RU2072826C1 - Method for reflexodiagnostics of functional condition of physiological systems of organism - Google Patents

Abstract

FIELD: medicine, reflexodiagnostics. SUBSTANCE: operator studies frequency responses of electromagnetic field generated by biologically active points-adjuvants 12 of basic paired meridians. EFFECT: improved accuracy of diagnostics due to absence of electrical interfering effects on biologically active points.

Description

 The invention relates to medicine, namely to reflexology.

 The known method of K. Akabane, used for diagnostic assessment of the state of the functional systems of the body at 12 distal points of the toes and hands (F. G. Portnov. "Electropuncture reflexology". Riga, "Zinatne", 1988, p. 103). The method consists in using either a very subjective assessment based on the sensations of heat emanating from a burning smoking stick, or measuring the electrical conductivity of distal biologically active points (BAPs). The disadvantage of this method is the influence of many transient factors: equipment that is differently mounted according to block diagrams, changes in skin moisture, the presence of polarization or breakdown of BAP, different pressure on BAP with a search probe electrode, a purely individual assessment of the feeling of heat, etc.

 The closest to the essence and the achieved result when using it is a method for assessing the physiological activity of BAP and the body as a whole, proposed in 1950 by Nakatani (DM Tabeeva. "Guide to acupuncture". M: Medicine, 1980, p.147- 164; F.G. Portnov. “Electropuncture reflexotherapy.” Riga, “Zinatne”, 1988, pp. 103-108), whose interpretation in the Ryodoraku meridian system was given by Hyodo to assess the functional state (D. M. Tabeeva, ibid .; F.G. Portnov, ibid.). The method consists in measuring the electrical conductivity of 12 pair points of accomplices (sources) of the human body (Ryodoraku system) with finding the so-called “physiological corridor” of electrical conductivity with a tabular interpretation or mapping of Ryodoraku (D.M. Tabeeva, ibid .; F.G. Portnov , ibid., p. 254). Moreover, an increase or decrease in electrical conductivity that goes beyond the boundaries of this “corridor” indicates pathological changes in the corresponding systems and organs. Thus, an assessment is given of the sympathetic (YAN) and parasympathetic functions (YIN) of the body.

 However, to implement this method, it is necessary to observe a number of conditions (D. M. Tabeeva. "Guide to acupuncture". M. Medicine, 1980, p. 156): the search electrode must touch the surface of the body at right angles; measurements should be made with uniform pressure on the skin, but without much effort; the duration of measurements at each representative point should not exceed 2-3 s; measurement should not be carried out after physical activity and food intake; it is necessary to avoid heating the measured point and should not press or touch it often before the measurements begin. In addition, it should be noted that there are very different indications of electrical conductivity when using various equipment and the absence of BAT relaxation even 5-10 minutes after the first study (D.M. Tabeeva, ibid.). All of the above leads to an inaccuracy in assessing the functional state of physiological systems and organs, and in some cases to a distortion of such an assessment.

 The proposed method is devoid of these drawbacks, since it is used for passive information retrieval from points-accomplices of YAN and YIN meridians (channels) of the human body.

 The essence of the method is that they measure the frequency of oscillations of the electromagnetic plane (EMF) of 12 paired BAT-accomplices of the manual and foot meridians, which normally ranges from 15 to 36 Hz for the meridians of the hands and from 12 to 31 Hz for the meridians of the legs.

 The method is as follows. An induction-capacitive probe-probe of the commercially available Malachit-10p device sequentially in 12 paired BAT-assistants 12 main paired meridians of the human body determine the frequency characteristics of the electromagnetic field and the data obtained are compared with a table of frequency characteristics of the electromagnetic field in healthy individuals (table 3.4 ) (Comparative studies were carried out using direct electric current (conductivity measurement) according to the generally accepted Nakatani method from the Reflex apparatus).

 The studies were conducted on 20 healthy people aged 18-22 years. The experiments showed that the initial frequency characteristics of the electromagnetic field of the BAT-assistants do not differ from those of repeated measurements after 3-5 s.

 One example of research. B-s V.V. 20 years. Somatically healthy. The initially measured frequency of the BAT EMF of the manual and foot meridians, which reflects on average the balance of the sympathetic and parasympathetic functions of the body, practically does not change upon repeated measurement after 3-5 s, as illustrated in Table 1.

 Using the traditional method of measuring the electrical conductivity of the above-mentioned healthy volunteer, the following data were obtained (Table 2).

 In the latter case, as can be seen from Table 2, the BAT conductivity indices (due to the delayed relaxation) do not come back to the initial ones even after 10 min (P <0.05), while the frequency characteristics of the BAT accomplices EMF remain unchanged (P> 0 , 05).

 In the table. 3, 4 (of the Ryodoraku map type) the frequency characteristics of the BAT EMF and the “physiological” corridor in healthy individuals are given (data on average for the group).

Assessing the obtained data, we can conclude that healthy volunteers have a balance of functional states of the sympathetic and parasympathetic organs (YAN-YIN), i.e. the whole organism as a whole. In this case, for the meridian H ₁ (point-aide R ₁ -Tai-yuan), the average frequency characteristics of the EMF are 16 Hz; H ₂ (MS _7- Da-lin) - 22-23 Hz; H ₃ (C _7- Shan-men) 34-35 Hz; H ₄ (Ig _{4 —} Wan-gu) 34 Hz; H ₅ (TR ₄ -Yang-chi) 25-27 Hz; H ₆ (9I _5- Yang-si) 21-23 Hz; F ₁ (PR ₃ -Tai-bye) - 12-13 Hz; F ₂ (F ₃ Tai Chi) 30 Hz; F ₃ (R ₃ -Tai-si) 12-13 Hz; F ₄ (U _65- Shu-gu) 14-16 Hz; F ₅ - (HC ₄₀ -Qu-syu) 16-18 Hz; F ₆ (E _42- Chun-yang) 16-17 Hz.

 The measurements of electrical conductivity and the "physiological corridor" using the traditional Nakatani method are not given, because Mapping Ryodorak is well known (D.M. Tabeeva, 1980; F.G. Portnov, 1988), and the data presented by the authors indicate the disadvantages of this method before the claimed one.

 Additionally, studies were conducted on 10 volunteers on the effect of skin temperature on the conductivity and frequency characteristics of BAP. The data are given in table.5.

Thus, increasing the temperature in the BAT (up to 37.5 ^o C) significantly increases its electrical conductivity and practically does not affect the frequency of the electromagnetic field.

 In the table. Figures 6 and 7 show data on the effect of skin moisture on its electrical conductivity and frequency characteristics of the EMF BAT.

 Thus, evaluating the obtained data, we can say that such transient environmental factors as humidity practically do not affect the frequency characteristics of BAP (P> 0.05), while their electrical conductivity increases significantly (P <0.05) at comparison with the data table. 3 and 4. The same patterns are also observed when studying the influence of pressure force on the BAP (standard weights were used; Table 8).

 Thus, the pressure on the BAP significantly changes their electrical conductivity, while the frequency characteristics of the EMF remain unchanged (data between all values of electrical conductivity and the frequency characteristics of the EMF BAT are reliable).

 In addition to studying the frequency characteristics of BAT EMF in healthy individuals, the claimed method was tested on 10 patients with a primary pancreatic lesion (chronic pancreatitis in the phase of decaying exacerbation with concomitant pathology). In the whole group, a significant decrease in the electrical conductivity of the BAT-assistants of the stomach and pancreas meridians, as well as a slight increase in the electrical conductivity in the BAT-assistants of the large intestine, lungs, bladder, and kidney meridians (i.e., most systems and organs) was found. The same patterns were also observed for the frequency characteristics of the EMFs of BAT-accomplices of the indicated meridians. By way of illustration, we present two clinical examples summarized in Table 9.

 Assessing the obtained data, it should be noted that in both cases there is a sharp imbalance between the sympathic functions (JAN-meridians of the stomach, colon, bladder) and parasympathetic functions (YIN-meridians of the spleen-pancreas, lungs, kidneys) of most systems and organs of the body . This allows us to judge in General about the possibility of using the method to determine the functional state of the physiological systems of the body as a whole. Moreover, the method, despite the parallelism of the interpretation with the known method for determining the electrical conductivity according to Nakatani, gives more stable indicators, and therefore, is more reliable in diagnostic studies.

 Thus, the proposed method for determining the functional state of the physiological systems of the body is representative, accurate, simple to implement, and unlike the traditional one, it is not very dependent on transient factors and can be used in the practice of reflexotherapists and physiotherapists. Using the developed “physiological corridor” of frequency characteristics of the EMF BAT meridians of the Ryodoraku system, one can judge with sufficient accuracy the state of physiological systems and human organs.

Claims (1)

 The method of reflex diagnostics of the functional state of physiological systems of the body by deviation of the studied physical parameters of 12 paired biologically active points of accomplices 12 of the main paired meridians relative to the norm, characterized in that the frequency of the electromagnetic field of these points is measured as a physical parameter, which normally fluctuates for hand meridians from 15 to 36 Hz, and for foot meridians from 12 to 31 Hz.

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