RU213556U1 - ELECTRODE FOR COAGULATION OF BIOLOGICAL TISSUES - Google Patents

Abstract

The utility model relates to medicine, namely to surgery, to electrodes for monopolar coagulation with a diathermocoagulator. The electrode for coagulation of biological tissues is made in the form of a metal rod with a spherical thickening at one of the ends, while it is made on the basis of an Nb-1 grade niobium alloy to prevent carbon deposits and sticking to coagulated tissues, and the electrode rod is made of L63 brass, the joint surface additionally treated with (4±0.5)% alcohol solution of 3-aminopropyl-triethoxysilane to reduce corrosion. The technical result is to increase the service life of the electrode, to reduce the adhesion of soot to the electrode during monopolar electrocoagulation. The technical result is achieved by the fact that the selected material to increase the service life of the electrode and to prevent sticking of the electrode to coagulated tissues. To achieve the result, the electrode material in the form of a cylindrical rod with a spherical thickening is made on the basis of an alloy of Nb-1 grade niobium and praseodymium oxide, which acts as a dopant that increases the emissivity of the electrode. 2 fig.

Description

The utility model relates to medicine, namely to surgery, to electrodes for monopolar coagulation with a diathermocoagulator. The electrode for electrocoagulation of biological tissues is made in the form of a metal rod with a spherical thickening at one of the ends, while it is made on the basis of an Nb-1 grade niobium alloy to prevent carbon deposits and sticking to coagulated tissues, and the electrode rod is made of L63 brass, the joint surface additionally treated with (4±0.5)% alcohol solution of 3-aminopropyl-triethoxysilane to reduce corrosion.

Known electrode for the production of electrosurgical operations (mainly gynecological), which has a device for arbitrary change in the angle of inclination of the hot conductor during the operation and consists of a central insulating rod, a cutting conductor made of chrome-plated steel wire and a hollow ebonite cylinder, which contains a spring and a micrometer a screw that allows you to change the angle between the cutting conductor and the central insulating rod 9 (A.S. No. 76139. Electrically heated electrode for performing surgical operations / Startseva L.N., 01/19/1948). The disadvantage is soot and sticking to coagulated tissues, short electrode life.

Also known is an electrode for monopolar coagulation, consisting of a coagulating working element, which is connected to a current-carrying wire. The wire has a heat-resistant dielectric coating. The body is a metal tube resistant to mechanical and chemical influences. There is a current-carrying wire inside the case. The dielectric handle contains an electrical contact connected to a current-carrying wire. An electrode made of medical steel makes it possible to prevent electrical burn complications (RF Patent No. 2152230. Monopolar electrode with internal insulation / Pavlenko P.P., Gataullin R.M., Zakharov M.G., Galimov O.V., Gololobov Yu.N., 02/18/1998 ). The disadvantage is soot and sticking to coagulated tissues, short electrode life.

The Elman electrode of the Surgitron apparatus for monopolar coagulation is also known, consisting of a coagulating working element made of brass, an alloy of copper and zinc, Alloy 260 (or 270, L63, L70), which is connected to a current-carrying wire. The electrode may include a ball with a cylindrical protrusion inserted into a hole in the end of a metal rod with its subsequent compression. The wire has a heat-resistant dielectric coating (Electrodes, tips and tweezers for Surgitron devices used in gynecological practice, medic-liga.ru, electrodi_surgitron_ginekologiya; EMED ES 350 electrosurgical coagulator - Rosmed.ru). The disadvantage is soot and sticking to coagulated tissues, short electrode life.

Known electrode for electrocoagulation of biological tissues by cauterization in the form of a ball based on an alloy of niobium brand Nb-1 with a cylindrical protrusion, made with the possibility of inserting into the hole in the end of the rod made of brass L63 with its subsequent compression, while the fixation surface of the ball in the end of the rod is additionally processed ( 4±0.5)% alcohol solution of 3-aminopropyltriethoxysilane with further drying at (90±5)°C for (25±5) min. and heat treatment at (220±10)°C for (55±5) min. at a solution flow rate of (30 ± 1) ml / m ² (RF patent No. 206775. Electrode for electrocoagulation of biological tissues / Shigaev M.Yu., Shigaev M.M., Kostin K.B., Kitaev N.I., Pichkhidze S. .Ya., 12/15/2020) - prototype.

Disadvantage: Contamination of the electrode surface with burnt tissues prevents prolonged operation of the electrode.

The purpose of the utility model is to increase the service life of the electrode, to reduce the adhesion of carbon deposits to the electrode during monopolar electrocoagulation.

Technical solution - selected material to increase the life of the electrode and to prevent sticking of the electrode to coagulated tissues.

To achieve this goal, the electrode material in the form of a cylindrical rod with a spherical thickening is made on the basis of an alloy of Nb-1 grade niobium and praseodymium oxide, which acts as a dopant that increases the emissivity of the electrode.

The handle of the electrode has a plug for connecting to the electrode holder of the diathermy apparatus.

The attached drawings show

fig. 1 - results of X-ray phase analysis of the electrode material, consisting of an Nb-1 alloy sintered with praseodymium oxide powder, where A is niobium, B is the electrode material after sintering of niobium and praseodymium oxide;

fig. 2 - SEM - images of the surface of the electrode contaminated with soot, where: a - in secondary, b - in reflected electrons, c, d - fragment of soot at a magnification of x250 and x1000 times.

Method for obtaining an electrode.

The electrode was obtained from the Nb-1 alloy (according to GOST 16099-80) and praseodymium oxide Pr ₆ O ₁₁ powder by sintering in air. To do this, the Nb-1 alloy melt was immersed in praseodymium oxide powder, the procedure was repeated several times until a spherical thickening of the desired diameter, for example, 2-3 mm, was formed, a cylindrical protrusion of sufficient length was left on the ball, which is inserted into the hole located at the end of the rod made of soft metal, for example, brass L63 according to GOST 15527-2004, followed by its compression. The surface of the rod is covered with any electrically insulating material, for example, F-4 fluoroplastic according to GOST 14906-77, by any known method, so that the side of the rod opposite the spherical thickening remains free of insulation for a length that ensures reliable fixation of the electrode in the electrode holder, for example, 10 mm.

An analysis of the spectrum of the electrode material showed that niobium (II and IV) oxides are formed during the formation of the electrode, and praseodymium oxide (IV) is formed in the electrode volume, Fig. 1. During coagulation, the electrode was covered with soot of burnt tissues, however, this did not prevent its normal operation, fig. 2.

Thus, an electrode for coagulation of biological tissues by cauterization has been developed, in which the current-heated conductor is implemented in the form of a pin, while the electrode material is made of an alloy based on niobium grade Nb-1 and praseodymium oxide.

The most critical in the design of the electrode transition zone from the head to the electrode rod was treated according to the well-known patent No. drying at (90±5)°С for (25±5) min and heat treatment at (220±10)°С for (55±5) min at a solution flow rate of (30±1) ml/m. This treatment leads to the formation of a protective polymer film on the surface of brass L63 in the transition zone from the head to the brass rod of the electrode.

Clinical example 1. Patient S., aged 70, complained of the presence of multiple papular formations on the skin of the left back. Examination of the skin of the indicated area revealed multiple formations of a round shape with a diameter of 0.3 mm to 3 mm of gray color with a clear even contour and areas of keratosis. On the surface, diathermocoagulation of the skin formation was performed with the standard Elman electrode of the Surgitron EMC apparatus at a frequency of 3.8 MHz in the intermittent mode with pulses of (3 ± 1) s duration, during which destructible tissues burned to the surface of the standard electrode, which prevented the formation sparks on the electrode surface and continued operation. In this connection, the place of coagulation had to be re-treated, and the electrode surface was repeatedly cleaned of adhering soot by intensive rubbing with a gauze cloth moistened with (70 ± 5)% ethanol. The postoperative period is smooth, epithelialization after 7-14 days.

For subsequent manipulations, further cleaning of the electrode was carried out using (6±0.5)% hydrogen peroxide for an hour and an ultrasonic bath lasting (15±1) min; (2 ± 0.1) h (Instruction No. 1/03 on the use of Deconex 50 plus by Borer Chemie AG for disinfection and sterilization. M .: Research Institute of Disinfectology, 2003. - 10 p.).

The service life of the electrode of the regular Elman electrode of the Surgitron apparatus before the appearance of surface degradation is on average 4-6 months when using the electrode for 1-2 patients/day with intermediate disinfection.

Clinical example 2. Patient A., aged 52, complained of intense bleeding during defecation. Diagnosed with hemorrhoids stage 2, complicated by rectal bleeding. In order to stop bleeding, coagulation of a defect in the mucous membrane of a hemorrhoid with a bleeding arteriole was performed using a developed electrode made of an Nb-1 niobium alloy sintered with Pr ₆ O ₁₁ praseodymium oxide, using the Fotek E-51V apparatus at a frequency of 440 kHz in a repetitive short-term mode with pulses of duration 2-4 s. During coagulation, the electrode was abundantly covered with burnt blood (Fig. 2), however, a spark was easily formed on the electrode surface. Bleeding is easily eliminated. During the operation, additional cleaning of the electrode surface was not required. The postoperative period was uneventful, there was no recurrence of bleeding.

For subsequent manipulations, further cleaning of the electrode was carried out using (6 ± 0.5)% hydrogen peroxide for an hour and an ultrasonic bath lasting (15 ± 1) min, disinfection of the electrode for subsequent manipulations was carried out in an aqueous 2% solution exposure (2±0.1) h.

The service life of the electrode of the developed electrode without revealed degradation of the surface is more than 20 months when using the electrode for 1-2 patients/day with intermediate disinfection, which exceeds the service life of the prototype electrode by several times.

Claims (1)

Electrode for coagulation of biological tissues by cauterization, including a ball with a cylindrical protrusion, made with the possibility of inserting into a hole in the end of the L63 brass rod with its subsequent compression, characterized in that the ball is made on the basis of an Nb-1 niobium alloy and praseodymium oxide powder by sintering on air.

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