SU1258394A1 - Versions of cryoultrasonic surgical instrument - Google Patents

Abstract

1. A cryo-ultrasonic surgical instrument comprising a housing, a cryodestruction device with a channel for supplying a refrigerant and a working part, an ultrasonic emitter with external and internal electrodes, and a generator associated with the latter, characterized in that, in order to shorten the reparation time, the external and internal the side surfaces of the ultrasonic radiator are a horizontally mounted body of rotation, the convex surface facing the pathological focus, while the body of rotation has a through hole, which ras1yu- lozhena operating part kriodestruktory.

Description

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2. A cryo-ultrasonic surgical instrument comprising a housing, a cryodestruction unit with a channel for supplying a refrigerant and a working part, an ultrasonic emitter with external and internal electrodes, and a generator associated with the latter, characterized in that, in order to shorten the repair time, the ultrasonic emitter is It is a vertically mounted hollow body of rotation fixed by one of its end ends between the body and the working part of the cryodestruction unit, and the outlet of the refrigerant supply channel is located but in the cavity of the ultrasound emitter.

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The invention relates to medical technology, namely, devices for the operative treatment of the pathological structures of extended surface areas of tissue.

A cryo-ultrasonic surgical instrument is known, comprising a housing, a cryodestruction unit with a coolant supply channel and a working part, an ultrasonic emitter with external and internal electrodes, and a generator associated with the latter.

However, in a known cryo-ultrasonic surgical instrument, an ultrasound signal is generated in the form of short pulses, therefore, the necessary intensity and time of tissue dubbing cannot be ensured, either because of the high pulse porosity and the mismatch of the radiation pattern required, which leads to an increase in repair time.

The purpose of the invention is to reduce the time of reparation.

This goal is achieved in that in a cryo-ultrasound surgical instrument comprising a housing, a cryodestruction unit with a coolant supply channel and a working part, an ultrasonic emitter with external and internal electrodes and a generator associated with the latter, the external and internal lateral surfaces of the ultrasonic radiator are horizontal. the installed body of rotation, the convex surface facing the pathological focus, while the body of rotation has a through hole in which the working is located and part of the cryodestruction unit.

In cryo-ultrasonic surgical instrument according to the second variant, containing

3. A cryo-ultrasonic surgical instrument comprising a housing, a cryodestruction unit with a coolant supply channel and a working part, an ultrasonic emitter with external and internal electrodes, and a generator associated with the latter, characterized in that, in order to shorten the repair time, the instrument is equipped with an additional an ultrasonic emitter made in the form of a ring mounted in the housing, and the working part of the cryodestructor and the main ultrasonic emitter are located in the opening of the ring.

a housing, a cryodestruction unit with a coolant supply channel and a working part, an ultrasonic emitter with external and internal electrodes, and a generator associated with

the latter, the ultrasonic emitter is a vertically installed hollow body of rotation, fixed by its one end end between the body and the working part of the cryodestructor, and the output

the opening of the coolant supply channel is located in the cavity of the ultrasonic radiator.

In a cryo-ultrasonic surgical instrument according to the third variant, comprising a housing, a cryodestructor with a channel for

supplying refrigerant and operating honor; an ultrasonic emitter with external and internal electrodes; and a generator associated with the latter, the instrument is equipped with an additional ultrasonic emitter made in the form of a ring mounted in the housing, and the working part of the cryodestructor and the main ultrasonic emitter are located in the ring hole. FIG. 1 is shown in general terms a Cryoult ultrasonic surgical instrument, first variant; in fig. 2 - the same, the second option; in fig. 3 - the same, the third option.

The cryo-ultrasonic surgical instrument comprises a housing 1, a cryodestruction unit 2 with a channel 3 for supplying a coolant.

and the working part 4, the ultrasonic emitter 5 with the outer and inner electrodes 6 and 7, respectively, and the generator 8 associated with the latter, in the first embodiment, the outer and inner side surfaces of the ultrasonic transducer

5 are horizontally mounted with the body of rotation, the convex surface facing the pathological focus.

during rotation the body has a through hole in which the working part 4 of the cryodestruction unit 2 is located. In the second embodiment, the ultrasonic emitter is a vertically mounted hollow body of rotation fixed by one of its end ends between the body 1 and the working part 4 of the cryodestructor 2, and the outlet opening of the channel 3 for the supply of refrigerant is located in the cavity of the ultrasonic emitter 5. In the third embodiment, the instrument is equipped with an additional ultrasonic emitter 9, made in the form of a ring, installed in orpuse 1 and the operating part 4 kriodestruktory 2 and the main ultrasonic transducer 5 disposed in the hole of the ring.

Cryo-ultrasonic surgical instrument works as follows.

The ultrasonic emitter 5 and the cryodestructor 2 are brought into contact with the surface of the destructible tissue, and thermal contact is achieved by mechanically pressing the cryodestructor 2 to the moistened tissue, and the acoustic contact

It requires resistant to sudden changes in temperature of the contact medium, for example, silicone oil. Next, tissue cryodestruction is carried out by supplying a refrigerant from the source to the working section 4. Simultaneously with cooling to nitrogen temperatures, the tissues are exposed to ultrasound. At the same time, depending on the size of the destructible area and the required degree of destruction, the level of the electrical signal at the output of the generator 8 is set such that the intensity of the ultrasonic vibrations at the maximum required distance from the freezing zone boundary from the cryodestructor is 0.1-0.2 W / cm.

The proposed cryo-ultrasonic surgical instrument is used as a mock-up in the clinic. From the obtained results it follows that the use of the proposed tool allows to improve the results of treatment of hyperplastic and dystrophic changes in the tissues, 1.5-2 times reduce the recovery time of patients due to the shortening of the terms of tissue repair.

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Claims (3)

1. Cryo-ultrasound surgical instrument comprising a housing, a cryodestructor with a channel for supplying refrigerant and a working part, an ultrasonic emitter with external and internal electrodes and a generator associated with the latter, characterized in that, in order to reduce the repair time, the outer and inner side surfaces ultrasonic emitter represent a horizontally mounted body of revolution, a convex surface facing the pathological focus, while the body of rotation has a through hole in which m is located the working part of the cryodestructor. bQ SL QO about 2. A cryo-ultrasound surgical instrument comprising a housing, a cryodestructor with a channel for supplying refrigerant and a working part, an ultrasonic emitter with external and internal electrodes and a generator associated with the latter, characterized in that, in order to reduce the repair time, the ultrasonic emitter is a vertically mounted a hollow body of revolution, fixed by one end end between the body and the working part of the cryodestructor, and the outlet of the channel for supplying refrigerant is located in Fragments of an ultrasonic emitter. 3. A cryo-ultrasound surgical instrument containing a housing, a cryodestructor with a channel for supplying refrigerant and a working part, an ultrasonic emitter with external and internal electrodes and a generator associated with the latter, characterized in that, in order to reduce the repair time, the instrument is equipped with an additional ultrasonic emitter made in the form of a ring mounted in the housing, and the working part of the cryodestructor and the main ultrasonic emitter are located in the hole of the ring.