UA100798U - ELECTRIC SCALPEL SEED "METOST" - Google Patents

Abstract

Electroscalpel SEMENOVA VR "METOST" consists of two blades, between which is placed the dielectric. The blades of the blade are securely connected by 1 or 2 retaining rivets of an insulating quick-setting mixture, which provides a secure bonding of the structure, the blade has a straight line and at a distal end bent at an angle of 60 °, which allows to manipulate it on the bones without using rough tools such as raster.

Description

The claimed useful model belongs to medicine, in particular to orthopedics-traumatology and can be used for dissection of soft tissues during surgery.

Traditionally, a surgical scalpel of various designs is used for dissection of soft human tissues (1, 2). The disadvantage of the technology of surgical interventions with their use is that during tissue dissection, bleeding always occurs, the volume of which depends on the size of the cut vessels, the duration of blood coagulation, the amount of blood pressure, etc. Bleeding can be especially dangerous in patients with blood diseases, such as hemophilia.

The well-known bipolar electroscalpel (3), taken by us as a prototype, consists of two blades between which a dielectric is placed, and the proximal ends of the plates are connected by wires to the contact pins of the plug connector.

The blade is located at an angle of at least 90 degrees to the handle. Both of its working edges from the outer sides have a sharp angle of no more than 60 degrees, and the distal edge of the blade has an arc-shaped shape, and the proximal edge is straight.

The disadvantage of this device is that the bipolar blade, which consists of two petals that are insecurely fastened along the edge of the dielectric, deforms and sometimes breaks when the periosteum is opened. The sharp bend of the blade in the distal part allows to dissect only the mucous membrane and does not allow to manipulate in the depth of the wound and on the periosteum of bone tissue.

The purpose of the proposed useful model is to create a bipolar high-frequency electroscalpel for surgical interventions on the human musculoskeletal system.

The technical result of the introduction of such a tool consists in - the absence of burns of soft tissues and the negative impact of electric current on the body, reduction of the time of operations, provision of visual control of the site of tissue dissection, the possibility of dissection and thinning in a sufficient volume of the periosteum, which covers the bones of the upper and the lower limb of a person, instead of a crude trauma tool - a spatter, which must be used when mobilizing fragments of a damaged bone.

The problem is solved by the fact that in a known design, which consists of two blades between which a dielectric is placed, according to a useful model, the blades of the blade are securely connected

With 1 or 2 retaining rivets made of an insulating quick-setting compound, which ensures a reliable connection of the structure, the blade is rectilinear in shape and is curved at an angle of 60" at the distal end, which allows it to be manipulated on the periosteum without the use of rough tools such as a spatter .

The essence of a useful model is explained schematically, where -

In fig. 1 shows the general view of an electric scalpel.

In fig. 2 - a reduced view of an electric scalpel in a vertical section, where 1. - a retaining rivet made of an insulating quick-setting mixture, 2. - a blade made of two plates of a composite alloy,

C. - insulating coating of the conductive base of the blade, 4. - conductive base of the blade, 5. - insulating plate, b. - sealing made of insulating quick-setting mixture, 7. - conductive wires with insulation, 8. - insulating handle, 9. - plug connector, 10. - contact pins.

In Fig. C - a horizontal cross-sectional view of an electric scalpel, where 1. - a retaining rivet made of an insulating quick-setting mixture, 2. - a blade made of two plates of a composite alloy,

C. - insulating coating of the conductive base of the blade, 4. - conductive base of the blade, 5. - insulating plate, b. - sealing made of insulating quick-setting mixture, 7. - conductive wires with insulation, 8. - insulating handle, 9. - plug connector, 10. - contact pins.

The proposed device works as follows: after dissection of the skin with an ordinary metal sharp scalpel, which provides an even or thin cut with even edges, the surgeon proceeds to work with an electric scalpel. To do this, the surgeon holds the electric scalpel by the handle (8) and begins to manipulate the blade, thanks to its bipolarity thanks to two composite alloy plates (2), between which an insulating plate (5) is placed. The flow of current is ensured by the connection to the electric welding machine through the plug connector (9) and the contact pins (10) and further through the conductive wires with insulation (7) and the conductive base of the blade (4) and the insulating coating of the conductive base of the blade between the bipolar plates of the blade takes place only at the point of contact of the blade with the living tissues that need to be dissected, and due to this, the simultaneous dissection of soft tissues and hemostasis in the transected vessels takes place due to the coagulation of the proteins of the soft living tissues. This is ensured by sharpening the blade initially at an angle of 30 degrees.

Electrical insulation of the outer surface of the electroscalpel is provided by a seal made of an insulating quick-setting mixture (b).

Further, when dissecting the periosteum and exposing a fragment of the damaged bone, this is ensured by sharpening the blade at an angle of 60 degrees and securely fixing the bipolar plates of the blade with 2 retaining rivets from an insulating quick-setting mixture (1). At the same time, the tissue heating zone is minimal.

A current with a frequency of 66 kHz is supplied through the power source. The current "circulates" the electrodes through the soft tissues between the composite plates of the blade and causes heating (and electrocoagulation. When moving the instrument, it is possible to quickly perform a "bloodless" dissection of tissues, because during the dissection, coagulation of the vessels that intersect is carried out and therefore there is no bleeding.

The technical result achieved by the proposed solution facilitates the work of the surgeon, shortens the operation time by 25-45 minutes, provides visual control of the site of tissue dissection with limited access to the operating field. When using the proposed electroscalpel, the duration of wound healing was 1.4 times shorter, which is ensured by low-temperature coagulation of tissues at the site of dissection.

The proposed scalpel was successfully tested in the trauma department of the Mo 9 Kyiv Clinical Hospital on 25 patients during surgical interventions with various pathologies. The obtained positive results allow recommending it for wide implementation in practical medicine.

From the sources of information: 1. Kabatov Yu.F. Surgical knives. Big medical encyclopedia. (in the 1930s, L. AMN

USSR). See editor B.V. Petrovsky. - 3rd ed. Moscow: Soviet encyclopedia, 1981. - Vol. 19. - b. 51-54. 2. Eezscar. NMO. Kaiaiod? 1988, - 5. 217-223.

Z. Kosakovsky A.L., Semenov R.G., Kosakovsky I.A., Semenov V.R. Electroscalpel. Description to the utility model patent. Bul. May 15, 2010

Claims (1)

USEFUL MODEL FORMULA 40 An electroscalpel consisting of two blades between which a dielectric is placed, which is distinguished by the fact that the blades of the blade are reliably connected by 1 or 2 retaining rivets from an insulating quick-setting mixture, which ensures a reliable fastening of the structure, the blade has rectilinear shape and at the distal end curved at an angle of 60", which allows you to manipulate it on the periosteum without using rough tools, such as a spatula. Inn N p Ya Lx: Fig. 1