RU178475U1 - Device for intraosseous electrocoagulation - Google Patents

Abstract

The technical solution relates to medicine, namely to orthopedics and traumatology, and can also be used in the surgical treatment of malignant tumors of long bones. The device for intraosseous electrocoagulation consists of a handle and a replaceable nozzle made in the form of a metal cylinder, at the end of which there is a dielectric head with ring electrode, the nozzle is connected to the handle using a bayonet connection. This technical solution is characterized in that the electrocoagulation effect is provided by passing a high-frequency electric current generated through a stationary electrocoagulation apparatus through a ring-shaped electrode, the depth of electrocoagulation necrosis is limited by the effect of decreasing electric current with increasing impedance of coagulated tissue. The proposed device provides high efficiency for stopping intraosseous bleeding throughout the length of the milled channel and controlled g a lobe of coagulation necrosis. This device has sufficient simplicity, reliability and high efficiency, which allows to achieve good clinical results and can be used in specialized medical institutions.

Description

The utility model relates to medicine, namely to orthopedics and traumatology, and may also find application in the surgical treatment of malignant tumors of long bones.

As the prototype selected "Intraosseous coagulator" [patent UA 8340U A61B 17/00, 18/08, publ. 08/15/2005, Bull. No. 8] which consists of a handle, inside of which there is a temperature reducer, with a control range of 60-80 degrees, the working part is represented by a hollow rod that contains an incandescent spiral.

The disadvantage of this coagulator is the inability to control the temperature change while it is in the cavity of the medullary canal and the inability to prevent thermal damage to the bone to its greater depth.

The technical result of the utility model is to reduce the risk of deep thermal damage to the bone, which means to increase the effectiveness of treatment.

The device for intraosseous electrocoagulation consists of a handle and a working part, the working part is made in the form of a replaceable metal nozzle having the shape of a cylinder, at the end of which there is a dielectric head with a ring-shaped electrode, the nozzle is connected to the handle using a bayonet connection.

The electrocoagulation effect is provided by passing a high frequency electric current generated by a stationary apparatus for electrocoagulation through a ring-shaped electrode. The depth of electrocoagulative necrosis is limited by the effect of decreasing electric current with increasing impedance of coagulated tissue.

The device is presented graphically.

The device for intraosseous electrocoagulation (Fig. 1) consists of a handle 1 and a replaceable nozzle 2 made in the form of a metal cylinder, at the end of which there is a dielectric head 3 with an annular electrode 4, the nozzle 2 is connected to the handle using a bayonet connection 5.

The operation of a special device for intraosseous coagulation is as follows. After resection of the bone within the healthy tissue, and processing of the medullary canal under the implantable fixative, the device nozzle is inserted into the medullary canal completely against the metaphysical zone, at the end of which there is a dielectric head 3 with a ring-shaped electrode 4, the electric potential supply from the high-frequency electrocoagulator is activated, then activated the switch and nozzle are slowly withdrawn from the channel until it is completely removed. In this case, the channel walls are processed in the electrocoagulation mode. The medullary canal is jet-washed with antiseptic solutions. The uniformity and depth of the treatment of the medullary canal is ensured by the shape of the ring-shaped electrode and the effect of reducing the electric current with increasing impedance of the coagulated tissue. Processing the bone marrow canal with a special device leads to coagulation of proteins and death of all cells, including tumor cells, thereby reducing the risk of implant metastases.

The proposed device provides high efficiency for stopping intraosseous bleeding throughout the milled channel, and a controlled depth of coagulation necrosis. This device has sufficient simplicity, reliability and high efficiency, which allows to achieve good clinical results and can be used in specialized medical institutions.

Claims (1)

Device for intraosseous electrocoagulation, including a handle and a working part, characterized in that the working part is made in the form of a replaceable metal nozzle having the shape of a cylinder, at the end of which there is a dielectric head with a ring electrode, the nozzle is connected to the handle using a bayonet connection.

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