RU2082450C1 - Device for carrying out physiotherapeutic treatment - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has high voltage high frequency oscillator with electric discharge cell connected to it. The electric discharge cell is air-tight glass balloon filled with inert gas. Working part of the balloon is formed by two concentric walls of hemispheric shape having free space between them and being hermetically sealed in diameter plane. The inner wall of the balloon has low electric strength providing circumferential coronary discharge arising at the place of wall contact with body surface. Concave surface of the inner wall of the balloon has light-reflecting coating beyond the coronary discharge excitement. EFFECT: enhanced effectiveness in treating wounds and ulcers. 2 cl, 1 dwg

Description

 The invention relates to medical equipment and can be used to treat localized skin pathologies, infected wounds and ulcers by local darsonvalization and ultratonotherapy methods.

Known devices for physiotherapeutic treatment based on the use of alternating currents of high frequency and high voltage: darsonvalization (frequency 100-500 kHz, voltage 20-40 kV) and ultratonotherapy (frequency 22 kHz, voltage 3-5 kV) [1]
The main operating factors of these methods, which are very close in technical implementation and medical indications, are a sinusoidal high-frequency current, a corona discharge arising in the area of contact of special electro-gas-discharge elements with the skin, heat generated in the air, small amounts of ozone and nitrogen oxides formed in the air in the region of the discharge, affecting on the surface of the skin and penetrating through its pores into adjacent tissues, as well as ultraviolet radiation emitted by ionized gas inside the balloon and elektrogazorazryadnogo element (in the case of high voltages used in darsonvalizatsii) and corona discharge between the outer surface of the cylinder and the work body portion, performing the role of "grounding" electrode. Low-intensity ultrasonic vibrations also occur in tissues due to the oscillatory effect.

Electric discharge and sinusoidal current irritate the receptors of the skin and mucous membranes, thereby exerting a reflex effect on various body systems and especially on the autonomic nervous system. At the same time, capillaries expand, tone increases, blood and lymph circulation improves. Under the influence of heat generated in the tissues, excited due to the oscillatory effect in the tissues of ultrasound and the action of the corona discharge, metabolic processes and trophism of tissues improve, congestion, pain, itching decrease, the functional state of the neurovascular system improves, and an antispasmodic effect is manifested. A powerful disinfecting effect is exerted by ultraviolet radiation and ozone, which contribute to the rapid removal of inflammation and accelerated tissue regeneration. The bactericidal properties of ozone are increasingly used in practical medicine [2]
It should be noted that the method and devices for ultratonotherapy, allow to obtain more pronounced anti-inflammatory and analgesic effects compared with darsonvalization. However, there is no unpleasant (sometimes even painful) annoying sensation that occurs with local darsonvalization due to the use of high voltage [3]
Devices for local darsonvalization and ultratonotherapy usually have a high-voltage alternating current generator of high frequency and voltage and a set of hollow glass electro-gas discharge elements of various shapes. Electric gas-discharge elements for darsonvalization are usually filled with air with a small residual pressure or a mixture of metal vapor with an inert gas. For ultratonotherapy, elements filled with neon are used. The kit, manufactured by the industry, has electric-gas-discharge mushroom-shaped elements of several standard sizes, the expanded disk-shaped part of which has a flat working surface, designed to affect even parts of the body using labile or stable techniques. The appearance of such elements is presented, for example, in [4]. This device is taken as a prototype.

 However, the use of such electrodes is associated with certain difficulties in the treatment of a number of pathologies. When the element is brought up with a flat working surface to the body for a short distance (0.5-1) mm (or light contact), a corona discharge is carried out between them, causing ozone to appear in the discharge gap. Ozone that did not react with the body results from diffusion processes and movements of the ambient air from the discharge gap, which, firstly, does not allow to obtain, if necessary, an increased concentration of ozone at the location of the pathology, and secondly, it can cause respiratory tract irritation in the patient and attendants. With many hours of daily use of the device in clinics and medical institutions, the increased ozone content in the air can adversely affect the health of personnel, which requires the use of stationary ventilation units. In addition, the useless loss of ozone reduces efficiency and increases the duration of the procedure.

 When using known electric-gas-discharge elements, a high-frequency current and a corona discharge act on the entire surface of the local area of the body located under the working part of the element. However, for individual skin pathologies, open wounds and ulcers, the direct impact of electric current and corona discharge on them may be undesirable, at the same time, ozone therapy is indicated. In these cases, you cannot use the known means of darsonvalization and ultratonotherapy. However, it is difficult to apply the above-mentioned ozone therapy agents because of their bulkiness and inconvenience of use. In addition, in the known devices for ozone therapy there is no such highly effective bactericidal physical factor as ultraviolet radiation, and the use of combined physiotherapeutic effects, as is known, in most cases is more effective due to the synergy effect.

 The objective of the proposed invention is to expand the functionality of electrotherapy darsonvalization and ultratonotherapy in the treatment of skin pathologies, wounds and ulcers that do not allow direct exposure to electric currents and corona discharge, increase the effectiveness of the therapeutic effect and improve working conditions of staff when working with devices for darsonvalization and ultratonotherapy.

 The technical result of the proposed solution is expressed in the possibility of creating higher levels of ozone concentration directly in the area of the pathological focus, in providing exposure to high frequency currents and corona discharge only on the tissues surrounding the pathology area, in more efficient use of ultraviolet radiation as an additional physical factor, in the elimination of leaks ozone into the environment during the procedure.

 The essence of the invention lies in the fact that in the device for physiotherapeutic treatment, containing a high-voltage generator of high-frequency oscillations, to which an electric-gas discharge element is connected in the form of a sealed glass cylinder filled with inert gas, the working part of the cylinder is formed by two hemispherically concentric walls and installed with a gap, having a gap and hermetically connected to each other in the diametrical plane, while the inner wall of the cylinder has a reduced The electrical strength providing at its place of contact with the surface appearance of a circular corona discharge. The concave surface of the inner wall of the container outside the zone of excitation of the corona discharge has a reflective coating.

 The essence of the technical solution is illustrated by the drawing, which shows the proposed device without a generator, General view.

 The device is a sealed container made of quartz (for darsonvalization) or ordinary (for ultratonotherapy) glass. The cylinder consists of a non-working cylindrical part 1 for mounting in the base and the working part 2, which is formed by two hemispherical walls 4 and 5 concentrically arranged with a gap of 3. Both walls have a hermetic connection 6 in the diametrical plane. The inner wall 5 of the container has a reduced electric strength with respect to the outer wall 4, which, in particular, is achieved by reducing its thickness or by changing the dielectric characteristics of the material of the inner wall 5. In the non-working cylindrical part of the cylinder 1, a metal electrode 7 is mounted for supplying high voltage (electrode 7 may not be present in darsonvalization devices, similar to how it was done in / 5 /). The pressurized cylinder cavity in the gap 3 of the darsonvalization element can be filled with air with a small residual pressure (0.1 0.5) mmHg) or with a mixture of mercury vapor and inert gas. In our case, the device is designed for ultra-tonotherapy and the sealed volume of the balloon is filled with neon under a pressure of (10 15) mm Hg. A reflective coating 8 is applied to the concave surface of the inner wall 5 of the container (coating 8 is necessary in the electric-gas discharge element for ultratonotherapy; it is absent in the darsonvalization element, which is explained in the description of the operation of the proposed device). In the drawing, the device is shown pressed with a diametrical plane to the surface of the body 9, which has a pathological focus 10. Digital designation 11 shows the annular region in which a circular corona discharge occurs at the point where the concave surface of the inner wall 5 of the balloon touches the surface of the body 9. Ozone accumulates in the cavity 12 when applying an electric-gas discharge element to the body 9.

 The device operates as follows. When a high-frequency voltage is applied to the electrode 7, an inert gas is ionized in the gap 3, as a result of which the sealed cavity of the cylinder acts as a safe electrode that evenly distributes the transferred electric charges across the entire inner surface of the cylinder. A serviceable electrode for darsonvalization should glow with violet light, part of the spectrum of which falls on ultraviolet radiation within the wavelength range of 180 254 nm. The neon element for ultratonotherapy glows with an orange-red light and there is no ultraviolet radiation in its spectrum.

 When an electric-gas discharge element is applied to the body with a diametrical plane, the high-frequency current begins to flow from the ionized gas in the gap 3 through the inner glass wall 5 with reduced electric strength (more precisely, through its electric capacitance) and the air gap in the annular zone 11 between the inner surface of the wall 5 and the surface of the skin of the body 9. Moreover, in the annular zone 11 is a circular corona discharge. A corona discharge does not occur between the outer surface of the outer wall 4 and the body, since it has a higher dielectric strength (increased thickness or higher dielectric characteristics). The discharge occurs in a narrow annular zone, since its distribution is limited by the increasing air resistance in the discharge gap as it moves away from the treated surface of the body in a closed volume, limited by an internal cavity 12 of a hemispherical shape formed by the wall 5. The transmitted high-frequency current closes to the ground through the distributed capacity of the patient’s body 9 along the perimeter of the cavity 12. Thus, the high-frequency current and corona discharge do not directly affect the pathologist nidual focus 10. At the same time, under the influence of a corona discharge in zone 11, ozone is produced that does not enter the environment and accumulates (within the limits of standards safe for the body) in volume 12, having a disinfecting effect on the microorganisms of the infected tissues of focus 10. This contributes to and non-contact exposure to ultraviolet radiation passing through the transparent wall 5 from the luminous gas volume in the gap 3 to the pathological focus 10 and creating a “light boiler” around it in the volume 12 (if used element for darsonvalization). In the elements for ultratonotherapy, the luminous gas in the gap 3 does not contain ultraviolet radiation in its spectrum. However, a low-intensity ultraviolet radiation flux is created directly by a corona discharge in the annular zone 11. Since these fluxes propagate in relation to the focus 10 in the tangential direction, the efficiency of their interaction with tissues is low. To increase it, it is advisable to apply a reflective coating 8 to the concave surface of the inner wall 5 of the balloon outside the corona discharge excitation zone 8. In this case, the ultraviolet light quanta formed by the corona discharge fall on the pathological focus 10, reflected from the coating 8, which leads to an increase in the treatment exposure created by the element for ultratonotherapy.

 At the end of the procedure, the voltage is turned off, but the element is not removed from the body for some time to more complete decomposition of ozone residues in a volume of 12 and to reduce its amount that enters the environment.

 Thus, it is obvious that the device has a number of significant advantages, since its design provides an effective therapeutic effect of darsonvalization and ultratonotherapy on skin pathologies, wounds, and ulcers, which do not allow direct exposure to electric currents and corona discharge. In addition, this design reduces the ingress of ozone into the environment, which is important both in the environmental aspect and from the point of view of reducing the harmful effects on the respiratory organs of the patient and staff. In this regard, it is advisable to supplement the existing set of electric-gas-discharge elements for darsonvalization and ultratonotherapy devices with elements of the proposed design with several sizes.

Claims (2)

 1. Device for physiotherapeutic treatment, containing a high-voltage generator of high-frequency oscillations, to which an electric-gas-discharge element is connected in the form of a sealed glass cylinder filled with inert gas, characterized in that the working part of the cylinder is formed by two concentrically located and sealed with a gap walls having a hemispherical shape and hermetically connected to each other in the diametrical plane, while the inner wall of the cylinder has a reduced electric strength b, ensuring at the point of contact with the surface appearance of a circular corona discharge.  2. The device according to p. 1, characterized in that the concave surface of the inner wall of the cylinder outside the zone of excitation of the corona discharge has a reflective coating.