SU955915A1 - Device for subjection of tissue to cruoeffect - Google Patents

Description

The invention relates to medical equipment and can be used in cryosurgery to treat the surface of tumors. _

A device for kriovozdey- ⁵ Corollary to fabric comprising a reservoir for the refrigerant, conduit tip [1].

However, the known device has a number of significant drawbacks, in particular: the tip can be involuntarily shifted and then healthy tissues undergo cryodestruction, which leads to excessive traumatization of the patient and, thus, strict localization of the frozen tissue is not ensured; the tip does not allow cryodestruction over a large area; the tip does not always correspond to the relief of the pathologically altered tissue.

A device for cryo-effect on tissue, containing a reservoir for the refrigerant, a pipeline, 25 tip and a device for fixing the tip on the treated fabric [2].

This device is the closest to this invention in terms of technical essence and the achieved result.

The device for fixing the tip of the fabric to be processed in the known device comprises a heat insulator mounted in the tip, in which a suction channel is connected to the refrigerant reservoir, and a valve.

The known device has the following disadvantages: restriction of the degree of vacuum and the impossibility of its regulation and the small in this regard, the area of cryotherapy; the impossibility of adjusting the time of cryotherapy, since it will be performed until nitrogen boils into the internal cavity of the casing, and only after that spontaneous thawing begins.

The aim of the invention is to increase the area of eons of cryotherapy and control the time of cryotherapy.

To achieve this goal, a device for cryotherapy on tissue containing a reservoir for the refrigerant, a pipeline, a tip and a device for fixing the tip on the fabric to be treated, the latter is made in the form of a clamping element, the shape of which is similar to the shape of the tip located around the latter with the formation of a cavity for connection between them to the source of vacuum.

• In Fig.1 - a device for cryotherapy on tissue; figure 2 - node I of figure 1.

The device for cryotherapy on the fabric contains a reservoir 1 for the refrigerant, a pipe 2, a tip 3 and a device for fixing the tip on the processed fabric, which is made in the form of a clamping element 4, the shape of which is similar to the shape of the tip.

Tip 3 can be made in the form of a truncated hollow tetrahedral, trihedral pyramid and any other shape, with the condition that the end face in cross section repeats or almost matches the configuration of the affected area. The end face of tip 3 and element 4 can be flat or repeat the shape of an organ, such as a hip .

Element 4 is located around the tip 3 with the formation of a cavity 5 between them for connecting it through the pipe 6 with a vacuum source (not shown in the figures). Channel 7 connects the cavity 8 of the tip with the external environment. The height of the tip 3 may be less than the height of the element 4. Element 4 may be made of a transparent material.

A device for cryogenic tissue works as follows.

The tip 3 and, therefore, the element 4 are installed in the affected area. The source of vacuum is turned on and the pressure in the cavity 5 decreases. Due to this, the tip 3 is fixed in the affected area. After that, liquid nitrogen is sawed through the outlet of the pipeline 2, and the affected tissue is cooled in the cavity 8. The spent refrigerant in a gaseous state enters the external environment through channel 7.

After a set time, the source of discharge is turned off, the pressure in the cavity 5 is restored to atmospheric, the tip 3 is removed from the affected area, which is then processed by known methods.

In the case where the tip 3 is smaller in height than the element 4, the sequence in operation is the same, except that the suction works all the time, since the amount of agent supplied must always be less than the amount of suction agent.

In the case of using the specified tip, it should be especially noted the simultaneous effects of two factors such as vacuum and low temperatures.

This combination allows you to increase the area of the zone of cryoaction and, consequently, subsequent cryonecrosis in a shorter period of time due to the effect of ischemia.

The proposed solution allows ’to increase the effectiveness of treatment by preventing possible tip shifts during cryoextraction and eliminating the possibility of excessive traumatization of healthy tissues, as well as by increasing the freezing zone and subsequent tissue cryonecrosis. Of particular note is the fact of direct contact of the refrigerant with pathologically altered tissue, which contributes to the complete freezing of the latter, regardless of topography. The latter is very important when dealing with tumors, as it contributes to the complete devitalization of cells and, therefore, is the prevention of relapse and metastasis.

Claims (2)

(54) DEVICE FOR CRITICAL EXPORT The invention relates to medical technology and can be used in cryosurgery for treating the surface of new formations. A device for cryogenic tissue deposition is known, which contains a reservoir for a refrigerant, a conduit, a tip 1. However, the known device has significant drawbacks, in particular: the tip can be involuntarily shifted and then cryodestruction undergoes healthy tissue, which leads to excessive patient ramization and, thus, a frozen tissue is not strictly localized; the tip does not allow cryodestruction over a large area; the tip does not always correspond to the relief of the diseased tissue. A device for cryo-efficacy on tissue is known, which contains a reservoir for a coolant, a piping tip and a device for fixing the tip on the treated fabric 2. This device is the closest to this invention in terms of the essence of the tissue and the result achieved. The fixture for fixing the tip of the fabric to be fabricated in the known device comprises a heat shield insulated at the tip, in which a channel is connected to the coolant reservoir and a valve. The known device has the following disadvantages: limiting the degree of vacuum and the impossibility of its regulation and, in connection with this, the area of cryo-impact is small; the inability to regulate the cryogenic time, since it will be carried out until the nitrogen that has fallen into the internal cavity of the body boils off, and only then spontaneous thawing begins. The aim of the invention is to increase the area of the Z. ONE cryo-effects and regulation of the time of cryo-effects. To achieve this goal, a device for cryosurgery on tissue, containing a coolant reservoir, a pipe, a tip and a fixture for fixing, a tip on the treated fabric, the latter is made in the form of a clamping element, the shape of which is similar to the shape of a tip located around the latter to form cavities for connection to the source of discharge; In Fig. 1, a device for cryo-efficacy in tissue; figure 2 - node figure 1. The device for cryosurgery on the fabric contains a coolant tank 1, a pipe 2, a tip 3 and a device for fixing the tip on the treated fabric, which is made in the form of a clamping element 4, the shape of which is similar to the shape of the tip. Tip 3 can be made in the form of a truncated hollow tetrahedral, triangular pyramid and any other shape, with the condition that the cross section is repeated or almost coincides with the configuration of the lesion. The tip end 3 and element 4 can be flat or repeat shape body, such as the thigh. The element 4 is located around the tip 3 with the formation between them of the cavity 5 for connecting it through the nozzle b with a vacuum source (not shown in the figures). Channel 7 connects the cavity 8 of the tip with the external environment. The height at the end 3 may be less than the height of the element 4. The element 4 may be made of a transparent material. The device for cryosurgery on the tissue works as follows. The tip 3 and, therefore, the element 4 are installed on the affected place. The source of discharge is switched on and the pressure in cavity 5 is lowered. Due to this, tip 3 is fixed at the affected place. After this, liquid nitrogen is sprayed through the outlet of the pipe 2, and in the cavity 8 the affected tissue is cooled. The spent refrigerant in a gaseous state enters the external environment through channel 7. After a set time, the discharge source is turned off, the pressure in cavity 5 is restored to atmospheric, tip 3 is removed from the affected area, which is then processed in known ways. In the case when tip 3 is lower in height than element 4, the sequence in operation is the same, except that the suction works all the time, since the amount of agent supplied must be all the time less than the amount of agent aspirated. In the case of using the specified tip, it should be noted that simultaneous effects of two factors, such as vacuum and low temperatures. This combination makes it possible to increase the area of the cryotherapy zone and, consequently, the subsequent cryonecrosis in a shorter period of time due to the effect of ischemia. The proposed solution allows to increase the effectiveness of treatment by preventing possible tip shifts during cryoextraction and eliminating possible unnecessary trauma to healthy tissues, as well as by increasing the freezing zone and subsequent cryonecrosis of tissues. Special mention should be made of the fact that the refrigerant is in direct contact with pathologically changed tissue, which contributes to the complete freezing of the latter, regardless of the relief. The latter is very important when dealing with tumors, since it contributes to the complete devitalization of the cells and, therefore, is the prevention of recurrence and metastasis. An invention of a device for cryosurgery on fabrics, comprising a coolant reservoir, a pipeline, a handpiece and a device for fixing the handpiece to the treated fabric, characterized in that, in order to increase the area of the cryosurgery zone and adjust the time of cryosurgery, the device for fixing the handpiece is designed as a clamping element whose shape is similar to the shape of a tip located around the latter with the formation of a cavity for connection to the source of discharge. Sources of information taken into account during the examination 1. USSR author's certificate No. 374079, cl. A 61 B 17/36, 1971. 2. Authors certificate of the USSR 480411, cl. A 61 B 17/36, 1973 prototype.