RU2045292C1 - Method of treating urethra and device for carrying out same - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: this method prescribes inserting irrigator including inserts made of magnetically soft material, irrigating urethral mucosa with medicinal preparation and exposing irrigator to transverse magnetic field moving along irrigator towards external end portion of urethra. Magnetic field frequency should be within 20 to 50 Hz, magnetic field intensity within 150 to 500 oersteds and exposure time within 5 to 7 min. Transverse vibrations of irrigator inside urethra canal allow in particular ameliorating conditions for irrigation and aspiration of medicinal preparation due to expansion of canal. Device for treating urethrites incorporates flexible tubular irrigator 3 having openings 4 in its side surface, cylindrical inserts made of magnetically soft material and magnetic field source including series of electromagnets based on L-shaped cores 2 forming trough which houses irrigator. EFFECT: shorter treatment period. 3 cl, 1 dwg

Description

 The invention relates to medicine, namely to the treatment of inflammatory diseases of the urethra.

 A device known as an irrigator for irrigation of the urethra with medicinal substances, containing coaxially placed one in the other tube, the outer one of which has a muffled working end and holes in the side wall, and the inner tube additionally muffled working end and outlet holes on the side wall with outlet pipes perpendicular to the longitudinal axis and having outlet openings on the side wall of the outer tube.

 The disadvantages of this irrigator are its lack of effectiveness, due to the lack of physical factors that contribute to saturation of the urethral tissue with medicinal substances (for example, a magnetic field), pain when introducing such an irrigator, and the need to create additional pressure of the drug solution in the irrigator due to the tight fit of the urethral walls of the tube, and thereby blockage of holes on its surface.

 Closest to the proposed method and its implementing device are a method and device for magnetotherapy of tubular organs.

 A known method used to treat urethritis involves the introduction of an irrigator into the urethra, irrigation of the urethral mucosa with a drug with simultaneous exposure to a magnetic field.

 The device implementing this method comprises a tubular irrigator with holes on the side surface and a magnetic field source.

 The disadvantages of the known method and device include the low efficiency of exposure to the mucous membrane of the urethra and the associated long duration of treatment. This is explained by the low efficiency of exposure to a constant magnetic field, the difficulty of removing the spent drug due to the possible clogging of the holes in the working part of the irrigator when it is tightly encircled by a tubular organ, and by the static nature of the irrigator, which reduces the effectiveness of physiotherapy.

 The aim of the invention is to reduce the treatment time by increasing the effectiveness of the impact on the mucous membrane of the urethra.

 This goal is achieved by the fact that in the method of treating urethritis, including the introduction of an irrigator into the urethra, irrigation of the urethral mucosa with a drug with simultaneous exposure to a magnetic field, an irrigator containing inserts of magnetically soft material is exposed to a transverse magnetic field moving along the irrigator to the outer end of the urethra, moreover, the frequency of the magnetic field is 20-50 Hz, the intensity is 150-500 Oe, the exposure duration is 5-7 minutes.

 This goal is also achieved by the fact that in a device containing a tubular irrigator with holes on the side surface and a magnetic field source, the latter is made in the form of a series of electromagnets on the L-shaped cores forming a gutter, the irrigator is made of elastic material, equipped with cylindrical inserts of soft magnetic material and placed inside the gutter.

 The essence of the proposed method lies in the fact that the effect of the irrigator on the urethral canal is intensified by applying an external traveling magnetic field. As one of the options for irrigator, you can, for example, use the device according to ed. St. USSR N 1196009 made of soft magnetic material. The intensification of the effect is ensured by choosing the parameters of the magnetic field and the nature of its movement along the irrigator, in which the latter performs transverse vibrations inside the urethral canal and, firstly, creates better conditions for irrigation and aspiration of the drug by expanding the channel, and secondly, provide deep saturation of the urethral tissue with a drug due to magnetophoresis.

In addition, the simultaneous effect of vibration and magnetic field allows you to:
a) carry out micromassage of the urethra in combination with hydromassage;
b) reduce pain caused by the inflammatory process and pressure of the irrigator on the walls of the urethra;
c) to facilitate the process of irrigation and aspiration of drugs due to the wave-like nature of the vibrations of the irrigator in a traveling field, especially when it is performed as a set of cylinders in an elastic tube (for example, polyethylene).

 The latter is due to the alternate attraction of the irrigator elements to the outer parts of the L-shaped core, which not only creates a transverse vibration of the irrigator, but also wave-like oscillations of the urethral channel. This contributes to the effective aspiration of the processed products and avoids the penetration of the infection deep into the bladder. The indicated switching frequency (20-50 Hz) and field strength (150-500 Oe) were selected experimentally for a set of irrigators with different diameters of their cross section, since the process of excitation of vibrations and their amplitude are determined not only by field parameters, but also by the mass of the irrigator, the degree of compression by the walls of the urethra, which depend on the diameter of its cross section.

 The experiment showed that in the frequency range of 20-50 Hz with a field strength of 150-500 Oe, irrigators with different diameters vibrate with an amplitude of lateral displacement of 0.05-0.2 mm. In this case, a smaller amplitude (0.05 mm) is observed at a frequency of 50 Hz for the largest continuous irrigator diameter (8 mm) and the smallest field strength value from the indicated interval (150 Oe). An increase in the amplitude of the transverse vibration requires either a decrease in the switching frequency or an increase in the field strength.

 The drawing shows the proposed device for the treatment of urethritis.

 The device contains a magnetic field source in the form of a sequence of coils 1 with L-shaped cores 2 forming a groove. Inside the gutter is placed a tubular irrigator 3 of elastic material with holes 4 on the side surface and two fittings 5 and 6 for the supply and exhaustion of the drug. The irrigator is equipped with cylindrical inserts of soft magnetic material (not shown in the drawing). The terminals 7 are connected to the power source of the coils with an electronic switching circuit (not shown in the drawing), which provide the movement of the field in the direction indicated by the zigzag line 8.

 The device operates as follows.

 After the irrigator 3 is inserted into the urethra channel, it is placed inside the trough between the core plates of the 2 coils 1. The voltage 7 is applied to the terminals 7 in the sequence indicated by line 8. The irrigator 3 with inserts made of soft magnetic material is shifted alternately to each of the plates as they inclusion with a given frequency. As a result, inside the urethral canal, the irrigator performs wave-like transverse vibrations propagating towards the nozzles 5 and 6. Through the nozzle 5 and holes 4, the drug is supplied and irrigated by the urethra, and then sucked out through the additional holes of the nozzle 6. In this case, due to the excitation of transverse vibrations, the gap between the irrigator and the canal, which creates favorable conditions for irrigation, and the wave-like nature of the vibrations contributes to the removal of the spent drug and necrotic masses in the direction connection to the outlet 6.

 PRI me R The method is as follows. The patient is seated on a couch and an irrigator is introduced into the urethral canal, subject to aseptic rules. A gutter is installed from coils with cores between the patient's legs and an irrigator is lowered into it. In the case of deep injection of the irrigator, the gutter is installed in the perineum of the patient, with the working part facing the projection of the urethra. They turn on the power of the coils of the gutter and the drug is fed into the irrigator nozzle. After 5-7 minutes of the procedure, the patient rests for 15-20 minutes.

 A second procedure is prescribed the next day.

 The general course of treatment is determined by the doctor (5-10 procedures).

 The proposed device can be performed as follows.

 The gutter is made of six coils with a number of turns n = 650 with a PEL wire diameter of 0.4 mm. The L-shaped core is made of strips of transformer iron measuring 100x2, x0.5 (8 pcs in a bag). The width of the working part of the gutter is 39 mm. To impart rigidity to the structure and provide electrical insulation of the coils from the patient’s body, they are embedded in an epoxy compound in a place with current-carrying wires. The coils are connected to the power supply and switching unit using a seven-pin connector type ШР. The total length of the gutter is 210 mm.

 The coils are powered by a constant voltage of 16 V, at which the field at a distance of 2 mm from the surface of the core plate is 320 Oe. This supply voltage is switched at a frequency adjustable within 20-50 Hz using an electronic circuit. The irrigator is made of ten sections with a diameter of 5 mm, a length of 20 mm each, made of steel 3 and laid in a polyethylene tube with a diameter of 7.5 mm with a damped working end. Holes on the lateral surface of the sections were made with a diameter of 1.3 mm, and on the lateral surface of a polyethylene tube 3 mm, so that in case of displacement of the holes one relative to the other, they would not overlap.

Claims (3)

 A method of treating urethritis, including introducing an irrigator into the urethra, irrigating the urethral mucosa with a drug with simultaneous exposure to a magnetic field, characterized in that, in order to reduce treatment time by increasing the efficiency of exposure of the urethral mucosa, an irrigator containing inserts of soft magnetic material is exposed transverse magnetic field moving along the irrigator to the outer end of the urethra, and the frequency of the magnetic field is 20-50 Hz, and its intensity is 150-500 E.  2. The method according to claim 1, characterized in that the exposure duration is selected within 5-7 minutes.  3. A device for the treatment of urethritis containing a tubular irrigator with holes on the side surface and a magnetic field source, characterized in that, in order to increase efficiency due to the possibility of transverse vibrations of the irrigator, the magnetic field source is made in the form of a series of electromagnets on L-shaped cores forming a gutter, the irrigator is made of elastic material, equipped with cylindrical inserts of soft magnetic material and placed inside the gutter.