RU2066209C1 - Device for physiotherapeutic treatment of patients with parodont sickness - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: device can be used in stomatology for treatment of parodont by action on affected area with electric current of high frequency and voltage. Device has high-voltage generator of high-frequency oscillations to which electric-gas discharge element in the form of bent cylindrical glass bottle filled with inert gas is connected. Bottle has thick walls. Its side wall has local section which thickness is 4-6 times less than thickness of wall of bottle which is located on its working end on side of internal angle of bending. In this case area of space of bottle at point of location of wall thinning has section in the form of sector with opening angle β lying within limits 60 deg b 180 deg. EFFECT: improved treatment efficiency. 2 cl, 3 dwg

Description

 The invention relates to medical equipment and can be used in dentistry for the treatment of patients with periodontal diseases by exposing the affected area to an electric field of high frequency and voltage.

Known methods of therapeutic effects based on the use of alternating currents of high frequency and 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 corona discharge, which occurs in the area of contact of special electro-gas-discharge elements with the skin; sinusoidal high-frequency current flowing in the tissues; heat that occurs directly in the tissues of the body and in the area of the corona discharge; small amounts of ozone and nitrogen oxides formed in the discharge gap, affecting the surface of the skin and penetrating through its pores into adjacent tissues; ultraviolet radiation emitted by ionized gas inside the gas-discharge element cylinder (in the case of high voltages used in darsonvalization) and directly by corona discharge, as well as low-intensity ultrasonic vibrations due to the oscillatory effect in tissues.

 It should be noted that the method and device for ultratonotherapy [2] [3] allow to obtain more pronounced anti-inflammatory and analgesic effects compared with darsonvalization. In this case, there is no unpleasant (sometimes even painful) annoying sensation that occurs with local darsonvalization due to the use of high voltage.

Devices for 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. In the set of elements used in the device for physiotherapeutic treatment "Iskra-2" [4], a gingival electric discharge element is used, with which it is possible to treat inflammatory periodontal diseases by known methods [5]
Known gingival electric discharge element for periodontal treatment is a thin-walled glass balloon, the cavity of which is filled with an inert gas. For ease of use, the working end of the element is usually bent at an angle of 20 ^o 40 ^o . There is an electrode at the non-working end of the element, to which a high-voltage voltage is supplied from a high-frequency oscillation generator through a special holder.

 The disadvantages of the known gas discharge element are as follows. When it is inserted into the oral cavity, the working end must come into contact with the gum in a small area so that the corona discharge and current have a local effect on the affected area. However, as a rule, a known element refers to the oral mucosa over a large area. But since its balloon is thin-walled (thickness ≈ 1 mm) with the same wall thickness over the entire element, corona discharge is also carried out to healthy areas, bypassing the passage of current to the diseased area. This leads to a redistribution of the glow discharge inside the cavity of the balloon and a decrease in the efficiency of the corona discharge between the outer surface of the balloon and the diseased area. The power of a localized discharge to a pathological focus decreases, and the loss of electricity to useless excitation of healthy areas increases. Another disadvantage of the known design is the low mechanical strength of a thin-walled balloon, which makes it dangerous to use in case of accidental occlusion by a patient or careless movement.

 The objective of the present invention is to increase the effectiveness of the therapeutic effect on the pathological focus and increase the safety of the treatment of periodontal methods of darsonvalization and ultratonotherapy.

 The technical result of the proposed solution is expressed in such an embodiment of an electric-gas discharge element, in which current leakages from its sides are practically eliminated, with the exception of a small area with a reduced value of electric strength. When this site is in contact with the lesion, a localized corona discharge occurs only on the affected area. In addition, the electric-gas discharge element has increased mechanical strength, which reduces the likelihood of its breakdown during careless handling and increases the safety of operation.

The essence of the invention lies in the fact that in the device for physiotherapeutic treatment of patients with periodontal diseases, containing a high-voltage generator of high-frequency oscillations, to which an electric-gas discharge element is connected in the form of a curved cylindrical glass cylinder filled, for example, with an inert gas, the cylinder is made thick-walled, and on its working at the end, from the side of the internal bend angle, the side wall has a local section, the thickness of which is 4-6 times less than the wall thickness of the cylinder. In this case, the portion of the cylinder cavity at the location of the local thinning of the wall has a section in the form of a sector with a solution angle β lying in the range 60 ^o <b <180 ^o .

 In FIG. 1 shows the design of the proposed gas discharge element; figure 2 section of the element in the plane aa; figure 3 section of the element in the plane BB.

The device comprises a high-voltage generator of high-frequency oscillations (not shown in the drawing), to which an electric-gas-discharge element 1 is connected (Fig. 1) in the form of a cylindrical glass container 2 with a wall thickness of 5 6 mm. The cavity 3 of the cylinder 2 in the form of a channel with a diameter of 2 3 mm (figure 3) is filled, for example, with neon at a pressure of 10 15 mm Hg For ease of use, the working end of the 4 elements is bent at an angle a≈ ≈ 20 ^o - 40 ^o . At the non-working end 5 of the element, the cavity of which is somewhat widened, there is an electrode 6 included in the holder socket (not shown). The electrode 6 is supplied with voltage from a high-voltage generator of high-frequency oscillations. On the working semicircular end 4 of the electric-gas-discharge element, from the side of the internal bending angle α, the side wall has a local section 7, the thickness of which is 4 6 times less than the wall thickness of the cylinder 2 (i.e., ≈ 1 mm). Section 8 of the balloon at the location of the local thinning 7 has a section in the form of a sector with a solution angle b lying within 60 ^o <b <180 ^o (FIG. 2), which allows the gum to be covered by a localized corona discharge along its height and prevents at the same time discharge time to healthy tissue.

 The device operates as follows. The gas-discharge element 1 is inserted into the oral cavity and the working end 4 is brought to the area of the pathological gingival focus, providing contact of the local thinned area 7 with the surface of the gum tissue. Then turn on the high-voltage generator of high-frequency oscillations and gradually increase the power of the corona discharge to the required value, corresponding to the sensation of weak or moderate heat. With the passage of current between the electrode 6 and the surface of the container in section 7, grounded on the patient’s body, inert gas is ionized in the cavity 3, due to which the latter acts as a conductor transferring electric charges to the body through the thinned section 7 of the container with reduced electric strength (more precisely, its electric capacity). In other parts of the cylinder surface, despite their contact with the body, a corona discharge does not occur, since the walls have a higher dielectric strength due to a 4–6-fold increase in wall thickness. Thus, the corona discharge occurs only on the wall section, the area of which is limited by the length of the cavity section 8 in the direction of the generatrix of the cylindrical cylinder 1 (8 10 mm) (Fig. 1) and the arc length around the cylinder circumference lying within the angle b (Fig. 2) . With a large extent of the diseased area along the gums, the effect is carried out by slowly moving the working end of the element over the area of the affected area. After the procedure, the duration of which is 10 15 minutes, the generator is turned off and the working end of the electric-gas-discharge element is removed from the gums.

 Thus, the proposed design of an electro-gas discharge element for periodontal treatment is more effective due to the exclusion of current leaks to healthy tissues and the concentration of the corona discharge only on a pathological focus. Due to the increased wall thickness, the possibility of its breakdown during the procedure is practically eliminated.

Claims (2)

 1. A device for the physiotherapeutic treatment of patients with periodontal diseases, comprising a high-voltage generator of high-frequency oscillations, to which an electric-gas discharge element is connected in the form of a curved cylindrical cylinder filled, for example, with an inert gas, characterized in that the cylinder is thick-walled and has a working end the inner bend angle of the side wall has a local section, the thickness of which is 4-6 times less than the thickness of the cylinder. 2. The device according to claim 1, characterized in that the portion of the cavity of the container at the location of the local thinning of the wall has a section in the form of a sector with a solution angle β lying in the range 60 ^{° to} 60 ^° <β <180 ^° 180 ^° .

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