SU1456116A1 - Cryosurgical apparatus - Google Patents

Abstract

This invention relates to a medical technique, relating to local cryogenic effects on biological tissues for their destruction. The purpose of the invention is to increase the degree of degradation of biological tissue by ensuring the stability of heat exchange in the working tip with repeated use of liquid cryogen, which is achieved by the constant flow rate of the cryoagent through the cryoinstrument due to the presence of a heat-insulated partition 2 between the cavities and the removal of 11.12 tubes of gas release and one intake pipe 11 from the main cavity 3, as well as by feeding the cryoagent B to the tip 16 in one direction. When the valve 8 is opened to supply the cryoagent under the action of overpressure, the cryoagent comes from the MAIN cavity through the suction pipe 11 through the valve 8 and the 9 V forward flow channel to the tip, where it partially boils due to the heat influx from the biological tissue. From the tip, a cryoagent in the form of a vapor-liquid mixture is circulated through the return flow channel 15 through the distribution valve 14 into the additional cavity 4. The vapor phase of the mixture is discharged from cavity 4 through valve 13 to the atmosphere. Over time, all unexposed evaporated cryoagent collects in the additional cavity 4 and then enters the main cavity 3. The invention improves the efficiency of the cryogenic treatment method by improving heat exchange conditions at the tip of the cryotool and ensuring their stability during the entire period of operation of the apparatus with repeated use of liquid cryogen. 1 il. I (La

Description

The acquisition is related to medical technology and is intended for local cryo-effects on biological tissues for the purpose of their destruction and, in particular, can be used in oncology, dermatology, otorhinolaryngology, etc.

The purpose of the invention is to increase the degree of destruction of biological tissue by ensuring the stability of heat exchange conditions in the working tip, with repeated use of the LIQUID cryoagent.

In the drawing, the image on the diagram of the cryosurgical apparatus.

The device contains a heat-insulated vessel 1, divided by a heat-insulated partition 2 into the main 3 and additional 4 cavities, a charging valve 5 with a safety valve 6 of the main cavity 3, a safety valve 7 of the cavity 4, a shut-off valve 8, the middle channel 9 of the direct flow of the cryodevice 10 with intake pipes 11 and 12 of cavities 3 and 4, two distribution valves 13 and 14, connected by a single control knob and connecting, x: Respectively, cavities 3 and 4 with the atmosphere and channel 15 of the return flow of the cryodevice 10. Cryoinstru ent 10 has a tip 16.

The device works as follows

Through the filling valve 5, the apparatus is filled with a liquid cryogenic agent and the valve 5 is closed. At this, the cryoagent supply valve 8 and the distribution valves 13 and 14 are set in a position that seals the main cavity 3 and simultaneously connects the additional cavity and 4 reverse flow. Due to the heat supply through the thermal insulation, liquid nitrogen boils and the pressure in cavity 3 rises to a value that is regulated by safety valve 6. Then valve 8 is opened and under the action of overpressure, the cryoagent enters from the main cavity 3 through intake pipe 11 through valve 8 and channel 9 a flow into tip 16, where it partially leaks due to heat gain from biological tissue. From tip 16, the cryogenic agent in the form of a vapor-liquid mixture enters through channel 15 of the reverse

flow through the control valve 14 to the additional cavity 4. The vapor phase of the mixture is discharged from cavity 4 through valve 13 to the atmosphere. Over time, the entire non-evaporated cryoagent collects in an additional cavity 4.

To continue cryotherapy, it is necessary to further circulate the cryoagent from the additional half of the cavity 4 to the main one. For this, the cryoagent supply valve 8 is closed, and the distribution valves 13 and 14 are installed in a position that seals the additional cavity 4 and simultaneously connects the cavity 3 with the atmosphere and the return flow channel 15. The amount of overpressure in the additional cavity 4 is controlled by a safety valve 7. When the shut-off valve 8 is opened, the cryoagent circulates through the suction pipe 12, valve 8 and the direct flow channel 9 to the tip 16, from where the vapor-liquid mixture flows through channel 15. flow through the distribution valve 14 into the main cavity 3. The cryoagent vapor escapes from the cavity 3 to the atmosphere through the distribution valve 13. After all the non-evaporated cryoagent is collected in the main cavity 3, the ejector The battery can be performed appropriately kriovozdejstvie switching valves described vsh1e.

A cryosurgical apparatus has several advantages - it allows to improve the heat exchange conditions at the tip of the cryotool and to ensure their stability during the entire period of operation of the apparatus, which is achieved after-. This is due to the presence of thermal insulation between the cavities and the removal of gas recovery tubes and a single intake tube from the main cavity, as well as by supplying the cryoagent to the tip in one direction.

Claims (1)

Invention Formula A cryosurgical apparatus containing a thermally insulated cryogenic vessel divided by a septum into a main and additional iolost, a probe with a supply and discharge channels 3156 56116. m and with a working tip, bridged-equipped with two tubes, by means of a special, safety and shut-off valve of which a discharge channel is connected to the valve two distribution valves — an additional cavity and an additional two intake tubes — an atmosphere - due to the fact that, with a view to placing the main bias-increasing degree of destruction of biology, the partition dividing the vascular tissue by providing the main and additional cavities, the heat exchange conditions in the working heat insulation Hovhan and supply channel than the conductive tip when used repeatedly yusoedinen with tapping tubes main usage of liquid cooling agent, and more onnoy cavities.