RU2117495C1 - Method and device for physiotherapeutic treatment - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method includes fixing of treating member to patient's body area, provision of contact of treating member with patient's skin and realization of physiotherapeutic treatment by supply of positive electrostatic charges to treating member from generator of electrostatic charges. Voltage of electrostatic field is set depending on age and character of disease of patient within the range of 4.5-22.5 V. The claimed method is realized with the help of device which has treating member, generator of electrostatic charges which is connected with its positive terminal to treating member. It is made of conducting material and has means for its fixation to area of treatment. Treating member is made in the form of unclosed circular member from wire, or in the form of chain, or circular plate. Generator of electrostatic charges may be made in the form of galvanic cells connected in series. EFFECT: extended range of use of physiotherapeutic treatment and simplified design of device. 6 cl, 8 dwg

Description

 The invention relates to medicine and can be used for the treatment and prevention of diseases such as tonsillitis, sinusitis, radiculitis, toothache, skin inflammatory diseases, wound healing, etc.

 A known method and device for physiotherapeutic effects (see copyright certificate N 349399, IPC A 61 N 1/10, 1966).

The method of physiotherapeutic influence described in the copyright certificate N 349399 includes frictional interaction of an ebonite disk with a polished work surface charged with electrostatic electricity of negative polarity and the skin of the patient. Negative electrostatic charges on the surface of the disk are formed in the process of friction of the ebonite disk on the material from the wool. This method is used mainly for the treatment of neurological diseases. Analysis of the known method of physiotherapeutic exposure shows that it is characterized by significant disadvantages that limit its use in medical practice. So, in particular:
- the method involves the need for periodically constant renewal of electrostatic charges on the surface of the ebonite disk;
- a significant disadvantage of this method is the unregulated value of the electrostatic field on the working surface of the disk and, as a result, the impossibility of individual selection of exposure to the patient depending on his age and nature of the disease;
- a significant drawback of this method is that the active physiotherapeutic effect on the patient is limited only while the massage of the corresponding body area is performed;
- the method has a limited range of use, since it most often requires another (physically strong) person to use it.

 This method of physiotherapy is implemented using the device described in the copyright certificate N 349399. The device for physiotherapy is made in the form of a solid substance that creates static electricity during friction, for example, ebonite in the form of a disk with a polished work surface. This device is used for physiotherapeutic effects and removal of electrostatic charges from human skin, which helps to reduce fatigue, etc.

Constructive analysis of the known device for physiotherapeutic effects according to the copyright certificate N 349399 shows that the device has a number of significant disadvantages. So, for example, this device:
- has a very limited scope and cannot be used for the treatment of inflammatory skin diseases, for the treatment of injured areas of the body, for the treatment of wounds, tonsillitis, sinusitis, and other inflammatory processes;
- it is practically impossible to use for the treatment of preschool children;
- unregulated value of the electrostatic field does not allow for the individual selection of physiotherapeutic effects, depending on the age and nature of the disease;
- the short duration of its impact, since the active physiotherapeutic effect on the patient is carried out only directly during the massage period.

 There is also known a method and device for physiotherapeutic effects described in the copyright certificate N 1761157, IPC A 61 N 1/22, 1989, and selected as a prototype of the claimed technical solution.

 According to copyright certificate N 1761157, the method of physiotherapeutic influence includes fixing the acting element on a part of the patient’s body, providing direct contact of the acting element with the patient’s skin, frictional interaction of the copper working surface (part 12 of shell 2) with the skin. In this case, complex electrochemical metabolic processes occur, the result of which is a physiotherapeutic effect on the human body. The consequence of these processes is the accumulation of a positive charge by the shell 2, which is neutralized by the negative charge of the base 1. This method is used for physiotherapeutic exposure and removal of electrostatic charges from the human skin, which helps to improve the well-being of a person, increase his efficiency, etc.

Despite the fact that this method of physiotherapeutic exposure does not require constant periodic renewal of electrostatic charges on the surface of the acting element (as is the case in the method according to the copyright certificate N 349399), however, this method of physiotherapeutic exposure is also characterized by significant disadvantages that limit its area and effectiveness applications in wide medical practice. Among the significant disadvantages of this method include:
- low physiotherapeutic effect on the patient, since the voltage of the electrostatic fields is low, since the magnitude of the electrostatic field in this method depends on the friction of the device on the clothes of the patient. Therefore, this method can only be used in the waking state of the patient.

- this method cannot be used to treat diseases such as tonsillitis, sinusitis, radiculitis, toothache, skin inflammatory diseases, etc., since the area of influence of this method is only the wrist of a person;
- a significant disadvantage of this method is the unregulated value of the electrostatic field on the working surface of the acting element, which does not allow for the individual selection of the impact on the patient depending on his age and nature of the disease.

 The present method of physiotherapeutic influence is implemented using the device described in the copyright certificate N 1761157. The device for physiotherapeutic influence contains an acting element made of copper filament obtained by high-speed melt quenching with a grain size in the structure of less than 3 microns. To enhance the galvanic effect, the device has a dielectric base of an annular open shape from a triboelectret with negative polarization. In this case, the base is equipped with thickenings at the ends, and a hollow twisted toroidal shell is placed from the copper thread, placed on the outer surface of the base.

As follows from the description of the copyright certificate N 1761157, the known device for physiotherapy is made in the form of a medical bracelet, when worn which the copper base has a therapeutic effect and at the same time the electrostatic charge is removed from the skin of a person. At the same time, this device is also characterized by significant design flaws that reduce the efficiency of using the device in everyday medical practice. So, in particular:
- the device is not suitable for the treatment of a number of common diseases (tonsillitis, sinusitis, radiculitis, toothache, skin inflammatory diseases, etc.) since made in the form of a wrist bracelet;
- the present device (as well as the known device according to the copyright certificate N 349399) does not allow you to adjust the value of the electrostatic field on the working surface of the acting element and, as a result, to individually select the effect on the patient depending on his age and the nature of the disease;
- among the disadvantages of the known device should include its structural complexity. So, the acting element must be made of a special grade of copper filament obtained by high-speed melt quenching, which requires special rather complex and expensive equipment for the manufacture of this element. In addition, the acting element must be in the form of a toroidal hollow shell placed on the outer surface of the base, which is again structurally difficult and requires special equipment for manufacturing.

 Thus, the author solves the problem of increasing the efficiency of the physiotherapeutic effect on the patient, providing the possibility of regulating the magnitude of the electrostatic field on the acting element, expanding the range of effective use of the physiotherapeutic effect for the treatment and prevention of diseases such as tonsillitis, sinusitis, toothache, radiculitis, skin inflammatory diseases, etc. n., further simplification of the structural implementation of the device for physiotherapeutic effects, reduce the complexity of its manufacture and ensuring its availability for the general population.

 The solution of this problem is achieved by the fact that in the method of physiotherapeutic exposure, including fixing the acting element on the patient’s area of influence, providing mechanical and electrical contact of the acting element with the skin of the patient and physiotherapeutic effect using electrostatic charges, according to the present invention, the physiotherapeutic effect is carried out by supply of positive electrostatic charges to the acting element with source full-time electrostatic charges. The voltage of the electrostatic field of the source of electrostatic charges is set depending on the age and nature of the patient's disease in the range of 4.5 - 22.5 V.

 The solution of this problem is also achieved by the fact that the device for physiotherapeutic exposure containing the acting element, according to the present invention, is equipped with a source of electrostatic charges, which is connected via a positive terminal through the conductor to the acting element. The acting element is made of conductive material and has a means for fixing it on the impact area. According to the present invention, the actuating element can be made in the form of an open annular element made of wire, or an annular plate, or chain. Accordingly, the means for fixing the acting element on the impact area can have various constructive implementations: in the form of hooks at the end of the wire, a pin element and a loop for a plate and a ring, and a lock for a chain. The source of electrostatic charges is made in the form of series-connected battery cells.

The essence of the invention is illustrated by specific examples of the implementation of the proposed method of physiotherapeutic effects and devices for its implementation, as well as the drawings, which show:
In FIG. 1 is a diagram of a device for physiotherapeutic effects;
in FIG. 2a, 2b, 2c - exemplary options for the structural implementation of the acting elements;
in FIG. 3 to 5 are exemplary embodiments of a source of electrostatic charges;
in FIG. 6 - element for attaching the conductor 3 to the acting element. The proposed method of physiotherapeutic effects is effectively used for the treatment and prevention of a wide range of diseases. We give a specific example of the implementation of this method of physiotherapeutic effects on the example of the treatment and prevention of tonsillitis and sinusitis.

 The inventive method of physiotherapeutic exposure is implemented using a special device that contains (see FIG. 1) an acting element 1, a source of electrostatic charges 2, which is connected via a positive terminal through a conductor 3 to the acting element 1. FIG. 1 also shows the fastening element of the wire 3 to the acting element 1 (see position 5) and the fastening element of the same wire 3 to the source of electrostatic charges (see position 6). To fix the acting element and ensure its mechanical and electrical contact on the patient's area of influence, the exposure device has a means for fixing it 4.

 The acting element 1 is made of conductive material (for example, copper, silver, aluminum, gold and other stainless materials) and can have a different shape and configuration. For example, the acting element 1 can be made in the form of an open annular element made of copper wire (0.5 mm: 3.0 mm) (see Fig. 2A). The fixing means in this case, the structural implementation is made in the form of hooks 4.

 The acting element 1 can also be made in the form of an open annular plate with a thickness of 0.2 mm to 2.0 mm and a width of 5 mm to 20 mm (see Fig. 2b), the fixing means of which are made in the form of a pin element and a loop.

 The acting element 1 can be made in the form of a chain (see Fig. 2B), the fixing means of which are made, respectively, in the form of a ring from a support lock.

 To ensure electrical contact of the acting element with the patient’s skin, it is necessary to slightly clean the surface of the acting element 1 from the oxide film before carrying out the physiotherapeutic action (this applies only to the exposure elements made of copper and aluminum).

 In FIG. 3-5 show options for constructive implementation of the source of electrostatic charges 2.

 So in FIG. Figure 3 shows an embodiment using flat battery packs of type 3R12T. The electrostatic charge source 2 contains power sources 7 (3R12T batteries), which are located in the housing 8. 3R12T batteries are connected in series with each other using metal plates 9 fixed in the housing 7. Two metal loops 9a are welded to the ends of each plate 9, into which the positive and negative terminals of 3R12T batteries are inserted.

 A metal sleeve 6 is attached to the housing 8, into which a metal screw 11 with a metal washer 10 is screwed, and one metal loop 9a is welded from below to this sleeve 6. From below, the + terminal of the 3R12T extreme battery is inserted into the loop 9a of the sleeve 6. With this device, a wire 3 is mechanically and electrically connected to the positive terminal of the electrostatic charge source 2.

 In FIG. 5 shows a variant of the source of electrostatic charges 2 using finger-type battery packs of the MAR 2000 type (Energizer). In the case of this constructive implementation of the source of electrostatic charges 2, it contains power sources 7 located in the housing 8. Batteries 7 of type MAR 2000 are connected in series with each other using metal plates 12 fixed in the housing 8. The metal plates have 2 protrusions on the side facing batteries, and the edges of these plates are slightly curved towards the batteries. Using these devices ensures reliable contact of the batteries 7 with the plates 12.

 A metal body 6 is attached to the body 8, into which a metal screw 11 is screwed with a metal washer 10. From the bottom, a MAR 2000 battery is connected with its “+” terminal, which is also the “+” terminal of the electrostatic charge source 2. Using this device 6, a wire 3 is connected mechanically and electrically to the positive terminal of the source of electrostatic charges 2. Detail 14 is a metal cylinder fixed in the housing 8 and electrically in contact with the terminal “-” of the last 15th battery with the help of MAK 2000. Using part 14, the potential “-” of the source of electrostatic charges 2 is derived from the inner part of the housing 8 to its outer part. This is necessary for more reliable operation of the source of electrostatic charges in the proposed device.

 In FIG. 5 shows an embodiment of an electrostatic charge source 2 using battery power sources of type 384 A (or type 386 A), which differ in small dimensions. This version of the source of electrostatic charges can be used as a decoration (like a pendant) in the case when the acting element is made in the form of jewelry (chain). The design of the source of electrostatic charges 2 in this embodiment contains power sources in the form of batteries of type 384 A (386 A) located in the housing 15, on the end of which a metal sleeve 16 is screwed with a metal lock 17. The lock 17 is designed to provide reliable mechanical and electrical contact sleeves 16 with an actuating element 1 in the form of a chain. The lower part of the sleeve 16 provides mechanical and electrical contact of the + terminal of the electrostatic charge source 2 with the lock 17. A metal screw 18 (with a hole inside the screw 19) is screwed into the housing 15, which fixes the position of the batteries 7 in the body of the housing 15 and presses them against each other friend and to the bottom of the sleeve 16. To the upper part of the screw 18 is glued a washer 20 of a dielectric with a hole in the middle. This washer is needed to isolate the "-" terminal of the electrostatic charge source 2 from the metal housing 15 to which the + terminal of this source 2 is connected.

 Instead of a screw 18, a device of type 21 can be used (see FIG. 6), which is a metal cylinder that is screwed onto the housing 15. Inside the cylinder 21 there is a cylinder 22 with an opening 23 and a dielectric washer 24. The cylinder 22 with the washer 24 in this embodiment performs the same functions as the screw 18 in the previous embodiment, i.e. the cylinder 22 with the washer 24 as the cylinder 21 is screwed tightly presses the batteries 7 against each other and to the lower part of the sleeve 16 and fixes them in this position. The hole 19 in the screw 18 and the hole 23 in the part 21 serve to depressurize that part of the housing 15 into which the batteries of the electrostatic charge source are installed. This requirement is usually met when using batteries of this type.

 In FIG. 6 shows the fastening element 5 of the conductor 3 to the acting element 1. The fastening element 5 consists of a metal body 25 made in the form of a cylinder, a metal lock 26 is welded to the upper part, and a metal clamp screw 27 is screwed into the lower part of the cylinder 25. A side screw 25 is drilled. hole 28 so that the stripped end of wire 3 can be inserted into it. This end of wire 3 is fixed in the body of the housing 25 by means of a clamping screw 27. Thus, the wire 3 is mechanically and electrically connected to the body 25 ohms and with the lock 26. With the lock 26 of the conductor 3, the fastening member 5 is connected mechanically and electrically to the element 1 is exerted.

 We describe the methodology for the treatment and prevention of angina disease using a specific example.

 1) Consider the treatment and prevention of gland disease using the example of the source of electrostatic charges shown in Fig.3. Depending on the age and severity of the sore throat disease, the magnitude of the electrostatic field strength of the source of electrostatic charges is chosen. For this, for an adult patient with angina, 3 batteries of type 3R12T are taken and inserted into the housing 8 of the electrostatic charge source according to Figure 3 starting from the leftmost cell one after another without a gap. In this case, the corresponding battery terminals are inserted into the metal loops 9a (see Fig. 3). As a result, the value of the electrostatic field voltage of the source of electrostatic charges will be 13.5 V (4.5 V • 3).

 2) Select the corresponding acting element 1, for example, in the form of a wire ring (see Fig. 2A). This embodiment of the actuating element 1 is easiest to use while the patient is sleeping.

 3) Choose a flexible stranded wire with a length of 2-3 m (for the case of a bedridden patient or for using the proposed device while the patient is sleeping) or 0.5-1 m long (for a wearable version of the device used in the daytime). The cross section of the electrically conductive part of the wire 3 is chosen to be 1-2 square meters. mm so that such a wire could not be accidentally torn during sleep by the patient.

 4) Strip both ends of the selected wire 3 from insulation and fix one end in the sleeve 6 with the washer 10 and screw 11, and the other end of the wire 3 is inserted into the hole 28 of the housing 25 of the fastener 5 and clamped with a screw 27 (see Fig. 6).

 5) The fastening element 5 with the conductor 3 using the lock 26 is fixed on the acting element 1.

 6) The acting element 1 is fixed on the patient's area of influence (in the case of angina, on the patient’s neck) using hooks 4 (see Fig. 1). This provides mechanical and electrical contacts of the acting element 1 with the skin of the neck of the patient. Before putting the acting element 1 on the patient’s neck, it is required to clean the surface of this element 1 from surface oxides if the acting element is made of copper or aluminum.

 7) The source of electrostatic charges, together with the wire 3 connected to its “+” terminal, is neatly laid on the floor next to the patient’s bed from the side where the pillow is located and, without removing the acting element 1 from the neck with the electrostatic charge source connected to it, put the patient to bed.

 8) In the morning, before getting out of bed, the acting element is carefully removed from the patient’s neck, having previously unfastened the hooks, and this acting element 1 is placed next to the bed, but so as not to short-circuit the batteries of the source of electrostatic charges.

 9) If it turns out during the day that the glands have not completely recovered, then in the evening before going to bed they again put on the acting element 1 with an electrostatic charge source connected to it. As the personal 15-year practice of applying the method and device described above has shown, it is usually enough to carry out such a procedure for 1-3 nights in order to completely clean up the tonsils and get rid of a sore throat.

 It is not required to use any medications or procedures so effectively physiotherapeutic effect of the proposed device.

 When applying the above treatment method for 15 years, no contraindications have been identified in relation to the treatment of angina under consideration.

 The above device can be very effectively used as a prophylactic against inflammation of the glands.

 If a person is just starting to feel that his glands begin to ache or if there is an unpleasant sensation when swallowing, it’s enough to put on the acting element 1 at night with an electrostatic charge source 2 connected to it and in the morning, upon waking up, the patient will be healthy and will not feel which Any unpleasant sensations associated with the tonsils.

 If you use the above method for treating inflammation of the tonsils in a child, then the number of 3R12T batteries is installed in an electrostatic charge source of one or two pieces and, accordingly, the voltage at the "+" terminal of an electrostatic charge source will be 4.5 or 9 V.

 It should be noted that the batteries installed in the source of electrostatic charges can serve for a long time without replacement, since the working current of the proposed device is almost equal to the self-discharge current of these batteries. It follows that the battery life is determined by their storage time according to the manufacturer.

 Consider now the procedure for the prevention and treatment of angina of the patient in the case of using a source of electrostatic charges shown in figure 4.

 1) For an adult patient, 9 MAR 2000 batteries (or analogues of these batteries) of 1.5 V each are purchased. These 9 batteries connected in series will create a voltage of + 13.5 V. at the + terminal of the source of electrostatic charges.

 2) Insert these batteries into the housing 8 of the electrostatic charge source according to FIG. 4, starting their installation from the leftmost position without gaps. When installing batteries 7 in the housing 8 of the electrostatic charge source, make sure that the terminals "+" and "-" of the batteries are installed in strict accordance with Figure 4. Otherwise, the voltage at the terminal "+" of the source of electrostatic charges will not correspond to the value + 13.5 V.

 3) Next, all those operations are performed as in case 3a considered above.

 If you use the prevention and treatment of inflammation of the tonsils in a child, the number of batteries of type MAR 2000 is installed in the source of electrostatic charges from 3 to 6 pieces and, accordingly, the voltage at the terminal "+" of the source of electrostatic charges will be respectively from 4.5 to 9 V.

 If a sick person needs to more quickly eliminate inflammation of the tonsils, then in this case, in addition to using the devices described above, depicted in FIG. 3 and 3, used at home in bed, you should use the device shown in FIG. 5.

 In this case, an ordinary metal chain (made of gold, silver and other metals) worn around the neck as an element of jewelry is used as the acting element 1 (see Fig. 2c). The device shown in Fig. 5 is suspended on this chain in the form of a pendant, into which batteries of the BUTTON CELL 384 A type or the like are inserted, and the physiotherapeutic effect on the patient's glands will be carried out in the daytime without interruption from production activities.

 Consider the procedure for the prevention and treatment of angina of the patient in the case of using a source of electrostatic charges, shown in Fig.5.

 1) For an adult patient, 9 384 A batteries of 1.5 V each are purchased.

 2) Each of the batteries of type 384 A is glued over the outer diameter with adhesive insulating tape and cut off this tape so that its edges do not protrude from the battery either from above or below.

 3) Take the device shown in FIG. 5 and a metal sleeve 16 is unscrewed from the housing 15. A screw 18 is screwed into the housing 15 from the bottom side (see Fig. 2b) with a dielectric washer 20 glued to it in the upper part. This screw is screwed so exactly that in the upper part of the housing 15 One type 384 A battery could fit without protruding beyond the edges of this case.

 4) The battery is inserted flat in this space between the upper edge of the housing 15 and the screw 18 with the washer 20 so that the + terminal of this battery is on top.

 5) After that, the screw 18 with the washer 20 is unscrewed from the housing 15 so that another battery of the same type 384 A could be inserted together with the screw 18 and the edge of the housing 15 into the gap between the lowered 384 A battery.

 6) Take a second battery of type 384 A with an insulating coating on the outer diameter and lay it flat on the previously inserted battery so that the + terminal of this new battery, like the previous one, would be on top.

 7) In exactly the same way, another 7 batteries of type 384 A are placed in case 15.

 8) After installing the 9th battery, screw 18 is unscrewed another 5 mm long equal to the length of the protrusion with thread on the sleeve 16.

 9) Screw the sleeve 16 into the housing 15 with a slight tightness. In this case, the lower part of the sleeve 16 is tightly pressed to the + terminal of the upper battery inserted into the housing 15, and all the batteries are also pressed tightly against each other. The amount of pressing the batteries to each other and to the bottom of the sleeve 16 can be adjusted using a screw 18 with a washer 20, screwing this screw into the housing 15 or unscrewing it from the housing 15. Thus, the assembly of the source of electrostatic charges ends.

 10) The assembly of the source of electrostatic charges can also be performed using the device 21 (see Fig. 5), instead of the screw 18. In this case, the screw thread is cut externally on the housing 15. A part 21 is screwed onto this thread of the housing 15, the thread of which is cut inside the wall the housing 21. When screwing the part 21 onto the housing 15, the rod 22 with the washer 24 made of dielectric material glued to its top is pushed inside the same housing 15. The rod 22 with the washer 24 performs the same functions when assembling the source of electrostatic charges as the screw 18 with the washer 20.

 The use of the part 21 instead of the screw 18 is due to the fact that its surface, from a jewelry point of view, can be made more beautiful than the screw 18.

 11) A jewelry in the form of a metal chain (made of gold, silver and other metals) is worn on the bare neck of the patient. In this case, this chain will fulfill the function of the acting element 1.

 12) A source of electrostatic charges is put on chain 1 using a lock 17 (see Fig. 5). As a result of this, a physiotherapeutic effect on the patient’s glands begins, despite the fact that he moves around the apartment or even went to his work, unless of course this allows the patient to feel good.

 13) If by evening the pain in the throat did not go away, then the patient can go to bed with a chain on his neck, to which a source of electrostatic charges is connected, described above in paragraph 8.

 Wearing on the patient’s naked neck (but under clothing) a chain with a source of electrostatic charges connected to it cures the patient of angina, usually within 1-2 days. After the patient has recovered, the chain, together with the source of electrostatic charges connected to it, is removed from the patient’s neck and the process of physiotherapeutic effect on the patient’s glands is terminated.

 If a child is subjected to physiotherapy, then from 3 to 6 batteries of the BUTTON CELL 384 A type are inserted into the housing 15 (see Fig. 5), which will create a voltage of 4 from the electrostatic charge source, respectively , 5 to 9 V. The treatment procedure in this case is no different from that described for an adult patient.

 This method and device for physiotherapeutic effects have been tested by the author and a member of his family for a long time.

 The author of this application began to systematically get a sore throat from the age of 12. Every year he suffered from purulent inflammation of the tonsils two or more times. At my twenties, doctors persistently suggested removing the tonsils. they became big and loose. But I refused the operation and began to fight gland disease with the help of sports and any other available means. He even became a "walrus" and swam in the ice hole for several years in the winter. But radical successes in the fight against inflammation of the glands did not achieve. About 20 years ago, I myself developed and developed a method for the prevention and treatment of inflammation of the tonsils by putting a metal loop on the neck, which is supplied with positive voltage from a source of electrostatic charges. About 20 years have passed since then and I have never had a sore throat. As soon as I began to feel sore throats, I wore a metal noose around the neck at night with a positive voltage connected to it and got up in the morning with a healthy throat. During this time, I was convinced that the metal loop applied to the throat with a positive charge affects not only the glands, but also all parts of the body located near the loop. So I was convinced that over the past 10-15 years I have not lost a single tooth from the lower jaw, while the upper jaw lost its teeth systematically. The fact is that at the age of five I suffered the Leningrad blockade. In addition, the condition of the gums of the upper and lower jaws is also very different. Healthy gums on the lower jaw and patients on the upper.

 The condition of the skin under the loop and next to it also changes significantly for the better: the skin is smoothed, younger, it is not exposed to any inflammatory processes (pimples, etc.).

 My son in childhood also began to have a sore throat. And I ventured from his seven years of age to apply my technique to the treatment of his throat. From then until the age of twenty, he had never had a sore throat. In this case, of course, I first reduced the voltage of the source of electrostatic charges to 9 V.

 Gradually over the past 15 years, I came to the conclusion that applying a metal loop with a positive voltage connected to it on a particular painful part of the body should help improve the condition of this part of the body.

 For back pain arising from radiculitis, I wear a metal loop at night with a source of electrostatic voltage (up to 22.5 V) connected to it and lower back pain in the morning. To further reduce pain, I put 2 batteries in series in my pocket and connect the wire from the “+” terminal of these batteries to a loop on my lower back and go to work with such a device. As a result, over the past 10 years I have never balloted due to radiculitis, although before that I had to be on the ballot because of this more than once and sometimes for several months in a row.

At the same time, I noticed that putting a metal loop on the lower back with a positive voltage connected to it improves the gastrointestinal tract. Given that since childhood I suffered from inflammation of the maxillary cavities and frequent runny nose, breathing through my nose was always difficult for me. Therefore, I decided to start putting on a metal ring for the night with the positive voltage connected to it on the front of the body so that the front of the ring was located between the upper lip and the lower part of the nose. The voltage of the electrostatic voltage source, at the same time, is set to not more than 13.5 V. Two-year application of this technique led to the following results:
1. Purulent inflammation of the maxillary cavities has completely stopped;
2. At night I breathe (including in a dream) only my nose, which I could not achieve before;
3. The number of catarrhal diseases of the nasal cavity has sharply decreased;
4. The use of this technique does not protect a person from an infectious disease with influenza;
5. In the daytime, the truth is still more difficult to breathe through the nose than at night, when a metal ring is placed on the face;
6. Significantly improved the condition of the gums of the upper jaw. All the pain associated with the gums disappeared;
7. Over the past 2 years I have not lost a single tooth from the upper jaw.

 8. The condition of those areas of the facial skin with which the ring worn on the face is in contact has improved.

 These are approximate results from putting a positively charged metal ring on the lower face of a person.

 Once, a cat bit my hand in several places, resulting in two lacerated wounds up to 5 cm long and 1 cm deep on my hand. I washed these wounds with water and put a positively charged metal ring on them. As a result, without the use of any medicine, the wounds healed and healed within 3 days.

 These are the preliminary results of using a positively charged metal ring for the treatment of the above diseases.

 The author is firmly convinced that the possibilities of using the proposed method for the treatment of diseases are incommensurably wider than the list of diseases that were considered above.

Claims (6)

 1. The method of physiotherapeutic exposure, including fixing the acting element on the patient’s area of influence, providing mechanical and electrical contact of the acting element with the skin of the patient, performing physiotherapeutic effects using electric charges, characterized in that the physiotherapeutic effect is carried out by applying positive electric charges to the acting element from a source of electrostatic charges, while the voltage of the electrostatic nical field source of electrostatic charges set depending on the age and nature of the patient's disease in the range 4.5 - 22.5 V.  2. A device for physiotherapeutic exposure, containing an acting element, characterized in that it is provided with a source of electrostatic charges, which is connected via a positive terminal through a conductor to the acting element, wherein the acting element is made of conductive material and has means for fixing it on the affected area.  3. The device according to claim 2, characterized in that the source of electrostatic charges is made in the form of series-connected battery cells.  4. The device according to claim 2, characterized in that the acting element is made in the form of an open ring-shaped element of wire, the fixing means of which are made in the form of hooks at its ends.  5. The device according to claim 2, characterized in that the acting element is made in the form of a chain, the fixing means of which are located at its ends and made respectively in the form of a ring and a lock.  6. The device according to claim 2, characterized in that the acting element is made in the form of an open annular plate, the fixing means of which are located at its ends and are made respectively in the form of a pin element and a loop.

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