RU2045297C1 - Device for physiotherapy - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: device can be used for treatment of hollow organs of man by action of high-voltage voltage of high frequency. It has high-voltage generator of high-frequency oscillations to which electro-gaseous discharge element in the form of cylindrical tight dielectric bottle is connected. Bottle is filled with inert gas. It has walls of variable thickness due to availability of recessions in outer surface. Difference in thickness of walls is chosen from condition specified in description of invention. EFFECT: enhanced efficiency of intracavity procedures. 2 cl, 1 dwg

Description

 The invention relates to medical equipment and can be used to treat hollow organs of a person by exposure to high-frequency voltage of high frequency.

 Known therapeutic methods based on the use of alternating currents of high frequency: darsonvalization using a current with a frequency of 110 kHz, modulated into a series of bell-shaped oscillations, and a very close to it method of ultratonotherapy using currents of a supertonal frequency (22 kHz) of a sinusoidal form (Technique and Methods physiotherapeutic procedures (reference book). Edited by V.I. Bogolyubov, M. Medicine, 1983, V.S. Ulashchik. New methods and techniques of physical therapy. Minsk, Belarus, 1986; V.G. Yasnogorodsky. Electrotherapy. M.Medicine, 1987). Having significant similarities in the technique of carrying out procedures and the mechanism of action with darsonvalization, ultratonotherapy has a more pronounced anti-inflammatory and analgesic effect, and creates less pronounced irritating sensations.

 In the known apparatus, a generator of high-voltage sinusoidal oscillations of a supratonal frequency with a high-voltage output is used, to which a hollow electro-gas-discharge element is connected in the form of a glass cylinder filled with rarefied neon. Cylinders can have a different shape, depending on the characteristics of the site of exposure, mushroom, cylindrical, etc. Local exposure to the surface of the body is carried out according to a labile and stable technique with a mushroom-shaped electric-gas-discharge element through a layer of gauze, which creates a guaranteed air gap between the surfaces of the element and the body. Moreover, as a result of the occurrence of a corona discharge, an electric field of a natal frequency has a complex effect on a diseased part of the body; ultrasonic vibrations of low intensity that occur directly in the tissues (oscillatory effect); weak ultraviolet radiation; heat arising in the tissues of the body and in the area of the corona discharge, as well as ozone generated during corona discharge and penetrating to some depth in the tissues of the body.

 However, it is not difficult to understand that when carrying out abdominal procedures with known cylindrical electro-gas-discharge elements (rectal and vaginal), a number of these physiotherapeutic factors are absent. This is due to the fact that when an element is inserted into the cavity of the wall of the latter due to the elasticity of the smooth muscles of the organ, the balloon is tightly encircled. As a result, there is no air gap between the surface of the cavity and the surface of the balloon, which makes the development of a corona discharge impossible. Therefore, during cavity procedures, there are no physiotherapeutic factors such as ultraviolet radiation and ozone, which are known to have a powerful disinfecting effect.

 To save all physiotherapeutic factors inherent in ultratonotherapy and darsonvalization, in relation to cavity procedures, the present invention allows.

 The objective of the invention is to increase the effectiveness of intracavitary exposure when carrying out ultratonotherapy.

 The technical result of the proposed solution is expressed in such an embodiment of an electric-gas-discharge element cylinder, in which a corona discharge is produced in the cavity subjected to the action, producing, like during external procedures, such active factors as ozone and ultraviolet radiation that have a strong bactericidal effect.

The essence of the invention lies in the fact that in the device for physiotherapeutic treatment, including a high-voltage generator of high-frequency oscillations and an electric-gas discharge element connected to it, containing a sealed cylindrical cylinder made of dielectric filled with inert gas, a number of recesses are made on the outer surface of the cylindrical cylinder, the depth of which is determined by the ratio ( d ₁ -d ₂ )> l, and the difference in the cylinder wall thickness at the locations of the recesses is selected from the condition d ₁ > U / E> d ₂ , where d ₁ the cylinder wall thickness without microns, cm; d ₂ cylinder wall thickness at the location of the recess, cm; l the amount of deflection of tissues at the site of exposure in the recesses, cm; U is the maximum voltage generated by the generator, kV; E field strength at which a corona discharge occurs, kV / cm. At the same time, a collar is made at one end of the container, and an annular stop at the other.

 The essence of the proposed technical solution is illustrated by the drawing, which shows a diagram of the device.

The device comprises a high-voltage generator of high-frequency oscillations (not shown in the drawing) and an electric-gas-discharge element 1 connected to its output. Element 1 is a cylindrical sealed cylinder 2 made of a dielectric, for example, glass. The cylinder has a cavity 3 filled with a rarefied inert gas. The gas is excited through a metal electrode 4, to which a high voltage voltage is supplied from the generator. Using the electrode 4, the gas-discharge element 1 is fixed in the slot of a special holder (not shown in the drawing). At the semicircular end 5 of the cylinder 2 at the junction of the spherical and cylindrical surfaces there is an annular bead 6, designed to remove (shear) the remnants of mucous secretions, the bulk of which before the procedure can be removed with a swab moistened in a specific solution from the surface of the treated cavity. At the opposite end of the balloon 2 there is an annular stopper 7 (which is a collar of large diameter), restricting the entry of the balloon into the corresponding organ during rectal or vaginal use. The wall of the cylinder 2 on the cylindrical part between the shoulder 6 and the limiter 7 has a variable thickness due to the large number of recesses 8 from the outer surface. The recesses 8 may have a hemispherical or cylindrical shape with rounded edges and are arranged in rows, along a helical line or in a checkerboard pattern. The difference in wall thickness is selected from the condition d ₁ > U / E> d ₂ , where d _{1 the} maximum value of the wall thickness of the cylinder (outside the location of the recesses), cm; d _{2 the} minimum value of the wall thickness of the cylinder at the location of the recess, cm; U is the maximum voltage value generated by the generator, kV; E field strength at which a corona discharge occurs, kV / cm.

The choice of the geometric and electrical characteristics included in this condition is determined by the following considerations. The thickness d ₁ is chosen so that at the maximum voltage U of the generator, the leakage current at the locations of the ridges 9 (when an electric-gas discharge element is inserted into the body cavity) is minimal and would not bypass the discharge current in the recesses 8 through the air gaps 10 between the bottom of the recesses 8 and the surface of the deflections 11 tissues of a hollow organ to a depth of l due to the elasticity of the muscles of smooth muscles. That is, the ridges 9 must fulfill the role of insulators, performing only the function of expanding in the radial directions of the tissues of the treated cavity and creating bit cells of the optimal contour and size. At the same time, at the indicated voltage U, such an electric field strength E is created that exceeds the breakdown voltage of the appearance of a corona discharge through the thickness d ₂ of the balloon wall in the recesses 8 and the air gaps 10 in the recesses between the bottom surface of the latter and the surface of the tissues bent into the recesses to a depth l hollow organ. For the existence of air gaps in the recesses 8 (for given sizes of the latter), the condition (d ₁ -d ₂ )> l (almost 2-3 times) is necessary, which guarantees the development of a corona discharge in the recesses, in which the emission of ultraviolet radiation and ionization of the air accompanied by ozone formation.

 The device operates as follows.

 The gas-discharge element 1, mounted in the holder from the side of the non-working end (limiter 7), is injected with a rounded end 5 rectally or vaginally into the diseased cavity. When moving along the cavity, the balloon 2 pushes the walls of the cavity, compressed due to the elastic properties of smooth muscles. In this case, the annular bead 6 shifts the mucous secretions in the cavity in the direction of entry of element 1. Excess secretions (which may remain even if they are previously removed with a swab) reduces the efficiency of the procedure, since, on the one hand, filling the notches with secretions prevents the occurrence of a corona discharge, and with on the other hand, the discharge prevents direct contact of the formed ozone with the surface of the diseased organ. For ease of use, the maximum depth of insertion of the cylinder 2 into the cavity is limited by an annular limiter 7. After the element 1 is introduced to a predetermined depth, the minimum voltage is supplied to the electrode 4 from the high-voltage oscillator of the natonal frequency. The voltage gradually increases until a weak thermal sensation appears, which indicates the appearance of a corona discharge. The procedure is carried out for 5-15 minutes depending on the indications.

 With the passage of current between the electrode 4 and the cylinder 2, grounded on the patient’s body, inert gas is ionized in the cavity 3, due to which the latter acts as a safe electrode that evenly distributes the transferred electric charges across the entire inner surface of the cylinder 2. As a result, in the wall of the cylinder 2 between the gas volume of the cavity 3 and the surface of the cavity of the diseased organ leak currents, and a corona discharge occurs in the air spaces 10 contained in the recesses 8. Under the action of the discharge, the gas in the gaps 10 is ionized: ionized and excited atoms, molecules, radicals, as well as unstable ozone molecules with a strong bactericidal action are formed. Ozone and air ions are absorbed by the tissues of the diseased organ and create a physiotherapeutic factor. In addition, the ultraviolet radiation, which arises in the discharge gaps of the recesses, has an additional therapeutic effect. The therapeutic effect is also created by the supratonal frequency currents characteristic of ultratonotherapy, ultrasound, and the heat released during corona discharge.

 Thus, the proposed device provides the maximum possible complexity of the physiotherapeutic effect when performing intracavitary procedures by the method of ultratonotherapy.

 The proposed electro-gas-discharge element is intended for joint use with the Ultraton-AMP apparatus, the first small-sized apparatus in domestic medicine designed for ultratonotherapy at home according to well-known approved methods.

Claims (2)

DEVICE FOR PHYSIOTHERAPEUTIC TREATMENT, including a high-voltage generator of high-frequency oscillations and an electric-gas-discharge element connected to it, comprising a sealed cylindrical cylinder made of dielectric filled with inert gas, characterized in that a number of recesses are made on the outer surface of the cylindrical cylinder, the depth of which is defined by the ratio (d _{1 2} d )> l, and the difference in the wall thickness of the cylinder at the locations of the recesses is selected from the condition
d ₁ > U / E> d ₂ ,
where d ₁ the wall thickness of the cylinder without a recess, cm;
d ₂ cylinder wall thickness at the location of the recess, cm;
l the amount of deflection of tissues at the site of exposure in the recesses, cm;
U is the maximum voltage value generated by the generator, kV;
E is the field strength at which a corona discharge occurs, kV / cm.  2. The device according to claim 1, characterized in that a collar is made at one end of the container and an annular stopper at the other.