot meridians of RCSC, RCBC, RCSCl, RCBL, NCSC, NCBp, NCSC, NCB.

10. The imbalance (significant difference) of the sums (S) of the absolute differences in the electrical conductivities of the meridians:
of the "right" S An = An (P) + An (GI) + ... + An (F) (13)
the "left" S Al = Al (P) + Al (+ ... + Al (F) (14)
"YIN" S Ain = Ap (P) + Al (P) + ... + Al (F) (15)
"YAN" S Ayan = Ap (GI) + Al (GI) + ... + Al (VB) (16)
as well as their percentage:
S Ap / (SAp + SAl) • 100% (17),
S Al / (SAp + SAl) • 100% (18),
S Ain / (S Ain + S Ayan) • 100% (19),
S Ayan / (S Ain + S Ayan) • 100% (20).

 After calculating the above characteristics, the state of each meridian and possible concomitant diseases of organs, parts of the body or body systems are determined.

функция занижена

функция в норме (N).Three main states of the meridian are possible: the function is overestimated

function is underestimated

function is normal (N).

и слабо возбужден:

сильно заторможен:

и слабо заторможен:

Функция меридиана считается в норме (N), если
(ЭПп+ЭПл)/(2СЭ-КН)≥1 (25) и
(ЭПп+ЭПл)/(2СЭ+КН)≤1, 0,67≤OB≤1,59 (26)
Под этой графой стрелками показывается функция состояния меридиана: функция завышена

функция занижена

функция в норме (N).Research trials have found that the meridian is highly excited if:

and weakly excited:

greatly inhibited:

and slightly inhibited:

The meridian function is considered normal (N) if
(EPP + EPL) / (2SE-KH) ≥1 (25) and
(EPP + EPL) / (2SE + KH) ≤1, 0.67≤OB≤1.59 (26)
Under this graph, the arrows show the function of the state of the meridian: the function is overstated

function is underestimated

function is normal (N).

 The following data is entered in the last lower column: average conductivity of the SC meridians, average value of the absolute differences in the electrical conductivity of the twelve meridians Ac, the average value of the absolute values of the differences between the conductivity of the right and left meridians - PLC, the values of the physiological corridor of norm - CN, the values of the physiological corridor of risk - CR and the psychological type defined in the tables, the sum of the values of the absolute differences of the electrical conductivity - A of the manual meridians (P, GI, C, IG, MS, TR) with centrifugal the direction of energy - the RCB (from the brain) and centripetal - the RCS (to the brain) and separately by analogy with the NCB and the NCB of the foot (E, RP, V, R, VB) meridians, data on the imbalance of the sums - the values of the absolute differences in the electrical conductivity of the meridians: Ap - right, Al - left, Ain - "YIN". Ayan - "YAN", as well as their percentage, and recommended actions to normalize the meridians.

 An example of a specific use.

 Patient K., born in 1952, was examined on January 6, 1998. The survey data are shown on the diagnostic map (see drawing).

1. Absolute differences between the values of the electrical conductivities of the subsequent and previous hourly activity of meridians (separately left and right):
Aп (P) = | ЭПп (GI) -ЭПп (P) | = | 30-20 | = 10,
Al (P) = | Apple (GI) -Epl (P) | = | 35-35 | = 0.
The direction of energy movement from the meridian with greater electrical conductivity to the meridian with lower electrical conductivity is indicated on the diagnostic map by an arrow. In the opposite direction of energy movement in the meridian, a minus sign is placed above the arrow.

2. The differences between the electrical conductivity of the right and left of each of the twelve meridians:
PL (P) = EPn (P) -EPL (P) = 20-35 = -15,
PL (GI) = EPP (GI) -EPL (GI) = 30-35 = -5.

3. The average conductivity of the meridians:
SE- [EPP (R) + EPL (R) + EPP (GI) + EPL (GI) ++ EPP (F) + EPL (F)] / 24 = 50.6.

 Through the columns of the corresponding meridians in the diagnostic map, a horizontal line is drawn through the points corresponding to the SE value.

4. The average value of the absolute differences in the electrical conductivity of the twelve meridians:
Ac = [An (P) + Al (P) + An (GI) + Al (GI) + Al (F) + Al (F)] / 24 = 22.1.

 5. The average value of the absolute values of the differences between the right and left indicators of the electrical conductivity of the meridians.

PLS = [| PL (P) | + | PL (GI) | + | ... | + | PL (F) |] / 12 = 6.3.
6. The value of the physiological normal range:
KN = Ac + PLc = 22.1 + 6.3 = 28.4 (satisfies the condition 0.1≤KN / SE≤0.6).

7. The value of the physiological risk corridor:
КР = 2 • КН = 2 • 28.4 = 56.8.

8. The magnitude of the relative excitations of each of the twelve meridians:
ORP (P) = An (P) / Ac = 0.45,
OVL (P) = Al (P) / Ac = 0,
OB (P) = [ORP (P) + OBL (P)] / 2 = 0.23.

 The meridian is excited at OB> 1.5; inhibited OB <0.67; normal at 0.67≤OV≤1.5.

9. The sums of the absolute differences in the electrical conductivities (A) of the meridians with the centrifugal direction of energy (from the brain →) and centripetal (to the brain ←), separately manual (P, GI, C, IG, MS, TR) and foot (E, RP, V, R, VB, F) meridians:
RCSP = 10 + 15 + 50 + 20 = 95; RCBp = 15;
RCL = 15 + 5 + 35-20 = 75, RCL = 10;
НЦСп = 10 + 45 = 55; NCBp = 20 + 35 + 5 + 75 = 135
НЦСп = 5 + 35 = 40; NCL = 15 + 25 + 5 + 60 = 105.

10. The imbalance (significant difference) of the sums (S) of the absolute differences in the electrical conductivities of the meridians:
the "right" S Ap = Ap (P) + Ap (GI) + ... + Ap (F) = 300,
the "left" S Al = Al (P) + Al (GI) + ... + Al (F) = 230,
"YIN" S Ain = Ap (P) + Al (P) + ... + Al (F) = 220,
"YAN" S Ayan = An (GI) + Al (GI) + ... + Al (VV) = 310,
as well as their percentage:
S Ap / (S Ap + S Al) • 100% = 57%,
S Al / (S Ap + S Al) • 100% = 43%,
S Ain / (S Ain + S Ayan) • 100% = 42%,
S Ayan / (S Ain + S Ayan) • 100% = 58%.

 After calculating the above characteristics, the state of each meridian and possible concomitant diseases of organs, parts of the body or human systems are determined.

вносятся в соответствующие ячейки диагностической карты (см. рисунок) и выделяются подчеркиванием меридианы с наихудшими показателями

Далее данные, занесенные в диагностическую карту, анализируются по соответствии с данными таблиц: в диагностическую карту слева вписываются из таблицы 1 симптомы, соответствующие положениям структурных палочек меридианов с завышенной или заниженной функциями, а результаты осмотра и опроса тестируемого с целью уточнения симптомов вносятся в правую часть диагностической карты. Окончательная постановка диагноза заболевания уточняется при анализе полученных из таблицы 4 характеристик психотипа (в нашем примере ESTJ) и выявленных симптом с использованием справочных данных таблиц (1, 2, 5) и записывается в правом нижнем углу диагностической карты (см. чертеж).The results of the analysis of each meridian

are entered in the corresponding cells of the diagnostic map (see the figure) and are highlighted by underlining the worst-case meridians

Further, the data entered in the diagnostic chart are analyzed in accordance with the data in the tables: the symptoms corresponding to the positions of structural sticks of meridians with overestimated or underestimated functions are entered into the diagnostic chart from the table 1 on the left, and the results of examination and questioning of the test person to clarify the symptoms are entered in the right part diagnostic card. The final diagnosis of the disease is clarified by analyzing the characteristics of the psychotype obtained from table 4 (in our example ESTJ) and the identified symptom using the reference data of the tables (1, 2, 5) and is recorded in the lower right corner of the diagnostic map (see drawing).

 To determine the psychological type of a patient according to Jung’s typology (L.D. Stolyarenko. "Fundamentals of Psychology." - Rostov-on-Don: "Phoenix", 1997, 776.), as mentioned above, is determined on the basis of statistical data in the table. 4., and a list of possible psychological states corresponding to the state of each meridian in Tables 2 and 6. Refinement of implicitly expressed characteristics of the psychological type (E - extrovert or I - introvert, S - sensor or N - intuitive, T - logician or F - ethics, J - rational or P - irrational) is made on the basis of the express test diagnostic method specially developed for this (see Table 2).

 Testing time for clarification of any pair of characteristics takes less than 1 min. For the test person, it is necessary to choose from each pair of options from left to right (1 option - E upper or 1 - lower; 2 option - S or N; 3 option - T or F; 4 option - J or P) only one - upper or lower - on the basis of five indicators: color, figure, three pairs of words. The option is selected in which more indicators (3, 4 or 5) correspond to the character of the person being tested.

соответствует: усталость от избытка контактов, неуверенность в своих силах, печаль, при неудачах чувство растерянности, нехватка энергии, ослабленная психика, излишняя нервозность; по показателю

- подавленность(депрессия), вялость, послестрессовое состояние, припадки(эпилепсия), страх, нерешительность, нежелание дать свободу своим действиям; по показателю

- неуравновешенность, раздражительность, горячность, беспричинный гнев, агрессивность, прямолинейность в общении с партнерами, излишнее волнение за карьеру и работу, резкие смены настроений, импульсивность.In the given example, the patient in terms of

corresponds to: fatigue from an excess of contacts, self-doubt, sadness, failure, feelings of confusion, lack of energy, weakened psyche, excessive nervousness; by indicator

- depression (depression), lethargy, post-stress state, seizures (epilepsy), fear, indecision, unwillingness to give freedom to their actions; by indicator

- imbalance, irritability, fervor, causeless anger, aggressiveness, straightforwardness in communicating with partners, excessive excitement for a career and work, sudden changes in moods, impulsiveness.

 This method of objective determination of the psychological type was carried out on more than 500 people. All testees fully agreed with the characteristics of their established psychological type, the same test results of the same patients were obtained by the psychologist NP BI "MIR" using well-known verbal and computer testing options, requiring almost 10 times more time to conduct them.

Claims (1)

A method for electropuncture diagnostics of the state of the human body, including the action of an electric current of no more than 10 μA on acupuncture biologically active points of 12 paired meridians with simultaneous measurement of the electrical conductivity of the skin at representative points, registration of measurement results, determination of absolute differences in electrical conductivity between the next and previous meridians by the hour activity cycle, characterized in that they are exposed to an electric current of negative for at least 3 s, additionally determine the difference between the electrical conductivity of the right and left meridians, the average electrical conductivity of all the meridians, the average absolute difference in electrical conductivity of the twelve meridians, the average absolute difference between the electrical conductivity of the left and right meridians, the value of the physiological normal range, as the sum of the last two differences , and the value of the physiological risk corridor, as the doubled value of the physiological norm corridor, the relative excitation of the meridian ana, as the ratio of the absolute difference in its electrical conductivity to the average value of the absolute difference in electrical conductivity of all meridians, after which the state of the meridian is determined by comparing the electrical conductivity of the meridian with the corridor of norm and relative excitation of the meridian, and if
(EPP + EPL) / (2SE + KR)>1;OB> 1.5,
then the meridian function is considered to be very high, if
(EPP + EPL) / (2SE + KH)>1; OB≤1.5,
then the meridian function is considered slightly overestimated, and if
(EPp + EPl) / (2SE-KR) <1; OM <0.67,
then the meridian function is considered very underestimated, if
(EPp + EPl) / (2SE-KN) <1; OB≥0.67,
then the meridian function is considered to be underestimated slightly, and when
(EPP + EPL) / (2SE-KN) ≥1
and with
(EPP + EPL) / (2SE + KN) ≤1; 0.67≤OB≤1.5,
then the meridian function is considered normal,
Where
EPP - electrical conductivity of the right meridians;
Apple is the electrical conductivity of the left meridians;
SE - average electrical conductivity of meridians;
KN - physiological normal range;
CR - physiological risk corridor;
OM - the value of the relative excitation of the meridians,
and the general condition, forms of pathology and psychological type are diagnosed by the totality of the states of the meridians separately left and right, manual and foot, centrifugal and centripetal, Yin and Yang.

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