KR102648069B1 - Medical cutting instrument - Google Patents

Abstract

A medical ablation device according to an aspect according to the technical spirit of the present invention includes a first electrode portion extending in a first direction, at least a portion of which has a hollow shape with a first through hole therein, and at least a portion of the first electrode portion therein. A second electrode portion, at least a portion of which is hollow and has a second through hole, is positioned between the first electrode portion and the second electrode portion to insulate the first electrode portion and the second electrode portion. a first insulating portion, at least a portion of which is disposed to cover a portion of the first electrode portion, a portion of which is exposed to the outside, and a second insulating portion including a first open portion open toward a direction different from the first direction; A third insulating part covers at least part of the second electrode part so that part of the second electrode part is exposed to the outside, and a polishing cutting area is formed and rotated in an area located inside the first through hole and adjacent to the second insulating part. It is characterized by including a possible abrasive cutting part, and provides a medical resection device that reduces the surgical time, reduces the burden on patients and users due to medical procedures, and the risk of infection due to device replacement.

Description

Medical cutting instrument}

The present invention relates to medical ablation devices.

Arthroscopy is a method of performing surgery by making 2 to 4 small incisions less than 1 cm in the joint, inserting a small camera and surgical instruments, and examining the inside of the joint through the camera. It can be considered in many lesions such as cartilage damage, and as arthroscopy technology gradually develops, the scope of application for various diseases of the knee joint is increasing.

In addition, for surgical treatment of various diseases that can occur inside the human body, laparoscopic surgery is a technology that performs surgery with only a small hole-sized incision rather than a large incision in the abdomen, etc., and performs surgery by inserting a laparoscope with an attached camera into the stomach. It is being applied.

In a treatment process performed through a minimal incision opening in the human body, such as an arthroscope or laparoscope, or a treatment process through a natural opening in the human body, such as the nostrils, medical resection is used to remove parts of the body, such as tissues and bones, within the opening. The instrument is being used. A shaver device is usually used as such a medical resection device, and the shaver device provides high-speed resection of tissues, etc.

In this way, when tissue is excised using a shaver device, bleeding may occur during the surgical procedure, and thus hemostasis must be performed. To achieve hemostasis, you can use an electric cautery device that performs a cauterizing action by applying an electric signal to the electrode. To use an electric cautery device, you must go through the process of removing the shaver device and inserting an electric cautery device. To perform resection after hemostasis, You must go through the process of removing the inserted electrocautery device and reinserting the shaver device. In this way, if the electrocautery device and shaver device are repeatedly inserted and removed, the surgery time is prolonged due to tool replacement and there is a risk of infection during the replacement process.

The technical task to be achieved by the technical idea of the present invention is to provide an abrasive cutting function such as a shaver or a burr and a cauterization or coagulation function in one device, thereby reducing the surgical time and the inconvenience caused by tool replacement. It is intended to provide a medical resection device that prevents the risk of infection.

A medical ablation device according to an aspect according to the technical spirit of the present invention includes a first electrode portion extending in a first direction, at least a portion of which has a hollow shape with a first through hole therein, and at least a portion of the first electrode portion therein. A second electrode portion, at least a portion of which is hollow and has a second through hole, is positioned between the first electrode portion and the second electrode portion to insulate the first electrode portion and the second electrode portion. a first insulating portion, at least a portion of which is disposed to cover a portion of the first electrode portion and a portion of which is exposed to the outside, and a second insulating portion including a first open portion open toward a direction different from the first direction; a third insulating part covering at least a portion of the second electrode part so that a part of the second electrode part is exposed to the outside, and a polishing cutting area located inside the first through hole and adjacent to the second insulating part, and forming a polishing cutting area; It may include a rotatable abrasive cutting part.

According to an exemplary embodiment, when an electric signal is applied to the first electrode part or the second electrode part, the area of the first electrode part exposed to the outside and not covered by the second insulating part and the third insulating part The tissue is coagulated or ablated by the area of the second electrode part that is exposed to the outside and not covered by the part, and when the abrasive cutting part is rotated, the tissue or bone is polished or cut by the abrasive cutting area. It can be.

According to an exemplary embodiment, one side of both sides of the second insulating part in the first direction may cover the first electrode part, and a first suction hole may be formed on the other side.

According to an exemplary embodiment, the first electrode unit is a first electrode body, at least a portion of which is located inside the second through hole, has the first through hole therein, and is not exposed to the outside by the second insulating part. a portion, a first electrode exposed portion located on the outer surface of the second insulating portion and exposed to the outside, and electrically connected between the first electrode body portion and the first electrode exposed portion, wherein at least a portion of the second insulating portion is connected to the second insulating portion. It may include a first electrode connection part that is not exposed to the outside.

According to an exemplary embodiment, at least a portion of the second insulating portion is located on the outer surface of the first electrode body to prevent the first electrode body from being exposed to the outside, and the first electrode connection portion is located on at least a portion of the outer surface. A seating portion is formed to be positioned, a second insulating body portion on which the first electrode exposed portion is located on the outer surface, and at least a portion of the first electrode connection portion is coupled to the second insulating body portion so that at least a portion is not exposed to the outside. It may include a second insulating cover portion located between the second electrode portion and the first electrode body portion to insulate the second electrode portion and the first electrode body portion.

According to an exemplary embodiment, the first insulating part includes a 1-1 insulating part located on at least a partial outer surface of the first electrode part, and a 1-2 insulating part located on at least a partial outer surface of the 1-1 insulating part. and a first area and a second area between the first electrode part and the second electrode part, wherein the first area includes the 1-1 insulating part and the first area on the 1-1 insulating part. It may be insulated by a second insulating cover part, and the second area may be insulated by the 1-1 insulating part and the 1-2 insulating part on the 1-1 insulating part.

According to an exemplary embodiment, a first blade area is formed in the first open portion of the second insulating part, and when the abrasive cutting unit is rotated, tissue or bone is polished or cut by the abrasive cutting area and the first blade area. Can be cut.

According to an exemplary embodiment, the polishing cutting unit has a second open portion open toward a direction different from the first direction, and the polishing cutting area is formed in the second open portion to polish or cut the tissue. It may be the second blade area.

According to an exemplary embodiment, at least a portion of the polishing cutting portion may have a hollow shape having a third through hole therein that is used as a suction passage for suction.

According to an exemplary embodiment, a second suction hole is formed in a direction opposite to the first open part of the second insulating part, and a third suction hole is formed in the first electrode part at a position corresponding to the second suction hole. The object to be suctioned may be suctioned through the suction passage by sequentially passing through the third suction hole, the second suction hole, and the second open portion or a fourth suction hole formed in an opposite direction of the second open portion.

According to an exemplary embodiment, the polishing cutting unit may be a burr for polishing or cutting the bone.

According to an exemplary embodiment, the first electrode unit may include a third open portion open toward the same direction as the first open portion.

According to an exemplary embodiment, a third blade area is formed in the third open portion, and when the abrasive cutting unit is rotated, tissue or bone may be polished or cut by the abrasive cutting area and the third blade area.

According to an exemplary embodiment, the second electrode unit may include an exposed portion located on an outer surface of the second insulating portion and exposed to the outside, and a main body portion that is at least partially covered by a third insulating portion and coupled to the exposed portion. You can.

The features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.

Prior to this, the terms or words used in this specification and claims should not be interpreted in their usual, dictionary meaning, and the inventor may appropriately define the concept of the term in order to explain his or her invention in the best way. It must be interpreted with meaning and concept consistent with the technical idea of the present invention based on the principle that it can be done.

Medical ablation devices according to embodiments of the technical idea of the present invention provide abrasive cutting function and cauterization or coagulation function in one device, thereby reducing the surgical time, reducing the burden on patients and users due to medical procedures, and device replacement. It can reduce the risk of infection.

In order to more fully understand the drawings cited in the detailed description of the present invention, a brief description of each drawing is provided.
1 is a diagram schematically showing a medical device system including a medical resection device according to an embodiment of the present invention.
Figure 2 is a perspective view showing the medical resection device shown in Figure 1.
Figure 3 is a cross-sectional view showing the medical resection device shown in Figure 2.
Figure 4 is an exploded perspective view showing some components of the medical resection device shown in Figure 1.
Figure 5 is a perspective view showing the polishing cutting portion of the medical resection device shown in Figure 1.
Figures 6 and 7 are cross-sectional views for explaining the operation of the polishing cutting unit of the medical cutting device shown in Figure 1.
Figure 8 is a perspective view showing a polishing cutting portion of a medical resection device according to another embodiment of the present invention.
Figure 9 is a perspective view showing a medical resection device according to another embodiment of the present invention.
Figure 10 is a cross-sectional view showing the medical resection device shown in Figure 9.
FIG. 11 is an exploded perspective view showing a partial configuration of the medical resection device shown in FIG. 9.

The objectives, specific advantages and novel features of the present invention will become more apparent from the following detailed description and examples taken in conjunction with the accompanying drawings. In this specification, when adding reference numbers to components in each drawing, it should be noted that identical components are given the same number as much as possible even if they are shown in different drawings. Additionally, in describing the present invention, if it is determined that a detailed description of related known technologies may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

In describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only used to distinguish the component from other components, and the nature, sequence, or order of the component is not limited by the term. Additionally, in this specification, when a component is described as being “connected,” “coupled,” or “connected” to another component, the component may be directly connected or connected to the other component, but each component It should be understood that another component may be “connected,” “coupled,” or “connected” between elements. In the case of "connection", "coupling" or "connection", it is understood to be physically "connected", "coupled" or "connected" as well as electrically "connected", "coupled" or "connected" as required. It can be.

Terms such as “unit”, “unit”, “character”, and “module” used in this specification refer to a unit that processes at least one function or operation, which is hardware, software, or hardware. and software. In addition, terms such as “include,” “comprise,” or “have” as used in this specification mean that the corresponding component may be included unless specifically stated to the contrary, and thus do not exclude other components. Rather, it should be interpreted as being able to include other components.

In addition, it is intended to be clear that the division of components in this specification is merely a division according to the main function each component is responsible for. That is, two or more components, which will be described below, may be combined into one component, or one component may be divided into two or more components for more detailed functions. In addition to the main functions it is responsible for, each of the component parts described below may additionally perform some or all of the functions handled by other components, and some of the main functions of each component may be performed by other components. Of course, it can also be carried out exclusively by .

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings.

Figure 1 is a diagram schematically showing a medical device system including a medical resection device 100a according to an embodiment of the present invention. With reference to this, let's look at the medical device system including the medical ablation device 100a according to this embodiment.

As shown in FIG. 1, the medical device system according to this embodiment may include a medical resection device 100a, a handpiece 200, a control unit 300, and a suction unit 400. Here, the medical cutting device 100a according to the present embodiment can be mounted on the end of the handpiece 200, and the handpiece 200 is equipped with a driving part such as a motor, so that the polishing cutting part of the medical cutting device 100a ( ; shown in Figure 2) can be rotated. Accordingly, tissue or bone may be polished or cut as the polishing cutting portion 180a of the medical resection device 100a rotates. The handpiece 200 can be controlled by the control unit 300 and is connected to the suction unit 400 to suction blood, tissue, or bone, etc. through the medical cutting device 100a. The handpiece 200 can be connected to a power source and transmits an electric signal to the medical ablation device 100a under the control of the control unit 300, so that the medical ablation device 100a coagulates or ablates the tissue. ) can be done.

FIG. 2 is a perspective view showing the medical cutting device 100a shown in FIG. 1, and FIG. 3 is a cross-sectional view showing the medical cutting device 100a shown in FIG. 2. Hereinafter, with reference to this, we will look at the medical ablation device 100a according to this embodiment.

As shown in FIGS. 2 and 3, the medical ablation device 100a according to this embodiment includes a first electrode portion 110a, at least a portion of which is hollow, and at least a portion of the first electrode portion 110a therein. The second electrode portion 120a having a hollow shape to be positioned, the first insulating portion 130a insulating between the first electrode portion 110a and the second electrode portion 120a, and at least a portion of the first electrode portion 110a The second insulating part 140a covering, the third insulating part 170a covering at least a part of the second electrode part 120a, and at least a part of the first electrode part 110a are located inside the hollow of the first electrode part 110a and are rotatable. It may include a polishing cutting part (180a) that is implemented as follows.

FIG. 4 is an exploded perspective view showing some components of the medical resection device 100a shown in FIG. 1. Hereinafter, with reference to FIGS. 2 to 4, the first electrode portion 110a, the second electrode portion 120a, the first insulating portion 130a, and the third insulating portion of the medical ablation device 100a according to this embodiment. Let's take a look at (170a).

The first electrode portion 110a, together with the second electrode portion 120a, is a member that coagulates or cauterizes tissue when an electric signal is applied, and may extend along the first direction, that is, the longitudinal direction. Here, the first electrode portion 110a may be made of a metal such as stainless steel, tungsten or a tungsten alloy, molybdenum or a molybdenum alloy, titanium or a titanium alloy, and at least a portion of it may be inside the first electrode portion 110a to receive an electric signal. It may be implemented as a hollow shape with a first through hole 111.

Illustratively, the first electrode portion 110a may include a first electrode body portion 112, a first electrode exposed portion 113, and a first electrode connection portion 114. Here, the first electrode body portion 112 may be implemented as a hollow shape with a first through hole 111 therein, and at least a portion of the first electrode body portion 112 may be formed in a hollow shape inside the second through hole 121 of the second electrode portion 120a. It can be located in . In addition, the first electrode body portion 112 may be at least partially covered by the first insulating portion 130a, which will be described later, and the remaining portion may be covered by the second insulating portion 140a, which will be described later. It may be covered by the body portion 150. Accordingly, the first electrode body portion 112 may not be exposed to the outside in the finished product state as shown in FIG. 1.

In addition, the first electrode exposure portion 113 may be located on the outer surface of the second insulating body portion 150 of the second insulating portion 140a, and is implemented in a plate shape to be exposed to the outside in the finished product state as shown in FIG. 1. You can. Accordingly, the first electrode exposure portion 113 can be in contact with the tissue and can be used as a part to apply an electric signal to the tissue. Additionally, a third suction hole 115 may be formed in the first electrode exposed portion 113, thereby providing an entrance through which blood, tissue, or bone is suctioned.

In this way, the first electrode body 112 is not exposed to the outside, and the first electrode exposed portion 113 is exposed to the outside, and the space between the first electrode body 112 and the first electrode exposed portion 113 is formed. An electrically connecting part is required, and the first electrode connection part 114 can perform this role. The first electrode connection portion 114 may have a bent wire shape, for example, like an “ㄱ” shape, and may be implemented in two or more pieces to improve electrical stability. Among both ends of the first electrode connection part 114, the first connection end 116 is in contact with the first electrode body 112, and the second connection end 117 is in contact with the first electrode exposure part 113, 1 Electrical connection can be made between the electrode connection part 114 and the first electrode body part 112. At this time, in order to improve electrical stability, the first connection end 116 may be in surface contact or line contact with the first electrode main body 112, and the second connection end 117 may be in contact with the other side of the first electrode connection part 114. It can be implemented as a sphere shape with a diameter larger than the part. Other parts of the first electrode connection portion 114 excluding the second connection end 117 are inserted into the connection hole 113a penetrating the first electrode exposure portion 113, and have a diameter larger than the diameter of the connection hole 113a. The large second connection end 117 cannot pass through and may be electrically connected to the first electrode exposed portion 113 by contacting it.

The first electrode connection portion 114 is not exposed to the outside in the finished product as shown in FIG. 1 except for the second connection end 117, which may be because it is covered by the second insulating portion 140a. Specifically, the first connection end 116 of the first electrode connection part 114 is connected to the first connection end 116 and the second connection end 116 by the second insulating cover part 160 of the second insulating part 140a. The remaining portion except for the end 117 may be covered by the second insulating body portion 150 of the second insulating portion 140a, and thus the remaining portion except for the second connection end 117 will not be exposed to the outside. You can. Additionally, the first electrode connection portion 114 may be connected to the first electrode body portion 112 and the first electrode exposed portion 113 through welding, soldering, bonding, etc., or through a separate process (welding, etc.) The connection may be made through pressure by combining the second insulating body part 150 and the second insulating cover part 160 of the second insulating part 140a without going through.

Meanwhile, the second electrode unit 120a is a member that coagulates or cauterizes tissue when an electric signal is applied together with the first electrode unit 110a, and, like the first electrode unit 110a, moves in the first direction, that is, the longitudinal direction. It may be extended accordingly and may be made of a metal such as stainless steel, tungsten or a tungsten alloy, molybdenum or a molybdenum alloy, titanium or a titanium alloy, etc. to receive or transmit an electrical signal. At this time, the first electrode portion 110a may function as an active electrode, and the second electrode portion 120a may function as a passive electrode. Conversely, the first electrode portion 110a may function as a passive electrode. , it may be possible for the second electrode portion 120a to function as an active electrode. In this way, in order for the first electrode portion 110a and the second electrode portion 120a to receive an electric signal to coagulate or cauterize human tissue, at least part of the first electrode portion 110a must be exposed to the outside. In the case of the first electrode exposed portion 113 and the second connection end 117 of the first electrode connection portion 114, in the case of the second electrode portion 120a, the portion not covered by the third insulating portion 170a The exposed area 122 may be a portion exposed to the outside.

This second electrode portion 120a may be implemented in a hollow shape with a second through hole 121 therein, and the second through hole 121 includes at least a portion of the first electrode portion 110a, more specifically. At least a portion of the first electrode body portion 112 of the first electrode portion 110a may be located. At this time, it is necessary to insulate the first electrode portion 110a and the second electrode portion 120a from each other, and this insulation can be performed by the first insulating portion 130a. Specifically, the first insulating portion 130a may be located inside the second through hole 121 of the second electrode portion 120a and may be implemented as a hollow shape with the first insulating through hole 131 therein. At least a portion of the first electrode portion 110a may be located inside the first insulating through-hole 131 so that the first insulating portion 130a is positioned between the second electrode portion 120a.

For example, the first insulating part 130a may include a double structure of a 1-1 insulating part 132 and a 1-2 insulating part 133. Specifically, the 1-1 insulating part 132 is located on at least a part of the outer surface of the first electrode part 110a, and the 1-2 insulating part 133 is located on at least a part of the outer surface of the 1-1 insulating part 132. It can have a positioned structure. At this time, the 1-1 insulating part 132 is made of PTFE (Polytetrafluoroethylene) and can be implemented thinly, and the 1-2 insulating part 133 is made of FEP (Fluorinated Ethylene Propylene copolymer) for more reliable insulation. -1 It can be implemented thicker than the insulating portion 132. However, the first insulating portion 130a is not limited to these materials, and is made of PTFE, FEP, PFA (Poly Fluoro Alkoxy), PEEK (Poly Ether Ether Ketone), PVDF (Polyvinylidene fluoride), PET (Poly Ethylene Terephthalate), etc. Any material that can insulate can be implemented in a variety of ways. Accordingly, if the area between the first electrode part 110a and the second electrode part 120a is divided into a first area 134 and a second area 135, the first area 134 is the 1-1 insulating part ( 132) and the second insulating cover part 160 of the second insulating part 140a on the 1-1 insulating part 132, the second area 135 is formed by the 1-1 insulating part 132. It can be seen as being insulated by the 1-2 insulating part 133 on the 1-1 insulating part 132, and the thickness of the 1-2 insulating part 133 is the thickness of the interposed second insulating cover part. It can be implemented to be the same as the thickness of (160), improving structural completeness. In this way, the first area 134 can be insulated by the 1-2 insulating part 133 and the second insulating cover part 160, so the 1-1 insulating part 132 does not necessarily need to be included. You can. However, when the 1-1 insulating portion 132 is provided, it is possible to prevent damage to the medical ablation device 100a by passing fluid from the human body through the space between parts.

The second insulating portion 140a is a member that performs an insulating role and also performs a cutting function together with the polishing cutting portion 180a. Here, the second insulating part 140a may structurally include a second insulating body part 150 and a second insulating cover part 160.

The second insulating body portion 150 may provide an area where the first electrode portion 110a is located. Area A 151 is the outer surface of the first electrode body portion 112 of the first electrode portion 110a. Partially covered, the first electrode body 112 along with the second insulating cover 160 can be prevented from being exposed to the outside, and a seating portion 154 is provided in the B area 152 adjacent to the A area 151. is formed so that the first electrode connection portion 114 of the first electrode portion 110a is seated on the seating portion 154, and a first electrode exposed portion ( A space where 113) is located on the outer surface may be provided. At this time, the seating portion 154 may be extended and formed in the C region 153, and the first electrode connection portion 114, which is relatively weak to external shock, can be safely protected by the seating portion 154. In addition, a second suction hole 156 may be formed in region C 153 of the second insulating body portion 150 at a position corresponding to the third suction hole 115 of the first electrode portion 110a, This allows blood, tissue or bone to be suctioned. In addition, a first suction hole 155 may be additionally formed at the end of the C region 153 of the second insulating body portion 150, and blood, tissue, or bone, etc. may be suctioned through the first suction hole 155. This can improve suction efficiency.

Meanwhile, a first open portion 157 may be formed in the opposite direction of the second suction hole 156 of the second insulating body portion 150. The first open portion 157 may have a shape that is open toward a direction different from the first direction in which the second electrode portion 120a extends, and more specifically, toward a second direction perpendicular to the first direction. A first blade area 158 may be formed in this first open portion 157, and this first blade area 158 can excise tissue according to the interaction with the polishing cutting portion 180a, which will be described later. there is. In addition, the first open part 157 and the first suction hole 155 may have a shape connected to each other, and blood, some tissues, or bones can be suctioned through the first open part 157, thereby improving efficiency. You can.

The second insulating cover part 160 is a member that covers the first electrode connection part 114 located in the seating part 154 of the second insulating body part 150 to prevent it from being exposed to the outside. Since the first electrode connection part 114 may be implemented as a wire, it may be weak to external shock, and when exposed to the outside, electrical signals may flow outward through tissues, etc., causing damage. Accordingly, it is necessary to cover the first electrode connection part 114 so that it is not exposed to the outside, and the medical ablation device 100a according to an embodiment of the present invention has a first electrode connection part 114 through the second insulating cover part 160. ) can be covered.

At this time, the second insulating cover part 160 has a D area 161 that covers the first electrode connection part 114 and an E area 162 that covers a part of the first electrode body 112. It can be included. The E area 162 may be implemented in a hollow shape and positioned to be in close contact with the portion covered only by the 1-1 insulating portion 132 on the outer surface of the first electrode body portion 112, and thus the 1-1 insulating portion 132 may be formed in a hollow shape. The first region 134 of the first electrode portion 110a and the second electrode portion 120a may be insulated from each other through 132 and the E region 162 of the second insulating cover portion 160. In addition, the D area 161 is a part that covers the first electrode connection part 114 seated on the seating part 154 and is in close contact with the second insulating body part 150, and is in close contact with the second insulating body part 150. The end of the D area 161 is in close contact with the first step 159 between the area 152 and the C area 153, and the end of the D area 161 is attached to the second step 163 formed inside the D area 161. As the ends of 152 come into close contact, the second insulating body portion 150 and the second insulating cover portion 160 may be coupled. At this time, the second insulating body portion 150 and the second insulating cover portion 160 may be coupled in various coupling methods such as mechanical coupling using protrusions, grooves, etc. or bonding.

Meanwhile, the second insulating portion 140a may be made of a ceramic with high mechanical strength, such as alumina (Al ₂ O ₃ ) or zirconia (ZrO ₂ ). Since the second insulating portion 140a is a portion that directly contacts tissue or bone and must have high mechanical strength, it must cover and insulate all but a portion of the first electrode portion 110a, so ceramic may be the most desirable material. .

In this way, the medical resection device 100a according to this embodiment can improve electrical stability by implementing the part in direct contact with the tissue at the surgical site as the second insulating part 140a made of an insulating material rather than metal. Specifically, if most of the parts that directly contact the surgical site are made of metal, the electrical signals are not concentrated, so coagulation or cauterization of the tissue does not occur smoothly, and problems such as unwanted short circuits may occur. However, the medical resection device 100a according to this embodiment consists of the second insulating part 140a for most of the part directly contacting the surgical site, so that the electric signal is exposed to the first electrode of the first electrode part 110a. By concentrating on the exposed area 122 of the portion 113 and the second electrode portion 120a, coagulation or cauterization of the tissue can be performed smoothly.

Meanwhile, the third insulating portion 170a covers at least a portion of the second electrode portion 120a and insulates the medical resection device 100a from the outside. Here, the third insulating part 170a may be implemented in a hollow shape with a third insulating through hole 171 therein, and the second electrode part 120a is located inside the third insulating through hole 171. As much as possible, the second electrode portion 120a can be covered. At this time, the third insulating portion 170a is a portion that forms the exterior of the medical resection device 100a and may be formed relatively thickly of FEP (Fluorinated ethylene propylene copolymer) to ensure stable insulation. However, the third insulating portion 170a is not limited to these materials, and is made of PTFE, FEP, PFA (Poly Fluoro Alkoxy), PEEK (Poly Ether Ether Ketone), PVDF (Polyvinylidene fluoride), PET (Poly Ethylene Terephthalate), etc. Any material that can insulate can be implemented in a variety of ways. In addition, at least a portion of the second electrode portion 120a must be exposed to the outside in order to coagulate or cauterize the tissue through an electric signal, so the exposed area 122 of the second electrode portion 120a must be exposed to the outside of the third insulating portion 170a. ) may not be covered by.

FIG. 5 is a perspective view showing the polished cutting portion 180a of the medical cutting instrument 100a shown in FIG. 1, and FIGS. 6 and 7 are the polishing cutting portion 180a of the medical cutting device 100a shown in FIG. 1. This is a cross-sectional view to explain the operation. Hereinafter, the polishing cutting portion 180a according to this embodiment will be looked at with reference to FIGS. 2 to 7.

The polishing cutting unit 180a is a member for grinding or cutting tissue or bone. It is located inside the first through hole 111 of the first electrode unit 110a and has the internal structure of the handpiece 200 described in FIG. 1. It can be implemented to be connected and rotatable. An abrasive cutting area for polishing or cutting tissue or bone may be formed in this abrasive cutting portion 180a.

The abrasive cutting portion 180a of the medical resection device 100a according to this embodiment is a shaver for cutting tissue, and the abrasive cutting area may be implemented as the second blade area 181. Specifically, the polishing cutting portion 180a may be provided with a second open portion 182 that is open in a second direction that is different from the first direction, which is the extension direction of the first electrode portion 110a, and this second open portion 182 A second blade area 181 may be formed in the open portion 182. In addition, at least a portion of the polishing cutting portion 180a may be implemented as a hollow shape with a third through hole 183 therein, and the third through hole 183 of the polishing cutting portion 180a is shown in FIG. 1. It can be connected to the suction unit 400 through one handpiece 200 and used as a suction passage. However, the polishing cutting portion 180a is not necessarily implemented in a hollow shape, and if the polishing cutting portion 180a is not implemented in a hollow shape, the first through hole 111 of the first electrode portion 110a is a suction passage. It can function as.

At this time, the fourth suction hole 184 may be formed in the direction opposite to the second open portion 182 of the polishing cutting portion 180a, and the fourth suction hole 184 may be formed according to the rotation of the polishing cutting portion 180a. ), if the position of the second suction hole 156 and the third suction hole 115, the suction target, such as blood, tissue or bone fragments, is sequentially moved to the third suction hole 115 and the second suction hole 156. ) and the fourth suction hole 184 may be suctioned through the third through hole 183. In addition, even if the position of the fourth suction hole 184 does not match the positions of the second suction hole 156 and the third suction hole 115 according to the rotation of the polishing cutting part 180a, the suction target is the third suction hole 180a. It may pass through (115), the second suction hole 156, and the second open portion 182, and be suctioned through the third through hole 183. In addition, the end of the polishing cutting portion 180a is open, so tissues suctioned through the first suction hole 155 of the second insulating portion 140a can be naturally suctioned through the third through hole 183. .

Meanwhile, the tissue can be cut by the interaction between the first blade region 158 of the second insulating portion 140a and the second blade region 181 of the polishing cutting portion 180a. As shown in FIG. 6, the second blade region 158 With the first open portion 157 of the insulating portion 140a and the second open portion 182 of the polishing cutting portion 180a facing the same direction, the suction unit 400 operates to open the third through hole. When vacuum is applied within (183), the tissue is suctioned (pulled) through the second open portion 182, and the polishing cutting portion 180a is rotated inside the first electrode portion 110a as shown in FIG. 7. The first open portion 157 and the second open portion 182 face different directions, and in this process, the first blade area 158 and the second blade area 181 act like scissors and are suctioned. The (pulled) tissue can be cut. That is, the second blade area 181 can cut tissue while rotating inside the first blade area 158. At this time, the first blade area 158 and the second blade area 181 can be implemented in a simple blade shape or in a sawtooth shape to improve cutting ability.

In this way, bleeding may occur when cutting tissue due to the interaction between the polishing cutting portion 180a and the second insulating portion 140a. Previously, the method of removing the shaver device that performed the cutting for hemostasis from the surgical site and inserting an electrocautery device for hemostasis was used. This resulted in the inconvenience of inserting and removing surgical instruments, prolonging surgery time, and infection due to tool replacement. There was a question of risk. However, the medical cutting device 100a according to the present embodiment can perform not only the function of a shaver but also the function of electrocautery, and the abrasive cutting portion 180a can be used with the medical cutting device 100a inserted into the surgical site. After cutting the tissue according to the operation, an electric signal can be applied to the first electrode unit 110a or the second electrode unit 120a to coagulate or cauterize the tissue, thereby enabling hemostasis. In addition, by continuously providing suction, blood, tissue, bone fragments, etc. can be suctioned to keep the surgical site clean.

Meanwhile, the control unit 300 shown in FIG. 1 performs suction according to the suction unit 400, coagulation or cauterization according to the first electrode part 110a and the second electrode part 120a, and the second insulating part 140a. And the handpiece 200 and the medical cutting device 100a can be controlled so that cutting according to the abrasive cutting unit 180a is performed smoothly. A suction signal, depending on the rotational position or usage time of the abrasive cutting unit 180a, It is possible to provide different coagulation or cauterization signals, or it may be possible to control rotation, suction, coagulation, or cauterization of the polishing cutting unit 180a to proceed continuously.

Figure 8 is a perspective view showing the polishing cutting portion 180b of a medical resection device according to another embodiment of the present invention. Hereinafter, with reference to this, we will look at the medical ablation device according to this embodiment.

The medical ablation device according to this embodiment includes a first electrode portion (110a), a second electrode portion (120a), a first insulation portion (130a), a second insulation portion (140a), and a third insulation portion, as in the previous embodiment. It includes a portion 170a and a polishing cutting portion 180b, but the polishing cutting portion 180b has the shape of a burr rather than the shape of a shaver with a second blade area 181 as in the previous embodiment. It can be characterized.

Accordingly, the medical cutting device according to this embodiment can be used for polishing or cutting bone, not for cutting tissue, and the polishing cutting part 180b grinds or cuts bone and the first electrode part 110a and the second electrode unit 120a may perform a coagulation or cauterization function for hemostasis, etc.

In this way, when the polishing cutting part 180b is implemented as a burr, a separate blade area may not be formed in the second insulating part 140a.

FIG. 9 is a perspective view showing a medical cutting device 100c according to another embodiment of the present invention, and FIG. 10 is a cross-sectional view showing the medical cutting device 100c shown in FIG. 9. Hereinafter, with reference to this, we will look at the medical ablation device 100c according to this embodiment.

As shown in FIGS. 9 and 10, the medical ablation device 100c according to this embodiment includes a first electrode portion 110c, a second electrode portion 120c, a first insulation portion 130c, and a second insulation portion. It may include a portion 140c, a third insulating portion 170c, and a polishing cutting portion 180c.

The first electrode portion 110c is a member that coagulates or cauterizes tissue together with the second electrode portion 120c when an electric signal is applied. For example, stainless steel, tungsten or tungsten alloy, molybdenum or It may be made of metal such as molybdenum alloy, titanium or titanium alloy. Additionally, the first electrode portion 110c extends in the first longitudinal direction and at least a portion of the first electrode portion 110c may be implemented as a hollow shape with a first through hole 111c therein. Here, the first electrode portion 110c has a third open portion 118 opened in the same direction as the first open portion 157c at a position corresponding to the first open portion 157c of the second insulating portion 140c. can be formed. A third blade area 119 may be formed in the third open portion 118, and tissue or bone may be polished or cut by interaction with the polishing cutting area 181 of the rotatable polishing cutting portion 180c. .

FIG. 11 is an exploded perspective view showing a partial configuration of the medical resection device 100c shown in FIG. 9. Hereinafter, with reference to FIGS. 9 to 11, the second electrode portion 120c, the first insulating portion 130c, the second insulating portion 140c, the third insulating portion 170c, and the polishing cutting portion according to the present embodiment. Let's take a look at (180c).

The second electrode portion 120c is a member that coagulates or cauterizes tissue together with the first electrode portion 110c when an electric signal is applied. Like the first electrode portion 110c, the second electrode portion 120c is made of stainless steel, for example, so that the electric signal can be well conducted. It may be composed of metals such as steel, tungsten or tungsten alloy, molybdenum or molybdenum alloy, titanium or titanium alloy, etc. The second electrode portion 120c extends in the first direction, which is the longitudinal direction, and at least a portion of the second electrode portion 120c may be implemented in a hollow shape with a second through hole 121c therein. 1 At least a portion of the electrode portion 110c may be located. Here, the second electrode unit 120c can function as an active electrode, and the first electrode unit 110c can function as a passive electrode, and vice versa.

Meanwhile, the second electrode portion 120c may include a main body portion 123 and an exposed portion 124. Here, the exposed portion 124 is a portion located on the outer surface of the second insulating portion 140a and exposed to the outside, and the main body portion 123 is a portion of which most of the area is surrounded by the outside of the second electrode portion 120c. 3 It may not be exposed to the outside due to the insulating portion 170c. The exposed portion 124 may be coupled to at least a portion of the main body 123 by, for example, welding, and a suction hole for suction may be formed in each of the exposed portion 124 and the main body 123. You can. Additionally, it may be possible for the exposed portion 124 and the main body portion 123 to be formed integrally rather than as separate members.

The first insulating portion 130c is a member that insulates at least a portion between the first electrode portion 110c and the second electrode portion 120c. Here, the first insulating portion 130c is implemented in the form of a tube and surrounds at least a portion of the first electrode portion 110c and may be positioned between the first electrode portion 110c and the second electrode portion 120c. . At this time, the space between the first electrode portion 110c and the second electrode portion 120c is not insulated only by the first insulating portion 130c, and the space between the first electrode portion 110c and the second electrode portion 120c is Some parts may be insulated by the first insulating part 130c and others may be insulated by the second insulating part 140c. At this time, it is also possible to implement more perfect insulation by implementing the first insulating part 130c as two layers, as in the previous embodiment.

The second insulating portion 140c may surround a portion of the first electrode portion 110c so that it is not exposed to the outside and insulate the first electrode portion 110c and the second electrode portion 120c from being short-circuited internally. . Here, a first open portion 157c open in the same direction as the third open portion 118 of the first electrode portion 110c may be formed in the second insulating portion 140c. Accordingly, the third open portion 118 of the first electrode portion 110c is exposed to the outside through the first open portion 157c, and the third blade area 119 formed in the third open portion 118 is exposed to the outside. You can make it exposed. At this time, a part of the second electrode portion 120c may be located on the outer surface of the second insulating portion 140c and function as an exposed electrode, and a second insulating portion corresponding to the suction hole of the second electrode portion 120c ( 140c) A suction hole is formed at the position so that blood, tissue, or bone, etc. can be suctioned. In addition, a separate side suction hole 155c may be further formed at the end of the second insulating portion 140c, and suction can be performed through this, thereby improving suction efficiency. At this time, the corresponding positions of the first electrode portion 110c and the polishing cutting portion 180c may be open so that there is no problem with suction.

The polishing cutting portion 180c is rotatably implemented as a member for polishing or cutting tissue or bone, is located inside the first through hole 111c of the first electrode portion 110c, and is a second insulating portion ( A polishing cutting area 181 may be formed in an area adjacent to 140c). Here, when the polishing cutting portion 180c is implemented as a shaver, a second open portion 182 may be formed in the polishing cutting portion 180c, and the second open portion 182 may have a polishing cutting area implemented as a blade area. (181) can be formed. At this time, when the suction unit operates and vacuum is applied to the third through hole 183 of the polishing cutting portion 180c, the tissue is suctioned (pulled) through the second open portion 182, and the polishing cutting portion 180c ) is rotated, the polishing cutting area 181 of the second open part 182 is rotated inside the third blade area 119 of the third open part 118, and the tissue can be cut. Additionally, in order to improve cutting ability, it is also possible to implement the second blade area 181 and the third blade area 119 in a sawtooth shape.

This embodiment differs from the previous embodiment in that the blade area is formed in the first electrode portion 110c rather than the second insulating portion 140c. In this embodiment, the third blade region 119 is formed in the first electrode portion 110c made of metal, so mechanical strength can be excellent, and both the second blade region 181 and the third blade region 119 are formed. Since it is made of metal, mutual matching is improved and cutting power can be further improved.

Meanwhile, in this embodiment, the case where the polishing cutting part 180c is a shaver has been described, but it may also be configured as a burr as in the previous embodiment.

Although the present invention has been described in detail through specific examples, this is for the purpose of specifically illustrating the present invention, and the medical resection device according to the present invention is not limited thereto, and is within the technical spirit of the present invention and is subject to common knowledge in the field. It would be clear that modification or improvement is possible by those who have it.

All simple modifications or changes of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

100a, 100c: medical ablation device
110a, 110c: first electrode portion
112: first electrode main body
113: first electrode exposed portion
114: first electrode connection part
120a, 120c: second electrode portion
130a, 130c: first insulating part
140a, 140c: second insulating part
150: Second insulating body part
158: 1st blade area
160: second insulating cover part
170a, 170c: third insulating part
180a, 180b, 180c: Polished cutting section
181: 2nd blade area, polishing cutting area

Claims (14)

A first electrode portion extending in a first direction, at least a portion of which is hollow and has a first through hole therein;
a second electrode portion at least partially having a hollow shape with a second through hole so that at least a portion of the first electrode portion is located therein;
a first insulating part located between the first electrode part and the second electrode part to insulate the first electrode part and the second electrode part;
a second insulating portion at least partially disposed to cover a portion of the first electrode portion, partially exposed to the outside, and having a first open portion open toward a direction different from the first direction;
a third insulating portion covering at least a portion of the second electrode portion so that a portion of the second electrode portion is exposed to the outside; and
a polishing cutting part located inside the first through hole and having a polishing cutting area formed in an area adjacent to the second insulating part and being rotatable;
Including,
A medical resection device in which tissue or bone is polished or cut by the abrasive cutting area when the abrasive cutting unit is rotated. According to paragraph 1,
When an electric signal is applied to the first electrode part or the second electrode part, the area of the first electrode part that is not covered by the second insulating part and is exposed to the outside and the area that is not covered by the third insulating part and that is exposed to the outside. A medical ablation device in which tissue is coagulated or ablated by the exposed area of the second electrode portion. According to paragraph 1,
A medical ablation device, characterized in that one side of the two sides of the second insulating part along the first direction covers the first electrode part and a first suction hole is formed on the other side. According to paragraph 1,
The first electrode portion,
a first electrode body portion at least partially located inside the second through hole, having the first through hole therein, and not exposed to the outside by the second insulating portion;
a first electrode exposed portion located on the outer surface of the second insulating portion and exposed to the outside; and
a first electrode connection part that electrically connects the first electrode main body and the first electrode exposed part, but at least a portion of which is not exposed to the outside by the second insulating part;
A medical ablation device comprising: According to clause 4,
The second insulating part,
At least a portion is located on the outer surface of the first electrode body so that the first electrode body is not exposed to the outside, and a seating portion is formed so that the first electrode connection portion is located on at least a portion of the outer surface, and the first electrode is disposed on the outer surface. a second insulating body portion where the exposed portion is located; and
At least part of the first electrode connection part is coupled to the second insulating body part so as not to be exposed to the outside, and at least part of the first electrode connection part is located between the second electrode part and the first electrode body part and the second electrode part and the first electrode body part. a second insulating cover part that insulates between the first electrode body parts;
A medical ablation device comprising: According to clause 5,
The first insulating part,
a 1-1 insulating portion located on at least a portion of the outer surface of the first electrode portion; and
a 1-2 insulating part located on at least a portion of the outer surface of the 1-1 insulating part;
Including,
A space between the first electrode part and the second electrode part includes a first area and a second area, and the first area includes the 1-1 insulating part and the second insulating cover on the 1-1 insulating part. A medical ablation device characterized in that the second region is insulated by the 1-1 insulation portion and the 1-2 insulation portion on the 1-1 insulation portion. According to paragraph 1,
A first blade area is formed in the first open part of the second insulating part, and when the grinding cutting unit is rotated, tissue or bone is polished or cut by the grinding cutting area and the first blade area. Ablation device. In clause 7,
The polishing cutting portion has a second open portion open toward a direction different from the first direction, and the polishing cutting area is a second blade area formed in the second open portion for polishing or cutting the tissue. A medical ablation device made of. According to clause 8,
A medical ablation device, wherein at least a portion of the polishing cutting portion has a hollow shape with a third through hole used as a suction passage for suction. According to clause 9,
A second suction hole is formed in the opposite direction of the first open part of the second insulating part,
A third suction hole is formed in the first electrode portion at a position corresponding to the second suction hole,
A medical device, characterized in that the suction object sequentially passes through the third suction hole, the second suction hole, and the second open portion or a fourth suction hole formed in an opposite direction of the second open portion and is suctioned through the suction passage. Ablation device. According to paragraph 1,
A medical resection device, characterized in that the polishing cutting portion is a burr for polishing or cutting the bone. According to paragraph 1,
A medical ablation device, characterized in that the first electrode portion has a third open portion open toward the same direction as the first open portion. According to clause 12,
A third blade area is formed in the third open portion, and when the abrasive cutting unit is rotated, tissue or bone is polished or cut by the abrasive cutting area and the third blade area. According to clause 12,
The second electrode part,
an exposed portion located on the outer surface of the second insulating portion and exposed to the outside; and
a main body portion at least partially covered by a third insulating portion and coupled to the exposed portion;
A medical ablation device comprising:

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