RU91846U1 - ELECTROSURGICAL BIPOLAR SCISSORS FOR COAGULATION AND CUTTING - Google Patents

Abstract

1. Electrosurgical bipolar scissors, consisting of two insulated conductive branches, movably connected relative to each other using an electrically insulated hinge, containing finger rings and connectors for supplying electric current at the proximal end, and cutting blades at the distal end, characterized in that both distal the end of the scissors have a two-layer composite structure: metal-dielectric. ! 2. The electrosurgical bipolar scissors according to claim 1, characterized in that in the two-layer composite structure of the blades, crystalline nanostructured partially stabilized zirconia (CSC) is used as the dielectric. ! 3. The electrosurgical bipolar scissors according to claim 1, characterized in that the cutting edges of said cutting blades are formed by the dielectric parts of the two-layer composite structures. ! 4. The electrosurgical bipolar scissors according to claim 2, characterized in that the said dielectric of the two-layer composite structure of the branch is made in the form of replaceable inserts. ! 5. Electrosurgical bipolar scissors according to claim 4, characterized in that said interchangeable inserts have a variable thickness. ! 6. Electrosurgical bipolar scissors according to claim 6, characterized in that the thickness of said interchangeable inserts is in the range from 0.2 to 2 mm. ! 7. Electrosurgical bipolar scissors according to any one of claims 1 to 6, characterized in that the dissection of the biological tissue is carried out by the outer edge of the dielectric part of the two-layer composite structure of the branch. ! 8. Electrosurgical bipolar scissors according to claim 7, characterized in that when dissecting the biological tissue metal

Description

The utility model relates to medical electrosurgical instruments and can be used in surgical operations for the simultaneous dissection and coagulation of biological tissues and blood vessels. Known electrosurgical bipolar scissors (patent No. 5675103, USSR - "Bipolar biactive scissors"). Known electrosurgical scissors consist of crossed insulated jaws made of conductive material connected by an electrically insulated hinge. The disadvantage of such bipolar electrosurgical scissors is the participation in the process of coagulation of metal electrodes, parts of which are also cutting blades. Despite the special processing and hardening of the metal blade directly interacting with the biochannel, in the process of work due to electrochemical processes, its rapid degradation occurs. In this case, there is an undesirable injury to dissected biological tissues.

Closest to the proposed utility model include electrosurgical bipolar scissors (US patent No. 5324289 "Hemostatic bi-polar electrosurgical cutting and methods of use - bloodless electrosurgical bipolar scissors and methods for their use"), made in the form of two crossed branches connected by one isolated axis with cutting edges at the distal working ends. At the proximal ends of the jaw are finger rings and electrodes for introducing electric current. One cutting edge of the branch has a ceramic spraying. The second cutting edge is made of medical steel. The disadvantages of this device are:

1. The direct participation of the metal blade electrode in the cutting process and, as a consequence, its electrochemical destruction;

2. Asymmetric coagulation on both sides of the dissection plane.

The purpose of the proposed utility model is the creation of electrosurgical scissors, providing during the dissection process coagulation of biological tissues to the same depth from the dissection plane and having increased cutting ability and wear resistance.

This goal is achieved by the fact that structurally electrosurgical bipolar scissors contain two crossed insulated jaws 2 made of conductive material, movably connected using an electrically insulated hinge 3, finger rings and connectors 1 for supplying electric current are located at the proximal ends of the jaw 2, and the cutting edges of the blades formed by the dielectric parts of 5 two-layer composite structures located at the distal end of 4 branches. The outer layer of the distal ends 4 branches made of medical steel.

Figure 1 presents the proposed scissors.

Figure 2 shows a cross section of scissors.

The thickness of the dielectric parts 5 (insertion blades) is limited on one side (upward) by the maximum current density required for coagulation, and on the other hand, a decrease in the thickness of the ceramic can lead to the destruction of metal electrodes due to electrochemical processes. The experiments showed that the optimal thickness of the ceramic blade inserts should be in the range of 0.2-2.0 mm

As the dielectric in the two-layer compositional structure of the blades, crystalline nanostructured partially stabilized zirconia (CSC) is used, while the said dielectric of the two-layer compositional structure of the jaw can be made in the form of replaceable inserts. The thickness of said interchangeable inserts may have a variable thickness, which, as indicated above, may be in the range of 0.2-2.0 mm.

The proposed electrosurgical bipolar scissors work as follows. A high-frequency electric current through a cable from the generator is supplied to the electrodes for inputting an electric current 1, which are structurally combined with the proximal ends 2 of the scissors branches. Moreover, the distal ends 2 of the jaw of such an instrument isolated from each other are active bipolar electrodes. The working elements of scissors constantly have two points of contact with biological tissue. The high-frequency current supplied to the instrument flows between the points of contact of the electrodes with the biological tissue 6, passing along the shortest path only through the section of tissue that is located between these points, causing coagulation (shown by arrows in Figure 2). When the jaw is compressed by the surgeon, the biological tissue 6 is squeezed between the distal ends 4 of the jaw and mechanically dissected by ceramic dielectric parts 5 (insertion blades), that is, the dissection of the biological tissue 6 is carried out by the outer edge of the dielectric part of the two-layer composite junction structure. When dissecting biological tissue 6, the metal parts 4 of the two-layer composite branches protruding above the cutting edge of the ceramic dielectric parts 5 (insertion blades) provide electrocoagulation of the biological tissue ahead of the dissection process, and to the same depth from the dissection plane.

Claims (9)

1. Electrosurgical bipolar scissors, consisting of two insulated conductive branches, movably connected relative to each other using an electrically insulated hinge, containing finger rings and connectors for supplying electric current at the proximal end, and cutting blades at the distal end, characterized in that both distal the end of the scissors have a two-layer composite structure: metal-dielectric. 2. The electrosurgical bipolar scissors according to claim 1, characterized in that in the two-layer composite structure of the blades, crystalline nanostructured partially stabilized zirconia (CSC) is used as the dielectric. 3. The electrosurgical bipolar scissors according to claim 1, characterized in that the cutting edges of said cutting blades are formed by the dielectric parts of the two-layer composite structures. 4. The electrosurgical bipolar scissors according to claim 2, characterized in that the said dielectric of the two-layer composite structure of the branch is made in the form of replaceable inserts. 5. Electrosurgical bipolar scissors according to claim 4, characterized in that said interchangeable inserts have a variable thickness. 6. Electrosurgical bipolar scissors according to claim 6, characterized in that the thickness of said interchangeable inserts is in the range from 0.2 to 2 mm. 7. Electrosurgical bipolar scissors according to any one of claims 1 to 6, characterized in that the dissection of the biological tissue is carried out by the outer edge of the dielectric part of the two-layer composite structure of the branch. 8. The electrosurgical bipolar scissors according to claim 7, characterized in that when dissecting the biological tissue, the metal parts of the two-layer composite branches provide electrocoagulation of the biological tissue ahead of the dissection process. 9. Electrosurgical bipolar scissors according to claim 7, characterized in that when dissecting a biological tissue, two-layer composite branches provide electrocoagulation of the biological tissue to the same depth from the dissection plane.