RU2548319C1 - Cryodestructor - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: cryodestructor contains a reservoir for a liquid refrigerant with a mouth, a tube for intake of the liquid refrigerant from the reservoir, a tube for the refrigerant supply with a replaceable tip, a tube for discharge of a gas-drop mixture of the refrigerant, a safety valve, a replaceable head, placed on the mouth of the reservoir by means of a thread connection, with the placed on the replaceable head trigger mechanism of the liquid refrigerant supply, which represents a needle valve, the seat of which is connected to the tube for intake of the liquid refrigerant from the reservoir, the needle of which is pressed to the seat by a cylindrical screw spring and is hingedly connected with the trigger, resting on a heat-insulating tube of the trigger mechanism, combined with an intermediate tube for the supply of the refrigerant by a choke of the trigger mechanism. To the trigger mechanism connected is the choke, which connects the heat-insulating tube, the tube for the refrigerant supply, the tube with the changeable head and the tube for the discharge of the refrigerant gas-drop mixture, which through additional chokes is connected to a placed on the replaceable head collector of the refrigerant gas-drop mixture, which represents a reservoir for holding the liquid part of the refrigerant gas-drop mixture and a hole for the output of the gaseous part of the refrigerant in a lid. On the replaceable head placed is the safety valve, which represents a needle valve, in which the needle is pressed to seat, made in the bottom of the safety valve case, by a cylindrical screw spring, the compressing degree of which is regulated by a screw, turned into and turned out along the axis of the needle and spring on the thread of the safety valve case from above.

EFFECT: invention application makes it possible to ensure the high heat-insulation of the body, low consumption of the refrigerant in the stand-byprocess and convenience of application.

3 cl, 6 dwg

Description

The invention relates to medical equipment, in particular to cryoapplicators, and can be used for local freezing of tissues. The cryodestructor is designed to remove small amounts of pathologically altered tissues, infiltrates, human neoplasms (condylomas, fibromas, papillomas, hemangiomas, keratoses, warts, senile lentigo, capillary stars, tattoos, nevi, ameloblastoma, epulis, keloid and other types of scars, etc. d) by exposure to cryogenic temperatures. The scope of the cryodestructor: dermatology, cosmetology, dentistry, oncology, surgery, gynecology, otolaryngology, etc.

A number of cryosurgical instruments and devices for local freezing of tissues are known, in which the problem of supplying refrigerant (liquid nitrogen, nitrous oxide, etc.) to the local area of application of a medical instrument (cannula, tips of various kinds) and providing exposure to cold at a given temperature regime is solved. As a rule, a cryodestructor consists of a vessel with refrigerant and devices for supplying refrigerant to its zone of operation. Two schemes of taking and supplying refrigerant from the lower part of the vessel by gravity or from the upper part by force are widespread.

A device for a medical cryo-applicator with a lower refrigerant intake is known (see RU 2080096, class A61B 17/36, 05.27.1997), comprising a body made of heat-insulating material, inside of which there is a vessel filled with liquid nitrogen and a cannula communicating with it. At the bottom of the cannula, a plug is installed with a tip located inside its cavity and having a gap relative to its side walls. A removable nozzle is screwed into the lower end of the plug. When not using this tool, it is in a vertical position in the stand provided for this.

The disadvantages of this device are the inability to use it when conducting operations on hidden cavities, when performing operations on vertical and turned down surfaces, insufficiently low coefficient of thermal conductivity of heat-insulating material for long-term storage of refrigerant, increased consumption of refrigerant when it is constantly supplied to the replaceable nozzle at the time of the machine’s downtime The inconvenience of using a separate stand.

Closest to the invention is a cryosurgical apparatus (cryodestructor) containing a tank for liquid refrigerant with a neck, a pipe for taking liquid refrigerant from the tank, a pipe for supplying refrigerant with a replaceable tip, a pipe for discharging a gas-droplet mixture of refrigerant, a safety valve (see RU 2053719 cl. A61B 17 / 36, 02/10/1992).

The known apparatus contains a working tip of an open type with an expansion chamber and a pumping system. In this apparatus, the tank with liquid nitrogen is equipped with a safety check valve, a thermally insulated refrigerant supply pipe and an inlet throttle, and an electromagnetic shutter connected to a time relay is installed at the outlet of the exhaust channel. The pumping system is made in the form of a foreline pump. An additional nozzle made in the form of a tube, the distal end of which is blocked by a fine mesh, is additionally installed on the tip.

The disadvantages of this apparatus are the inconvenience of manipulating the surgical instrument of the apparatus, the inability to work in a pulsed mode of tissue freezing, to start working with a warm state and in an arbitrary pause between cycles, which is not advisable in cases of freezing of delimited small foci of tissue damage or one large in parts.

The technical result to which the invention is directed is to eliminate these drawbacks, to create a simple design while providing the possibility of performing cryosurgical operations on separate sections of tissues of the external surfaces and hidden cavities of living organisms, ensuring high thermal insulation qualities of the apparatus body, ensuring low refrigerant consumption in the process of downtime, ensuring ease of use.

The technical result is achieved due to the fact that the cryodestructor containing a tank for liquid refrigerant with a neck, a pipe for taking liquid refrigerant from the tank, a pipe for supplying refrigerant with a replaceable tip, a pipe for discharging a gas-droplet mixture of refrigerant, a safety valve, contains a replaceable head installed on the neck of the tank at a threaded connection with a trigger mechanism for supplying liquid refrigerant mounted on a replaceable head, which is a needle valve, the seat of which is soy It is connected with a pipe for taking liquid refrigerant from a tank, the needle of which is pressed against the saddle by a coil spring and pivotally connected to the trigger resting on the heat-insulating tube of the trigger mechanism, combined with the intermediate refrigerant supply pipe by the fitting of the trigger mechanism, to which the fitting connecting the heat-insulating tube, is connected the refrigerant supply pipe with a replaceable tip and the pipe of the discharge of the gas-droplet mixture of refrigerant, which through additional fittings communicates with the installation a manifold of a gas-droplet mixture of refrigerant on a replaceable head, which is a reservoir for holding the liquid part of the gas-droplet mixture of refrigerant, and a hole for discharging the gaseous part of the refrigerant mixture in the cap, and a safety valve installed on the replaceable head, which is a needle valve in which the needle is pressed against the seat made in the bottom of the pressure relief valve body by means of a coil spring, the compression ratio of which is regulated by a screw being screwed in and out Vai along the axis of the needle and a spring threaded housing of the safety valve on top.

The technical result is also achieved due to the fact that the tank for liquid refrigerant has a vacuum thermal insulation between the external and internal surfaces and a stand fixed on the base.

The technical result is also achieved due to the fact that the installation of a replaceable tip on the refrigerant supply pipe is carried out by means of a thread.

In FIG. 1 shows a cryodestructor: front view.

In FIG. 2 shows a cryodestructor: top view.

In FIG. 3 shows the trigger mechanism for supplying liquid refrigerant.

In FIG. 4 shows a safety valve.

In FIG. 5 shows the collector of a gas-droplet mixture.

In FIG. 6 shows a fitting with tubes.

The cryodestructor contains a tank 1 (see Fig. 1) for liquid refrigerant, a refrigerant supply pipe 2, a gas-droplet mixture discharge pipe 3, an interchangeable tip 4, a safety valve 5 (see Fig. 2), an interchangeable head 6 mounted on the neck of the reservoir by means of a threaded connection. A trigger mechanism 7 for supplying liquid refrigerant is installed on the replaceable head, which is a needle valve, the seat 8 (see Fig. 3) of which is connected to the sampling tube 9 of the liquid refrigerant from the cryodestructor tank 1. The needle 10 of the trigger mechanism 7 is pressed against the saddle 8 by a coil spring 11, closing the valve. The needle is pivotally connected to the trigger 12, which is supported by the heat-insulating tube of the trigger mechanism 13, mounted on the intermediate tube 14 for supplying liquid refrigerant. With a trigger 12, the needle 10 rises above the valve seat 8, compensating for the compression force of the spring 11, opening the valve. A safety valve 5 is installed on the interchangeable head 6, which is a needle valve in which the needle 15 (see FIG. 4) is pressed against the seat 16 made in the bottom of the safety valve body 5 by means of a coil spring 17, the compression ratio of which is regulated by screw 18 screwed in and out along the axis of the needle 15 and spring 17 along the thread of the body of the safety valve 5 from above. The seat 16 has a hole in communication with the internal volume of the cryodestructor tank 1, and the screw 18 has a hole in communication with the atmosphere. On the interchangeable head 6, a collector 19 of a gas-droplet mixture of refrigerant is installed, which is a tank 20 (see Fig. 5) for holding liquid refrigerant. On the side surface of the tank there is a fitting 21 for supplying a gas-droplet mixture of refrigerant and an opening for discharging gaseous refrigerant in the lid 22.

The tank 1 for liquid refrigerant has a vacuum thermal insulation between the outer and inner surfaces and the stand 23, fixed on the base.

The heat-insulating tube 13 of the trigger mechanism is combined with the intermediate pipe 14 of the supply of refrigerant fitting 24 of the trigger mechanism. A pipe for supplying liquid refrigerant 2, a pipe for discharging a gas-droplet mixture of refrigerant 3, and a heat insulating tube 25 (see Fig. 6) are inserted into one another and combined by a fitting 26 to connect to the fitting 24 of the trigger mechanism for supplying liquid refrigerant and made with the formation of vacuum between the pipe 3 for draining the gas-droplet mixture of the refrigerant and the heat insulating tube 25, and an additional nozzle 27 is inserted into the side surface of the nozzle 26 for connecting to the trigger mechanism 27 for connecting the tube 3 of the dropping the gas-droplet mixture of chl an adagent with an additional fitting 21 of the container 20 for holding the liquid part of the gas-droplet mixture of the refrigerant through the flexible outlet pipe 28. Installing the replacement tip 4 on the refrigerant supply pipe is carried out by means of a thread.

The cryodestructor is as follows.

The cryodestructor is mounted on a flat flat horizontal surface on the stand 23. The removable head 6 is removed from the cryodestructor tank 1 with the trigger mechanism 7 for supplying refrigerant located thereon, a safety valve 5 and a gas-droplet manifold 19. The cryodestructor tank 1 is filled with refrigerant. A replaceable head 6 is installed on the cryodestructor tank.

With a simple refrigerant, it can be stored in the cryodestructor tank for a long time due to vacuum thermal insulation between the inner and outer surfaces of the cryodestruction casing. A small number of refrigerant vapors generated due to its heating from thermal energy from outside exits through a safety valve 5, which regulates the pressure inside the cryodestruction tank. The safety valve is a needle valve in which the cone-shaped needle 15 is pressed by means of a helical spring 17 against the cone-shaped seat 16 made at the bottom of the cylindrical body of the safety valve. The compression ratio of the spring is regulated by a screw 18, which is screwed into the body of the safety valve from above. When the screw is screwed inside the body of the safety valve, the compression of the spring increases and the force of pressing the needle to the seat increases, while the overpressure inside the cryodestructor tank increases. When the screw is turned out of the safety valve body, the compression of the spring decreases and the force of pressing the needle to the seat decreases, and the overpressure inside the cryodestructor tank decreases.

A fitting 26 is connected to the fitting of the trigger mechanism 24, combining the refrigerant supply pipe 2 of the required length with the tip 4 of the necessary shape and size for contact or non-contact cryodestruction.

When working with a cryodestructor, the surgeon wraps his hand around the cryodestruction tank 1 and pulls the trigger 12 of the trigger mechanism 7 for supplying refrigerant from the cryodestruction tank to the replaceable tip 4. The trigger mechanism 7 is a needle valve, the conical seat of which is connected to the tube 9, immersed in the cryodestruction tank before it the bottom, and the conical needle 10, pressed against the saddle by a coil spring 11, is connected to the trigger. When the trigger is pulled, the compression force of the spring is compensated and the needle rises above the saddle. When the trigger is released, the spring presses the needle back to the saddle. Liquid refrigerant is supplied from the cryodestruction tank through the trigger mechanism tube through the trigger mechanism to the interchangeable tip 4 for non-contact or contact cryodestruction, depending on the type of tip. Liquid refrigerant is supplied from the cryodestructor reservoir due to excessive pressure inside the cryodestructor reservoir, due to the intensive evaporation of the liquid refrigerant due to its heating by infrared radiation from the surgeon's palm. When a replaceable tip is installed for non-contact cryodestruction, the cryodestructor is brought by the tip to the operated area without touching it, while liquid refrigerant is supplied to the operated area through the hole in the replaceable tip. When a removable hollow tip for contact cryodestruction is installed, the apparatus is brought by the tip to the area to be operated until they are in full contact. The refrigerant, cooling the surface of the hollow tip and the tissue of the operated area, evaporates.

The gaseous refrigerant, along with drops of liquid non-evaporated refrigerant, is discharged through the exhaust pipe 3, through the nozzle 27 and the flexible discharge pipe 28 to the gas-droplet manifold 19, where the liquid fraction of the refrigerant is trapped in the tank 20 and evaporates over time, and the gaseous refrigerant leaves through the opening in the cover 22 The degree of frostbite of the gas-droplet mixture collector controls the amount of refrigerant that has not evaporated in the hollow tip. The stronger the freezing frame of the gas-droplet mixture collector, the more unevaporated refrigerant. To reduce the amount of unevaporated refrigerant and increase the efficiency of the apparatus, the flow rate of the refrigerant from the cryodestruction tank to the replaceable hollow tip is reduced. The flow rate of the refrigerant is regulated by both the trigger mechanism and the safety valve. To increase the refrigerant supply speed by the trigger mechanism, the trigger is pressed harder or the overpressure inside the cryodestructor body increases with the pressure relief valve, to reduce the refrigerant supply speed, the trigger is weakened or the pressure inside the cryodestructor body is reduced by the pressure relief valve.

The fabric is frozen for some time with constant supply of refrigerant to the replacement tip. After the freezing procedure, the cryodestructor is installed on the stand 23, fixed on the base. If necessary, refrigerant is added to the cryodestruction tank before the next procedure.

Claims (3)

1. Cryodestructor containing a tank for liquid refrigerant with a neck, a pipe for taking liquid refrigerant from the tank, a pipe for supplying a refrigerant with a replaceable tip, a pipe for discharging a gas-droplet mixture of a refrigerant, a safety valve, characterized in that the cryodestructor contains a replaceable head mounted on the neck of the tank using a threaded connection with a trigger mechanism for supplying liquid refrigerant mounted on a replaceable head, which is a needle valve, the seat of which is connected to the pipes intake of liquid refrigerant from the tank, the needle of which is pressed against the saddle by a coil spring and pivotally connected to the trigger, resting on the heat-insulating tube of the trigger mechanism, combined with the intermediate refrigerant supply pipe by the fitting of the trigger mechanism, to which the fitting connecting the heat-insulating pipe, the refrigerant supply pipe is connected , a tube with a replaceable tip and a pipe for discharging a gas-droplet mixture of refrigerant, which, through additional fittings, communicates with the mixture installed to the head with a collector of a gas-droplet mixture of a refrigerant, which is a reservoir for holding the liquid part of a gas-droplet mixture of a refrigerant, and an opening for discharging a gaseous part of a mixture of a refrigerant in a cap, and a safety valve installed on a replaceable head, which is a needle valve in which the needle is pressed against a seat made in the bottom of the safety valve body, by means of a coil spring, the compression ratio of which is regulated by a screw screwed in and out along the axis of the needle and the spring along the thread of the safety valve body from above. 2. The cryodestructor according to claim 1, characterized in that the liquid refrigerant tank has vacuum thermal insulation between the external and internal surfaces and a stand fixed on the base. 3. The cryodestructor according to claim 1, characterized in that the replacement tip is installed on the refrigerant supply pipe by means of a thread.

Images