RU2411905C1 - Method of electric puncture diagnostics of duodenal ulcer exacerbation in children and teenagers by means of "rofes" apparatus - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to diagnostics in pediatrics. Method includes impact of microcurrents on biologically active points (BAP) of 12 main pair meridians of human organism with application of "Rofes" apparatus. Bipolar testing of each measured biologically active point is carried out. Frequency changes in points under impact for 0.2 seconds by current within U=4 V; 1=60 mcA; P=0.24 mW. Analysis of results of BAP response to said irritation is carried out. Results are presented in form of electric skin conductivity (ESC) profiles, BAP on circular diagram, as well as in form of figure tables. In period of duodenal ulcer exacerbation registered is 1.5-2 times decrease of electric skin resistance (ESR) of small intestine - IG and heart - C in comparison with the norm; on circular rofogram registered is "pulling in" of circular rofogram towards the centre in the same segments (IG, C). In period of remission ESC of said meridians approaches the norm, which is shown in table indices, and on circular rofogram, when "pullings in", characteristic of exacerbation periods become level.

EFFECT: method extends methods of diagnostics in children.

3 tbl, 7 dwg

Description

The invention relates to medicine, namely physiotherapy and reflexology as screening diagnostic methods in pediatrics.

This invention allows the diagnosis of peptic ulcer of the duodenum in children and adolescents using the apparatus "Rofes".

Methods of hardware acupuncture diagnostics, including electro-puncture diagnostics, are projective diagnostic methods. This means that in order to obtain data on the state of a particular meridian, and, accordingly, the organ or system controlled by it, it is necessary to carry out a provoking effect by electric current on a certain part of the skin of the human body, which reflexively corresponds to the studied systems. Thus, according to indirect indications of the electrical conductivity of the skin zones corresponding to the acupuncture points of the meridians, the functional state of organs and systems is determined [see Zagryadsky V.A., Zlokazov V.P., Parin V.V. Punctural electrodiagnosis and therapy of functional abnormalities in the whole human body. // In the book: Acupuncture. Scientific and practical achievements. Smolensk, Homeopathic medicine, 1997. - P.81-92].

In electropuncture diagnostics, at present, several relatively independent methods can be distinguished, differing in a set of points for studying biologically active points (BAP), operating parameters of measuring instruments, and a data analysis system. Each of them has its own advantages and disadvantages and is used depending on specific tasks. These methods include the Voll method (R. Voll, 1953), the Nakatani method (Y. Nakatani, 1956), which provides for the use of special devices (an electric detector) for determining the electric skin resistance (EX) in the BAT.

As an analog, we chose the Nakatani method, which is based on the theory of Ryodoraku meridians developed by the author. According to this theory, there is a close relationship between the functional state of internal organs and electrical resistance at biologically active points (BAP) located along the lines of the corresponding meridians. These lines change their electrical conductivity when the functions of the interconnected organs deviate. These recorded meridian indicators Nakatani called Ryodoraka, dividing them into two groups of six points in each: hand and foot.

The method for assessing the state of an organism according to the Nakatani method in general is as follows - on each BAT of the Ryodoraku meridian, conductivity is measured at a certain point, the value of which reflects the average value of the conductivity of the entire meridian under current exposure to negative polarity. The Nakatani method has the disadvantage that the current parameters of the provoking effect on the point under investigation are too high (I = 200 mkA; U = 10 V). That is, the power of the impact on the point to determine its response to the provoking effect is 2 mW.

The closest analogue of the claimed technical solution is the BAT electrodiagnostics using devices of the ELAP, ELITA-4, PEP-1 and other types [F.G. Portnov, “Electropuncture reflexotherapy.” - Riga: “Znatne”, 1982. - S.105-112 .; Bogogolyubov V.M., Ponomarenko G.N. "General physiotherapy." - M., - S.-P., 1996, pp. 108-111] in the stimulating modes of the pulse current parameters. We used the PEP-1 device as an analog, intended for electrodiagnostics and electro-puncture. For the purpose of diagnosis, cutaneous disk electrodes are used; the exposure current at a load of 50 kΩ does not exceed 50 μA. BAT measurement is possible both in constant and automatic switching mode so (switching current polarity for 1, 5, 15, 30, 45, 60 s.) Diagnostic procedure is carried out for at least 30 minutes. The search probe used in the PEP-1 apparatus, as well as in the Nakatani diagnostic method, is metallic. A significant drawback in both methods is the mandatory uniformity of the probe pressure on biologically active points (BAP), skin moisture, and limited processing of the results. The high power of the provoking effect on the point both in the analogue and in the prototype increases the load on the meridian system, therefore, any provoking effect has a response in the functioning of various body systems, therefore, interference is introduced into the results of the diagnosis itself. These technical features during ROFES-diagnostics are not significant, and this distinguishes it from analogues.

The aim of our invention is to develop a method for the diagnosis of exacerbation of peptic ulcer of the duodenum in children and adolescents using the apparatus "Rofes".

A method for electropuncture diagnostics of exacerbation with peptic ulcer of the duodenum in children and adolescents using the Rofes apparatus is proposed, characterized in that bipolar testing of each measured biologically active point is used, as well as the fixation of frequency changes when the measured points are adapted to the provoking current within: U = 4 B; 1 = 60 μA; P = 0.24 mW, for 0.2 sec.

For research we used the hardware-software complex of electropuncture diagnostics "ROFES", developed by UNPP "Altaim", Yekaterinburg. (It is registered in RosAPO St. N 970188 of 04/28/1997. It is included in the State register of medical devices: unit N 98/219 - 125. The certificate of conformity of Gosstandart of Russia No. Ross RU / MEL7 / B03460.).

Using the hardware-software complex of electropuncture diagnostics of the functional state of “ROFES” in sick children and adolescents with a peptic ulcer in the duodenum, regularities of direct current conductivity of positive and negative polarity in representative BAT of the branches of twelve classical paired human meridians were studied. The topology of representative BATs and the interpretation of the research results corresponded to the Nakatani method as modified by V.M. Kim (1998) [A. Kornyukhin. Screening "rofes-diagnostics" - a synthesis of medical and psychological aspects of the analysis of the structures of the human body "//. Materials of the scientific program of the exhibition “Health Care in Russia - 97” (Official Catalog). - Yekaterinburg, October 28-31, 1997 - p.69].

The probe electrode is used as the active electrode. At the end of the active electrode is a plastic cup with a volume of 0.5 cm ³ and an area of 0.5 cm ² , at the bottom of the cup there is a contact metal plate. Before measurement, the cup is filled with cotton moistened with isotonic sodium chloride solution (0.9%). Passive electrode (positive) is a metal arc plate, the coating of which was made of chemically inert material. Not earlier than 1-1.5 hours before the measurement, the patient takes food, immediately before the measurement, the patient rests for about 10 minutes. The room in which the study is carried out must be dry, with an air temperature of + 20-23 ° C. Before the examination, the patient changed into a cotton suit, took off his watch and metal jewelry. Attention is paid to ensure that the skin areas necessary for the examination are clean, have no scars, birthmarks and other changes. Before measurement, the researcher excludes mechanical and other influences on the test points, and during the measurement, the researcher should not touch the surface of the patient’s skin.

Before the study, the device is tuned. For this, the active and passive electrodes are closed, after which a line appears on the computer screen indicating the readiness of the ROFES ™ complex for measurement. The passive electrode is fixed on the left palm. In accordance with the measurement sequence, the active electrode is sequentially applied to the points of the 12 main meridians: lungs - P9 tai-yuan, colon - GI 4 he-gu, stomach - E 42 chun-yang, pancreas - RP 3 tai-bye, heart - C 7 shen-men, small intestine - IG 4 wan-gu, bladder - V 64 jing-gu, kidney - R 3 tai-si, pericardium - MC 7 da-ling, triple heater - TR 4 yang-chi, gall bladder - VB 40 qiu-xu, liver - F 3 tai chun. [Shapiro M.I., Shapiro I.I., Pishel Y. V. Anatomical and clinical atlas of reflexology. - Kharkov “Eye”. - 1995]. The active electrode, when measured, touches the surface of the skin at a right angle and with the same pressure on the BAP moistened with 0.9% saline. The duration of the measurement at the point is carried out with an exposure of up to 20 seconds with the registration of the most stable current value, but not less than 3 seconds. After pressing the button on the measurement sensor to start the process, the following happens: the program automatically applies a voltage of positive polarity (+ 4V) to the sensor attached to the point. A provoking effect of a positive polarity current on the BAP begins. The program monitors voltage changes as a result of a decrease in the electrochemical resistance of the BAT - as a result of natural reactions to electric shock. The effect of positive polarity follows until the voltage ripple is included in the minimally limited parameters monitored by software, namely, over a period of 0.2 seconds, the voltage ripple is 5 mV in amplitude. The duration of the measurement of the BAT reaction to current is determined by the individual state of each measured point of the corresponding meridians. On average, this process lasts from 3 to 15 seconds. for the average patient. As soon as the program receives these parameters, the effect on the BAP with a current of positive polarity stops, and the polarity of the voltage on the sensor pressed to the point automatically changes to negative. A provoking effect of a negative polarity current on the studied BAP begins. Further, the program monitors indicators of changes in the electrochemical resistance of BAP as a result of its reaction (adaptation) to exposure to a provocative current. The positive current effect continues until the voltage ripple is included in the minimally limited parameters monitored by software, namely, for a period of 0.2 seconds. The voltage ripple is in amplitude ≤5 mV, the so-called "adaptation plateau" is determined (as shown in Figure 1). In the "ROFES-diagnostics" method, biologically active points similar to the topology of the measured BAPs were taken for testing in the method of the Japanese scientist Nakatani in a modification of the method of I. A. Lednev. The diagnostic current for testing is close in terms of the power of the provoking effect to the current according to the Voll method (U = 4 V; I = 60 μA; P = 0.24 mW) (see Figure 1). The main difference from these methods is the bipolar testing of each measured point, similar to the method of I.A. Lednev, as well as the fixation of frequency changes during adaptation of the measured points to the provoking current (Patent for invention No. 2202278 from 11.24.1988).

In the “ROFES-diagnostics” method (Patent for invention No. 2202278 dated 24.1998), the Latin letters denoting the name of the meridian are located above the left ray of the sector, that is, above the left branch of the meridian. Right ray - the right branch of the meridian on the diagram is not entitled. However, the records for the decoding of the diagrams indicate (in brackets), next to the Latin letter, the name of the meridian, belonging to the left or right branch, respectively (s) - the left branch, (d) - the right branch.

Each sector ray in the diagram is a scale, where 0 is the center of the diagram and 100 is the edge of the diagram.

For example:

P (s) - the left branch of the meridian of the lungs; P (d) is the right branch of the lung meridian.

The final pie chart combines the 12 main paired human meridians arranged in a circle, in accordance with the rules of the Eastern concept of U-syn - the daily cycle of activity of the energy channels of the human body. The onset of daily activity is determined by these values, starting with the lung meridian "P" and then clockwise to the meridian "F" of the liver [1, 3, 5, 6, 9, 12] (Figure 2).

Figure 2 presents the 12 main paired human meridians, where the meridians of the left side are colored in dark color, the meridians of the right side are not colored.

Twelve sectors of the diagram corresponding to 12 paired meridians are entitled in Latin letters according to accepted international terminology.

For a better visualization of the picture of the functional state, tracking the dynamics of internal processes and the influence of the external environment on the human body, a computer program builds a pie chart for diagnostics on systems, numerical tables. They record the results of bioresonance characteristics of each measured meridian on the probing effect of microcurrents. The indicated pie chart is presented on the ROFES apparatus before the start of the study. On the indicated meridians are located biological active points (BAP). The location of the BAP of the classical 12 human meridians corresponds to the Ryodoraku method (I. Nakatani, 1977).

Figure 3 presents the rofogram of the data of electro-puncture diagnostics of a practically healthy adolescent N., 15 years old, which illustrates the normal electrical conductivity of representative BAP branches of twelve classical meridians. Thus, the picture of the state of the BAP was outlined as a result of the provoking effect of the current of positive and negative polarity. At the end of the measurement, the expert system automatically turns on. It provides a process for automatic analysis of BAT measurement results in meridians (Dobroserdov A.Yu., Kornyukhin A.I., Khanafiev S.V. Collection, storage and display of measurement results with expert evaluation for the express-diagnostic complex "ROFES". // Copyright certificate No. 970188, Russian Federation, RosAPO, 28/04/1997).

We observed a group of children with a peptic ulcer of the duodenal mucosa (70 children), as well as a comparison group (123 children).

We present a digital expression of the values of electric skin resistance (EX) on classical meridians in 123 practically healthy children aged 7 to 15 years who do not have chronic somatic pathology, do not complain of abdominal pain and are not registered with a pediatric gastroenterologist, received on apparatus ROFES. These children made up the comparison group (Table 1).

Table 1. Digital expression of the significance of electric skin resistance at biologically active points on classical meridians in children of the comparison group. Meridians EX indicators in arbitrary units, M ± m Children of the comparison group, n = 123 Lung (P) Left branch (S) 39.1 ± 0.1 Right branch (D) 39.7 ± 0.3 Large intestine (Gi) Left branch (S) 39.1 ± 0.3 Right branch (D) 39.8 ± 0.2 Stomach (E) Left branch (S) 39.7 ± 0.1 Right branch (D 39.3 ± 0.2 Pancreas (Rp) Left branch (S) 39.2 ± 0.3 Right branch (D) 39.3 ± 0.3 Hearts (C) Left branch (S) 38.9 ± 0.4 Right branch (D) 39.1 ± 0.4 Small intestine (iG) Left branch (S) 39.4 ± 0.2 Right branch (D) 39.1 ± 0.3 Bladder (V) Left branch (S) 39.3 ± 0.1 Right branch (D) 40.1 ± 0.2 Kidneys (R) Left branch (S) 41.7 ± 0.2 Right branch (D) 39.2 ± 0.2 Pericardium (MC) Left branch (S) 39.3 ± 0.1 Right branch (D) 39.2 ± 0.3 Triple Heater (Tr) Left branch (S) 39.6 ± 0.1 Right branch (D) 39.3 ± 0.2 Gallbladder (VB) Left branch (S) 39.1 ± 0.3 Right branch (D) 38.2 ± 0.1 Left branch (S) 38.9 ± 0.2 Liver (F) Right branch (D) 38.8 ± 0.1

The table shows that in the children of the comparison group, the digital expression of the EX indicators in the meridians used differed slightly, which corresponds to the literature [Rostovtseva E.E., Kaznacheeva L.F., Landays Ya.Ya., Shilyaeva N.V. Diagnosis of somatic diseases in schoolchildren using the hardware-software complex "ROFES-Universal". // Actual issues of modern medicine: VIII scientific and practical. conf. doctors. Thes. doc. - Novosibirsk, 1998. - P.228; Lavrik I.G. Screening diagnostics and its use in the comprehensive rehabilitation of children. // Materials of the scientific program of the exhibition “Health Care in Russia - 97” (Official Catalog). - Yekaterinburg, October 28-31, 1997 - p.69].

The same electrical resistance data are presented in a pie chart (Figure 4). The general name of the diagram with the EX profiles applied on it is called the circular “Rofogram”.

In table 1 above, you should pay attention to the column of numbers that display the EX of meridians. The value of electrical resistance reflects normal values.

Figure 4 presents the profile of the EX on a circular Rofogram in children of the comparison group.

We performed the Rofes-diagnostics for all children who were admitted to the hospital with an established (endoscopy) diagnosis - peptic ulcer in the period of exacerbation (70 patients). These children were subsequently observed for 2-3 years and Rofes was diagnosed at least three times a year, taking into account seasonal exacerbations of these diseases: March-April, September-October, December-January. With an exacerbation of the ulcerative process of the mucous membrane of the duodenum, the table with EX indicators acquired the following values (Table 2).

From the presented data, it follows that the digital expression of ECS at biologically active points of classical meridians in patients with peptic ulcer of different ages did not differ significantly: both in children aged 7 to 10 years, and in adolescents aged 11 to 15 years.

The analyzed parameters were reduced in the meridians of the colon (7-10 years, Gi s - 28.9 ± 1.4 d - 30.2 ± 1.5; 11-15 years, Gi s - 27.8 ± 0.6 d - 28.9 ± 0.7), small intestine (7-10 years, iG s - 26.2 ± 2.4 d - 28.3 ± 2.8; 11-15 years, iG s - 33.1 ± 1.1 d - 31.2 ± 1.0), triple heater (7-10 years, Tr s - 27.7 ± 1.9 d - 26.8 ± 2.2; 11-15 years Tr s - 27 , 8 ± 0.9 d - 28.2 ± 0.9), gall bladder (7-10 years VB s - 29.5 ± 1.2 d - 29.0 ± 1.3; 11-15 years, VB s - 29.2 ± 0.7 d - 29.6 ± 0.7) and liver (7-10 years old, F s - 27.2 ± 1.8 d - 28.3 ± 1.4; 11-15 years, Fs - 29.9 ± 0.7 d - 28.3 ± 0.6).

Figure 5 presents the rofogram of a 10-year-old patient with peptic ulcer.

Figure 6 presents the rofogram of a 15-year-old patient with peptic ulcer.

Figure 5 shows the "dropping" of the circular rofogram in the meridian of the small intestine (iG) and heart (C). The same “dropping” of the circular ergogram is noted on the meridian of the pericardium (MC) and triple heater (Tr). Figure 6 shows an even more pronounced "dropping" of the erofogram in the region of the small intestine (iG), a significant "dropping" of the circular erofogram in the region of the triple heater (Tr) and the alignment of the circular erofogram in the pericardial region (MC).

From the presented tables it is seen that in all patients aged 7-10 years (children) and 11-15 years (adolescents) with duodenal ulcer during exacerbation, the same symptom was present on the rofogram: characteristic tooth (retraction) C- iG. Unlike children in the comparison group, during exacerbation of EX, in biological active points of the colon, stomach, pancreas, triple heater, gall bladder, and liver, they were reduced by 1.5 times, and in the BAT of the small intestine by more than 1.7 times.

Thus, using the “Rofes-diagnostics” in patients with peptic ulcer disease, it is possible to trace the systemic nature of the damage to many organs, which indicates the need to prescribe complex therapy to patients without the use of expensive clinical and instrumental studies.

The control measurement of Rofes-diagnostics, carried out 2-3 weeks after discharge from the hospital in our patients, showed the stabilization of ECS (Fig.6) in 82% of patients, stating the period of clinical and laboratory remission. In the rest (28%), EKS in the measured BAT corresponded to the unstable state of the gastrointestinal tract, due to the insufficient treatment period, which required further correction.

Figure 7 presents the rofogram of a patient with peptic ulcer of the duodenum during unstable remission. After additional medication and physiotherapy, ECS approached stable indicators, which corresponds to complete remission. The rofogram has come closer in shape to a circle.

Table 3. Data on ECS of representative BAT in children with duodenal ulcer 2-3 weeks after discharge from the hospital. Meridians duodenal ulcer n = 70 comparison group, n = 123 Lung (P) Left branch (S) 34.8 ± 0.3 39.1 ± 0.1 Right branch (D) 39.3 ± 0.1 39.7 ± 0.3 Large intestine (Gi) Left branch (S) 38.6 ± 0.3 39.1 ± 0.3 Right branch (D) 36.7 ± 0.2 39.8 ± 0.2 Left branch (S) 36.8 ± 0.1 39.7 ± 0.1 Stomach (E) Right branch (D 38.7 ± 0.4 39.3 ± 0.2 Pancreas (Rp) Left branch (S) 36.2 ± 0.4 39.2 ± 0.3 Right branch (D) 35.6 ± 0.2 39.3 ± 0.3 Hearts (C) Left branch (S) 36.3 ± 0.1 38.9 ± 0.4 Right branch (D) 37.1 ± 0.4 39.1 ± 0.4 Left branch (S) 38.7 ± 0.3 39.4 ± 0.2 Small intestine (iG) Right branch (D) 36.5 ± 0.2 39.1 ± 0.3 Left branch (S) 33.6 ± 0.1 39.3 ± 0.1 Bladder (V) Right branch (D) 32.9 ± 0.2 40.1 ± 0.2 Kidneys (R) Left branch (S) 34.7 ± 0.3 41.7 ± 0.2 Right branch (D) 35.3 ± 0.1 39.2 ± 0.2 Pericardium (MC) Left branch (S) 36.9 ± 0.1 39.3 ± 0.1 Right branch (D) 34.7 ± 0.2 39.2 ± 0.3 Triple Heater (Tr) Left branch (S) 34.3 ± 0.1 39.6 ± 0.1 Right branch (D) 34.6 ± 0.3 39.3 ± 0.2 Gallbladder (VB) Left branch (S) 37.6 ± 0.4 39.1 ± 0.3 Right branch (D) 39.8 ± 0.2 38.2 ± 0.1 Liver (F) Left branch (S) 37.9 ± 0.1 38.9 ± 0.2 Right branch (D) 36.3 ± 0.4 38.8 ± 0.1

Conclusion

Materials are presented for screening diagnostics of peptic ulcer in children and adolescents based on a study of the pattern of changes in electric skin resistance (EX) at biologically active points (BAP) of twelve classical human meridians (Rofes Diagnostics).

It has been established that in patients with ulcerative lesions of the upper gastrointestinal tract, the ECS value at the biologically active points of some meridians varies. A decrease in ECS was observed in the meridian of the colon (Gi), stomach (E), heart (C), small intestine (iG), pericardium (MC) and triple heater (Tr). When analyzing the digital expression of ECS at biologically active points in patients with duodenal ulcer, the smallest numbers in the small intestine meridian were observed. Changes in ECS in the small intestine meridian in the form of their persistent decrease were observed in all patients, and persisted until clinical and laboratory remission.

Claims (1)

A method of electropuncture diagnosis of exacerbation of duodenal ulcer in children and adolescents using the Rofes apparatus, which consists in the fact that the microcurrents act on biologically active points (BAPs) of the 12 main paired meridians of the human body, analyze the results of the BAT's response to this irritation, the results are presented in the form of BAT (ECP) electrodermal conductivity profiles displayed on a pie chart, as well as in the form of digital tables, characterized in that they use a bipolar test the measurement of each measured biologically active point, as well as the fixation of frequency changes during adaptation of the measured points to the provoking current within: U = 4 B; I = 60 μA; P = 0.24 mW, for 0.2 s; in the period of exacerbation of peptic ulcer of the duodenum, a decrease in electric skin resistance (EX) in the BAP of the small intestine - iG, heart - C is 1.5-2 times higher than the norm, and on the circular urogram there is a "pull" of the circular urogram to the center in those segments (iG, C); during clinical and laboratory remission, ECS of the indicated meridians approaches the norm, which is reflected in the table indicators, on the circular rofogram "retraction", characteristic for the period of exacerbation, are aligned.

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