RU2137457C1 - Method for evaluating organism state - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves measuring electric conductivity in 24 points on 12 symmetrical meridians. The received data are compared to table cell scales. The scales are drawn in advance on the right and left side of every table cell. The values are connected drawing in this way diagnosis line. The central line is determined in physiological passage. Meridian state is evaluated by comparing its diagnosis line position relative to the physiological passage boundaries and its central line. The diagnosis line being within the boundaries of the physiological passage and in parallel relation to the central line, meridian state and that of organs corresponding to it are referred to as normal one. Its being aligned along the physiological passage boundaries or deflected to run in parallel to the central line and in cases of non-parallel position within the boundaries of the physiological passage or outside the boundaries, meridian state and that of organs corresponding to it are referred to as pathological one. EFFECT: enhanced accuracy of diagnosis; quick test of organism state. 2 tbl

Description

 The invention relates to medicine, namely to reflexology, to methods of electropuncture diagnostics for the electrical conductivity of the skin at biologically active points (BAP).

 A known method of determining the state of the body by electropuncture diagnostics according to R. Voll (N.L. Lupichev, Electropuncture diagnostics, homeopathy and the phenomenon of long-range action, Moscow, NPK "Irius", 1990, p. 13-17), including measurement using the device R. Voll indicators of electrical conductivity of the main diagnostic points located on the back and palmar surfaces of the hands and back and side surfaces of the feet and corresponding to 12 old and 8 new meridians. According to the deviation of the obtained indicators from the norm, the state of organs and systems is diagnosed. At the same time, values within the range of 50-65 units are taken as the norm. instrument scale. Values above normal reflect a state of hyperfunction or inflammation. Values below the norm reflect the state of hypofunction, degeneration.

 However, the known method is laborious.

 The interpretation of the results of the study depends on the qualifications of the doctor. It allows only to judge the nature of pathological processes in a particular organ or system of organs. But it does not make it possible to determine the functional state of organs, to reveal the concealment processes, to predict the state of health.

 A known method for determining the functional state of the body (A.T. Neborsky, Normative characteristics of the electrocutaneous conductivity profile of healthy men and women. J. "Human Physiology", 1985, v.2, N 4, pp. 654-664).

 The method consists in measuring the electrical conductivity of the skin at the points of 24 acupuncture skin zones (ACZ) on the upper and lower extremities. The obtained values are applied to the corresponding meridians of the axis of the polar diagram, and a profile of electric skin conductivity (PEP) is built. As a general integral indicator, the average values of electrodermal conductivity are used for all 24 AKZs. The difference between the maximum and minimum values of the probes assesses the uniformity of the distribution of electric skin conductivity in the zones. For normative functional range, so-called "functional corridor", take a zone equal to the double quadratic deviation from the average value of the electrodermal conductivity (EP) for each individual ACZ (EP = 2 μA). Based on all 24 AKZs, normative diagnostic probes are built taking into account seasonal, gender and age differences. Diagnostic assessment is carried out by comparing the probe with the corresponding regulatory probe. The coincidence of 16-24 of the 24 magnitudes of EP according to the defining profile of the EKZ is defined as the absence of differences. Exceeding the upper limit of 16 out of 24 values is estimated as an increase in the overall electrical conductivity of the skin, and beyond the lower boundary as a decrease in the electrical conductivity of the skin, and the state of the body is defined as hyperfunctional or hypofunctional, respectively.

 However, the known method is extremely difficult both in research and in interpretation of the results, because Diagnostic assessment of the electrometric characteristics of the patient’s skin is carried out by comparing with the normative profiles of the electric skin conductivity corresponding to the season, time of day, gender, age and other functional conditions of the body. Moreover, the method does not allow to detect hidden pathological processes, to conduct early diagnosis. It allows you to judge only the functional state of the physiological systems of the body.

 As a prototype, a method for determining the state of the body of Nakatani was adopted (D. M. Tabeeva, Guide to Acupuncture, Moscow, Medicine, 1960, pp. 560-561).

 The essence of the method is that they measure the electrical conductivity in the projection area of representative points, 6 on each limb, corresponding to 12 meridians (24 zones). The measurement results are entered in a special map Ryo-do-Raku-R-table compiled by Nakatani taking into account the average conductivity of Ryo-do-Raku in healthy people, with colored pencils in the form of short horizontal lines (see table 1 at the end of the description). Then the conductivity values of 24 representative points are summed up and dividing this number by 24, an average value is obtained, which is laid down on the two extreme graphs R of the table, connected by a horizontal line, deviating from which by 0.7 cm up and down, two more horizontal lines are drawn and get a strip width of 1.4 cm, which represents physiological boundaries. When Ryo-do-Raku deviates from these boundaries, it is considered pathological. If the Ryo-do-Raku value is above the physiological limit, the state of its redundancy is judged, and if lower, the insufficiency is judged. If all the values of the electrical conductivity of the measured points are within physiological boundaries or slightly extend beyond it, consider that the function of the autonomic nervous system is well balanced, normal. Pathological values are compared with the tables of their correspondence to the symptoms by which this or that diagnosis is made.

 However, the known method has limited diagnostic capabilities due to the fact that the assessment of the state of the meridian is carried out only by two criteria for the deviation of its value above or below physiological boundaries. Diagnosis is generalized.

 In addition, the methodology provides for a too high degree of variability of the "norm".

 The objective of the invention is to provide a more efficient, accurate and simple method of electro-puncture diagnostics.

 The essence of the invention lies in the fact that in the method of determining the state of the body, including measuring the electrical conductivity of the skin in the projection area of 24 representative points of twelve symmetric meridians, entering the values into the corresponding columns of the table, constructing a "physiological corridor" taking into account their average value, followed by determining the state of the meridians and their corresponding organs and functional systems, in the table of the scale are applied to the right and left sides of each column, the obtained values of electric wires The points of independence are plotted on the right and left scales, connect them together, receiving a "diagnostic line", in the "physiological corridor" a central line is distinguished, and the state of the meridians and their corresponding organs and functional systems is determined by the location of the "diagnostic line" relative to the borders " physiological corridor "and its center line, while with the location of the" diagnostic line "within the boundaries of the" physiological corridor "and parallel to its center line, the state of the meridian and their organs and functional systems are defined as normal, and when the "diagnostic line is located along one of the borders of the" physiological corridor ", or when deviated from them and parallel to the center line, and if it is not parallel to the central line within the" physiological corridor "or beyond its borders, the state of the meridian and its corresponding organs and functional systems is defined as pathological, and the greater the deviation of the" diagnostic line "from the center If the flax line or the angle of its deviation, the pathological process is evaluated more pronounced.

 Using the invention allows to obtain the following technical result.

 High accuracy, simplicity and speed of research and data interpretation (10-15 min) allow the method to be used in express diagnostics of the state of the body: in the early stages of the disease; with hidden pathological processes, when the disease can only be predicted; diagnosis of possible complications after illness; to predict the effectiveness and risk of surgical interventions. This makes it possible to timely correct the state of meridians, and therefore, organs and systems.

 The method can be successfully used to evaluate the effectiveness of any type of treatment: drug therapy, herbal medicine, psychotherapy, reflexology, etc. It allows you to objectify the results of any effects on the body, including allergens, food, food additives.

 The method is safe and harmless, it can be used to diagnose pregnant women, newborns and seriously ill patients. It is available for all categories of patients. It does not require the creation of special conditions for research.

 The method can be widely used in medical institutions of all kinds: from ambulance to medical offices in organizations and institutions.

 High efficiency of the method is achieved due to the fact that the authors have developed an optimized version of the table, a method for filling it out and interpreting the results. Drawing scales on the right and left sides of the graph, located at some distance from each other, allows you to get "diagnostic lines" by connecting the values plotted on them, which in 10-15 minutes give visual information (visualization) of the state of organs and systems.

 The authors introduced the central line of the "physiological corridor" and developed clear criteria for norm and pathology by the location of the "diagnostic line" relative to the boundaries of the "physiological corridor" and the central line.

 The method is as follows.

 A skin conductivity is measured using, for example, “Devices for electropuncture” (A.S. N 811526, class MKI A 61 H 39/00, 1979) in the projection area of 24 representative points of twelve symmetric meridians, 6 points each each limb.

 A day before the study, the patient is recommended to exclude the use of drugs. The study is carried out in the position of the patient lying or sitting. All metal objects and gamma emitters are removed from it.

When conducting research, observe the following rules:
- exclude touching hands and feet:
- the search electrode is placed at right angles to the surface of the body;
- the measurement is made with uniform pressure on the skin, but without much effort;
- if, during measurement, indicators below 5-10 conventional units of the device (UE) are obtained, representative points are wetted with water, and the measurement is repeated.

 Studies of patients by this method can be carried out, if necessary, several times during the day.

The conductivity of the points is measured in the following sequence: right hand, left hand: representative points P ₉ (tai yuan), MC ₇ (da-lin), C ₇ (shen-nen), IG ₅ (yan-gu), TR ₄ (yang-chi), GI ₅ (yang-si); right leg, left leg: representative points RP ₃ (tai-bye), F ₂ (xingjian), R ₄ (dan-jung), V ₆₅ (shu-gu), VB ₄₀ (tsu-shu), E ₄₂ (chue-yang).

 When compiling the table, the scales are applied to the right and left sides of each column corresponding to the right and left meridians. The obtained values are applied to the right and left scales in the form of notation, for example, circles that connect to each other, receiving a "diagnostic line".

 Then a physiological corridor is constructed. For this, the conductivity values of 24 representative points are summarized and, dividing this number by 24, an average value is obtained, which is laid down on the two extreme columns of the table, connected by a horizontal line, deviating from which 7 UEs up and down, spend two more horizontal lines and get a strip with a width of 14 CU, which is a “physiological corridor.” In the “physiological corridor”, a central line is selected that should correspond to 40-80 CU. Those below the specified limits believe that the patient is in a weakened state, and above - in a state of overexcitation.

 Determination of the state of meridians and their corresponding organs and functional systems is carried out by the location of the "diagnostic line" relative to the "physiological corridor" and its center line.

 When the "diagnostic line" is located within the boundaries of the "physiological corridor" and parallel to its central line, the state of the meridian and its corresponding organs and functional systems will be determined as normal.

 When the "diagnostic line" is located along one of the boundaries of the "physiological corridor" or when deviating from them parallel to the central line, as well as if it is not parallel to the central line within the "physiological corridor" or beyond its borders, the state of the meridian and its corresponding organs and functional systems are defined as pathological.

 Moreover, the greater the deviation of the “diagnostic line” from the borders of the “physiological corridor” or the angle of its deviation relative to the center line, the more pronounced the pathological process is evaluated.

 Example. Patient K., 68 years old. He was hospitalized on 05.27.09 to the therapeutic department of the Pushkin Central City Hospital with complaints of weakness, cough, and constant fever. Sick 4 days. The disease connects with a cold. A similar condition was in April.

On examination: pallor and humidity of the skin, cough with sputum of mucous color difficult to separate, body temperature 38.5 ^o C.

 Auscultatory: evenly on both parts of the lungs, but crepitating wheezing is more right in the posterior basal parts.

 X-ray: inhomogeneous darkening in the lower lobe of the left lung.

Blood test: hemoglobin 82 g / l; erythrocytes 2.8 • 10 ⁸ ; white blood cells 8.6 • 10 ³ (11%); ESR 52 mm / hour.

 In accordance with the history and radiological picture, the diagnosis was made: right-sided pneumonia.

 The patient underwent antibacterial, detoxification and vitamin therapy, after which he was sent for a consultative examination.

 The patient conducted a study of the proposed method.

Using the device for electropuncture, we measured the conductivity of 24 representative points of 12 symmetrical meridians, 6 points on each limb in the following sequence: right hand, left hand (representative points P ₉ , MC ₇ , C ₇ , IG ₅ , TR ₄ , GI ₅ ); right foot, left foot (representative points RP ₃ , F ₂ , R ₄ , V ₆₅ , VB ₄₀ , E ₄₂ ).

 The obtained values were plotted on the corresponding scales of the table graph in the form of circles (see Table 2 at the end of the description). When compiling the table, scales were plotted on the right and left sides of each graph corresponding to the right and left meridians. Mugs connected among themselves, having received "diagnostic lines". Then, taking into account the average value of electrical conductivity, 24 representative points built a "physiological corridor", highlighting the center line in it.

 The state of meridians and their corresponding organs and functional systems was determined by the location of the "diagnostic line" relative to the borders of the "physiological corridor" and its center line. The "diagnostic line" in the graph corresponding to the meridian of the lungs is located within the boundaries of the "physiological corridor" parallel to the central line, in connection with which the state of the meridian of the lungs and its corresponding organs, including lungs, as corresponding to the limits of the age norm.

 The condition of the remaining 11 meridians and their corresponding organs and functional systems is defined as pathological.

 Meridians of the sexual-vascular, heart, liver and gallbladder: "diagnostic lines" are located within the boundaries of the "physiological corridor", but not parallel to the center line. The deviation angle is small.

 Bladder and stomach meridians: "diagnostic lines" deviated from the upper border of the "physiological corridor" and are located parallel to the center line.

 Small intestine meridian: the "diagnostic line" is deviated from the lower boundary of the "physiological corridor" and is parallel to the center line.

 The meridian of three heaters: the "diagnostic line" is located parallel to the central line, within the boundaries of the "physiological corridor".

 Colon Meridian: the “diagnostic line” is deviated from the lower border of the “physiological corridor” and is located parallel to the center line.

 Meridians of the spleen, pancreas and liver: the “diagnostic lines” are sharply deflected from the center line, forming a large deviation angle, while the “diagnostic line” of the spleen and pancreas meridian crosses the borders of the “physiological corridor”, which indicates the severity of the pathological process.

 According to the results of the analysis of the table, taking into account clinical data, blood test parameters, a putative diagnosis was made: a tumor of the pancreas of a tumor nature.

 The patient was sent for computed tomography of the abdominal organs in the regional cancer center in the city of Balashikha. The study conducted on June 12, 1997 revealed a volumetric formation in the body area of the pancreas with metastases to the paraaortic lymph nodes.

 In connection with the prevalence of the process, symptomatic treatment at the place of residence is recommended.

Claims (1)

 A method for determining the state of an organism, including measuring the electrical conductivity of the skin in the projection area of 24 representative points of twelve symmetric meridians, entering the obtained values into the corresponding columns of the table, constructing a “physiological corridor” taking into account their average value, followed by determining the state of the meridians and their corresponding organs and functional systems, characterized in that in the table the scales are applied to the right and left sides of each column, the obtained values of the electrical conductivity of the points they are on the right and left scales, connect them together, receiving a "diagnostic line", in the "physiological corridor" allocate a central line, and the state of the meridians and their corresponding organs and functional systems is determined by the location of the "diagnostic line" relative to the "physiological corridor" and its center line, while with the location of the "diagnostic line" within the boundaries of the "physiological corridor" and parallel to its center line, the state of the meridian and its corresponding organs and functional n systems are defined as normal, and when the "diagnostic line" is located along one of the boundaries of the "physiological corridor" or when deviated from them and parallel to the center line, as well as if it is not parallel to the central line within the "physiological corridor" or beyond the state of the meridian and its corresponding organs and functional systems is defined as pathological by boundaries, the greater the deviation of the “diagnostic line” from the center line or the angle of its deviation neniya, the pathological process is evaluated more pronounced.

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