RU2373918C1 - Diagnostic technique and conditioning of electrodermal resistance in biologically active points - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention concerns medicine, namely physiotherapy, and can be used as puncture physiotherapy for conditioning of electrodermal resistance of biologically active points (BAPs). That is ensured by exposing biologically active points of the patient's body meridians to low-frequency pulse currents in continuous or graduated biologically electrostimulation with using apparatus SCANAR-97 in automatic continuous or graduated operation with peaked pulse shape of frequency 80 Hz and duration 20-40 ms. Exposition time is 1-2 to 10 minutes.

EFFECT: offered parametres are optimal for exposure on BAPs that allows for effective alignment of electrodermal resistance of meridian BAPs ensuring effective medical effect on pathological process.

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Description

The invention relates to medicine, namely to puncture physiotherapy in pediatrics.

This invention is a method of preliminary electrodiagnostics by applying pulsed electric currents to biologically active points (BAP), the electrophysiological state of which allows the use of the proposed method, prior to subsequent treatment and rehabilitation measures for various diseases in children. An analogue of this invention is a method of influencing BAT in diseases of the gastrointestinal tract (GIT) using electric pulse currents from devices such as "ELAP", "ELITA-4", "PEP-1", etc. [F.G. Portnov, "Electropuncture reflexology." - Riga: "Znatne", 1982. - S.105-112; Bogolyubov V.M., Ponomarenko G.N. "General physiotherapy." - M. - S.-P., 1996, p.108-111] in stimulating modes of the pulse current parameters. We used the “PEP-1” device, intended for electropuncture, as an analog. In order to diagnose and equalize the skin resistance, cutaneous disk electrodes were used, the impact current at a load resistance of 50 kOhm was not less than 50 μA. Measurement and impact on the BAT is possible both in constant and automatic switching mode so (switching current polarity for 1, 5, 15, 30, 45, 60 s.). The equipment of this “old” generation allows you to act simultaneously on several BAT and, automatically, in the specified mode, switch the pulse repetition rate, pulse polarity and amplitude from 0 to 500 μA. The procedures were carried out for at least 30 minutes. For electropuncture in the treatment of diseases of various organs and systems of the gastrointestinal tract, single and bipolar non-physiological rectangular current pulses with a frequency of 80 Hz were used, dosed manually or using the parcel-pause mode (1-4 s); but the latter were not optimized and often did not cause changes in the pathogenetic mechanisms of the development of the disease, did not affect the pathogenetic mechanisms of the development of the pathology of internal organs, or increasing gastric secretion.

This is largely due to the fact that the magnitude of the pulse current is small

(10 ^-7 A · m ^-2 ) and clearly insufficient to excite the associated nerve fibers.

As the closest analogue of the present invention, we have chosen a method that uses sinusoidal modulated currents (SMT) generated by the devices of the Amplipulse series [Ushakov A.A. Guide to practical physiotherapy. - Moscow, "ANMI", 1996. - p.26]. For treatment procedures, open BAPs carry out impacts (“opening”) on insulator points, semiconductor points of the interested meridians of the body using variable I, III, and IV genera of work at a modulation frequency of 80 Hz, modulation depths of 50-75%, current amplitude - to a pronounced painless vibration (15-20 mA), with an exposure of 5-10 minutes. The disadvantage of using SMT is the low physiology of the sinusoidal or half-sinusoidal signal, which is not characteristic of living excitable systems [Krasnogorskaya N.V. Electromagnetic fields in the biosphere. T.1. - M .: Nauka, 1984. - S.5-11]. In addition, the rhythmic effect of SMT impulses and oscillations of the same nature causes the rapid adaptation of BAP tissues to them, which prolongs the period of “opening” the point and does not allow it to be carried out in one procedure — as a rule, they have to be performed 2-3 times. The disadvantages of the known solutions are also the relatively large area of exposure, the limited biological and therapeutic effectiveness of the applied electrical signals, which affect the local microcirculation processes and do not significantly affect autonomic-sensory disorders and trophic tissue and organs during BAP stimulation. Such low efficiency is explained by “hard” exposure parameters (rectangular, sinusoidal or half-sinusoidal impulse) and the conditional time of the end of exposure to the BAP.

The aim of the invention is the diagnosis of the electrophysiological state and the alignment of electric skin resistance - the "discovery" of biologically active points that are in the state of insulator points and semiconductors through bioregulated electrical stimulation from devices of the SCENAR-97 series.

A method is proposed for leveling the electric skin resistance of biologically active points by exposure to low-frequency pulse currents in the continuous or dosed bioregulated mode of electrical stimulation, characterized in that for the electric effect on the biologically active points of the patient’s body meridians, an automatic continuous or dosed mode of operation of the SCENAR-97 series devices is used and use pointed forms of the pulse at a frequency of 80 Hz with a pulse duration of 20-40 ms and exposure of 1-2 minutes about 10 minutes.

The effect on the BAT of the meridians of the human body using bioregulated electrical stimulation is different in that it uses triangular-shaped electric current pulses similar to the action potentials of living excitable systems, which ensures subsequent medical manipulations [Gulyaev V.Yu., Matveev V.A., Oransky I .E. Electrodiagnosis and electrical stimulation (experimental and clinical aspects). - Yekaterinburg, 2004. - 130 p.]. According to our data, the pulse repetition rate coincides with the optimal frequency of impulse nerve fibers passing in the sensitive and motor conductors of the BAP, which provides sequential selective electrical stimulation of various types of nerve fibers. In addition, the various amplitude and frequency of the generated electrical signals from the SCENAR-97 series devices impedes adaptation processes. A change in the microcirculation and tissue metabolism in the zone of influence causes an increase in their significance in the total impedance, that is, it provides a decrease in the reactivity of its components (capacitive and ohmic resistances). This automatically leads to a decrease in the frequency of triangular-shaped alternating current pulses (physiological for living excitable systems) formed using the oscillating circuit of the SCENAR-97 apparatus. At a certain exposure duration (including the duration of the pulse signal period), the exposure also automatically terminates (dosed mode of operation). Thus, the dynamics of the parameters of biocontrolled exposure is determined by changes in electrical properties, i.e. tissue impedance of a particular patient.

SCENAR - diagnostics of the electrophysiological state and alignment of electric skin resistance in order to “open” biologically active points was carried out in 48 children from 8 to 15 years old (girls - 22, boys - 26) with diagnoses: chronic erosive gastroduodenitis, erosive and ulcerative lesions of the upper digestive tract . In total, 336 BAT were involved in the analysis, of which 24 were classified as “open” points, conditionally “open” -142, and 70 “closed” (“isolators”).

The method is as follows. At the first stage of work, in a certain sequence, an impact was made on the BAT of the interested meridians (according to the principle - the smaller the number of arbitrary units, the better the electrical conductivity of the tissues):

1. Diagnostics of the functional state of BAP was carried out. For this, the SCENAR-97 apparatus was oriented by the working terminal to the area of the point under investigation. The "diagnostics" mode was set. The point was considered “open” (conductor) if the instrument readings were 18-22 conventional units, or within 1-2 minutes, in the “electrical stimulation” mode, with the SCENAR-97 apparatus on the BAT, the instrument readings led to a value of 18-22 conventional units.

2. The point was considered conditionally “open” if these indicators fell within the range of 36-45 conventional units, or for this a stimulation mode was required from the SCENAR-97 apparatus for 5-7 minutes.

3. The point corresponded to the parameters of the “closed” (“insulator”), if these values were, according to indications, above 55 units, which corresponded to the mode of electrical stimulation. For normalization of indications with BAT SCENAR-97, more than 10 minutes were required.

At the second stage of work, equalization of the electric skin resistance was carried out in the impact zone. The following parameters of pulsed low-frequency currents from the SCENAR-97 apparatus were used: frequency of pointed pulses - 80 Hz (continuous or dosed pulse generation), pulse duration from 20 to 40 μs, exposure - from 1-2 min to 5 min to biologically active points meridians.

According to our method, the determination of the parameters of the optimal opening of the BAT was carried out as follows. We used all known sources of low-frequency pulse currents corresponding to the claimed method, analog and the closest analogue (table 1).

Note: I is the amplitude value of the pulse current (current strength).

Comparative experimental data are shown in table 2.

For the latter purpose, electro-ohmic (in this case, amplitude - in mA) and conventionally allocated units of electric skin resistance were used. Data on a comparative analysis of the proposed method and the known analogue and prototype are presented in table 2.

Note: NMA is a neuromuscular apparatus.

For further study of the problem of the "discovery" of BAP research in this clinical discipline can be conducted according to the following scheme:

1. The name of the points of insulators and semiconductors.

2. Rigid fixation of their physiological parameters.

3. Normalization of their physiological functions.

Thus, the use of conventional SCENAR-diagnostic units allows precisely in accordance with the dosed mode of the device parameters and the presence of biologically feedback between its capacitive circuit and living excitable systems of the patient’s tissues, in a shorter time, determine the physiological state of BAT involved in the pathological process of the meridian, with the subsequent therapeutic effect on the zones of its constituents, which determine the course of the nosology of various systems and organs (Table 2).

These examples can be illustrated by the following clinical cases.

Example 1

By-E., 12 years old, was admitted with a diagnosis of erosive gastroduodenitis. Similar complaints were made earlier (9 months), was hospitalized, received medication. Over the past 2-3 weeks, he has complained of periodic pain in the right hypochondrium, nausea, fatigue, evening headaches. Conclusion FGDS erosive gastroduodenitis.

For electrodiagnostics, BAT MS-6, Tr-5, E-36, VC-12 were selected (Table 3).

The result of electrodiagnostics in B. E., 12 years old.

Aligned BAT Tr-5, E-36, paired meridians on both sides, as well as the anteromedian meridian VC-12. BAT MS-6 on the right side was subjected to alignment with the SCENAR-97 apparatus for 1 min. After that, it had a value of 21 conventional units, which attributed it to the points (conductor) of “open” and did not require further correction. The alignment of electrophysiological indicators at the points of MC-6 on the left, Tr-5, E-36, VC-12 required more time (Table 4).

The total amount of time did not exceed 25 minutes per procedure. After the first procedure, complaints of nausea, fatigue, evening headaches - significantly decreased. After the second procedure, nausea was no longer disturbed, evening headache and pain in the right hypochondrium decreased by more than half. Complaints after the third procedure only for episodic non-intense pain in the right hypochondrium. Electrodiagnostic indicators of all points were within 18-22 units.

Example 2

B. K., 14 years old, was admitted with a diagnosis of erosive bulbitis. Sick for more than 3 years. Received with complaints: for periodic pain in the epigastric region, decreased appetite, fatigue, irritable. Conclusion FGDS erosive bulbitis. For electrodiagnostics, BAT MS-6, Tr-5, E-36, and US-12 were selected (Table 5)

Aligned BAT MS-6, Tr-5, E-36 paired meridians from two sides, as well as the anteromedian meridian VC-12. Since according to the results of electrodiagnostics, the readings ranged from 32 units to 51 units, these points were referred to as “conditionally open” points (semiconductor) (Table 6). Alignment of electrophysiological indicators at the point MC-6 on the left, Tr-5, E-36, VC-12 required from 2 min 30 ″ to 5 min 15 ″. Considering that the total duration of the procedure did not exceed 25 minutes, and the time spent on alignment took a little more time, the alignment of the anteromedian meridian was carried out in the second procedure.

After the first procedure, complaints of fatigue, irritability, pain in the epigastric region decreased markedly. After the second procedure, complaints about episodic pain in the epigastric region and a decrease in appetite, B. K. did not show. Electrodiagnostic indicators of all points were within 18-22 units. As our studies have shown, one or two SCENAR procedures were enough to “open” a closed — or point “semiconductor”.

Claims (1)

A method of leveling the electric skin resistance of biologically active points by exposure to low-frequency pulse currents in a continuous or dosed bioregulated mode of electrical stimulation, characterized in that for the electrical effect on biologically active points of the patient’s body meridians, an automatic continuous or dosed mode of operation of the SCENAR-97 series devices is used and used pointed forms of the pulse at a frequency of 80 Hz with a pulse duration of 20-40 ms and exposure from 1-2 to 10 minutes