JP3197290U - High-frequency female treatment practice model - Google Patents

Abstract

To provide a practice model for polypectomy using a high-frequency knife that supports both a single-type counter electrode and a dual-type counter-electrode plate, without having to remove the counter-electrode plate every time a simulated polyp is replaced. A high-frequency female treatment practice model includes a simulated gastrointestinal tract 13 and a simulated polyp 5 that can be inserted into a hole 19 opened in one or more locations of the simulated gastrointestinal tract and that can be opened with a high-frequency knife. A simulated polyp capturing electrode that can be attached to the simulated polyp, a counter electrode attaching electrode, and an energizing cable including a lead wire 2 that connects the simulated polyp capturing electrode and the counter electrode attaching electrode. It is preferable that the body which contains a simulation gastrointestinal tract and the electrode attached to the counter electrode plate is detachable from the body. [Selection] Figure 2

Description

  The present invention relates to a practice model for practicing polypectomy with a high-frequency knife.

Utility model document 1 and utility model document 2 are disclosed as models for practicing excision of polyp in the digestive tract with a high-frequency knife under direct viewing of an endoscope. However, in the practice model disclosed in these documents, the counter electrode plate has a structure that is attached to the bottom surface of a simulated polyp having a diameter of about 15 mm. Due to this structure, when a dual type counter electrode plate is used, an error of a contact failure of the counter electrode plate is likely to occur, and only a single type counter electrode plate can be used in practice. In addition, the single type counter electrode plate has only one electrode surface of the counter electrode plate, and the dual type counter electrode plate is divided into two so that it can sense whether the counter electrode plate is correctly attached. It is what has been.
In addition, it was necessary to remove the counter electrode plate every time the simulated polyp was replaced, and the operation was complicated.

Japanese Utility Model No. 6-4769 Utility model registration No. 3184695

  The solution of the present invention provides a practice model for polypectomy using a high-frequency knife that supports both single-type and dual-type counter-electrode plates without having to remove the counter-electrode plates each time a simulated polyp is replaced. It is to be.

The present inventors have confirmed that the above problem can be solved by a high-frequency female treatment practice model having the following configuration, and have completed the present invention.
(1) Simulated digestive tract,
(2) A simulated polyp that can be inserted into a hole opened in one or more locations of the simulated digestive tract and can be opened with a high-frequency knife.
(3) Simulated polyp capture electrode that can be attached to the simulated polyp, counter electrode pasting electrode, and energizing cable comprising lead wires connecting the simulated polyp trapping electrode and counter electrode pasting electrode,
Including high frequency female treatment practice model.

That is, this invention consists of the following.
“1. Simulated digestive tract, simulated polyp that can be inserted into a hole opened in one or more locations of the simulated digestive tract and can be incised with a high-frequency knife, simulated polyp capture electrode that can be attached to the simulated polyp, A high-frequency female treatment practice model including a counter electrode attaching electrode, and an energizing cable including lead wires connecting the simulated polyp capturing electrode and the counter electrode attaching electrode.
2. Furthermore, the high frequency female treatment practice model of the preceding clause 1 containing the body which accommodates the said digestive tract.
3. 3. The high-frequency female treatment practice model according to item 2 above, wherein the counter electrode pasting electrode is detachable from a body housing the digestive tract. "

According to the present invention, it is no longer necessary to attach the counter electrode plate of the high frequency knife directly to the bottom surface of the simulated polyp as in the prior art. As a result, the counter electrode plate is affixed to the counter electrode affixing electrode having a larger area than the bottom surface of the simulated polyp. For this reason, even if a dual type counter electrode plate having two divided electrode surfaces is used, the electrode attached to the counter electrode plate can reliably contact both of the two divided electrode surfaces, resulting in poor contact. Does not result in an error.
In addition, it is not necessary to remove the counter electrode plate every time the simulated polyp is replaced.
Further, in the actual high frequency scalpel treatment, the counter electrode plate of the high frequency scalpel is often attached to the patient's back. In the high-frequency female treatment practice model of the present invention, as in the actual treatment, the electrode attached to the back of the body is attached to the back of the body using an energized cable. A counter electrode plate can be attached, and practice closer to the actual procedure can be performed.

A high-frequency female treatment practice model (1) is shown. A: The figure which has inserted the simulated polyp (5) into the hole (19) of the simulated digestive tract is shown. B: The figure shows that the simulated polyp (5) is inserted into the hole (19) of the simulated digestive tract. C: The figure shows that the simulated polyp (5) is fixed by the band (4). A simulated polyp (5) is shown. A: The figure which attaches the counter electrode sticking electrode (16) to the back of the body (18) which accommodates a simulated digestive tract is shown. B: (1) The figure which affixes the single type counter electrode plate (14) to the counter electrode plate pasting electrode (16) is shown, (2) The single type counter electrode plate (14) is the counter electrode pasting electrode (16 ) Shows the attached figure. C: (1) A diagram in which a dual type counter electrode plate (14) is attached to a counter electrode plate attaching electrode (16) is shown. (2) The dual type counter electrode plate (14) is a counter electrode attaching electrode (16 ) Shows the attached figure. The figure which has attached the simulation polyp capture electrode (15) to the simulation polyp (5) is shown. An energizing cable (17) comprising a simulated polyp capturing electrode (15), a counter electrode pasting electrode (16) and a lead wire (2) connecting the two is shown.

  The high-frequency scalpel treatment practice model of the present invention is based on the high-frequency scalpel under direct viewing of the endoscope. This practice model allows the practice of excising the polyp in the gastrointestinal tract with the instruments used in the actual surgery, and also with the same technique as the actual surgery.

  The present invention describes a "simulated gastrointestinal tract (13), a simulated polyp (5) that can be inserted into a hole (19) drilled in one or more locations of the simulated gastrointestinal tract and that can be opened with a high-frequency knife, From the simulated polyp capture electrode (15) that can be attached to the simulated polyp, the counter electrode attaching electrode (16), and the lead wire (2) that connects the simulated polyp capturing electrode (15) and the counter electrode attaching electrode (16) This is a high-frequency female treatment practice model (1) including an energizing cable (17).

The simulated gastrointestinal tract (13) is formed of a material having softness close to that of a living body such as silicone rubber (see FIG. 1). Furthermore, the simulated gastrointestinal tract (13) has one or more holes (19) into which the simulated polyp (5) can be inserted (see: FIG. 2A).
The simulated polyp (5) is formed of a hydrous resin that can be inserted into a hole (19) opened in one or more locations of the simulated digestive tract (13) and can be opened with a high-frequency knife. The simulated polyp (5) is preferably fixed to the body (9) composed of the head (6), stem (7), base (8) and the hole (19) of the simulated digestive tract (13). It consists of a fixed shaft (10) and a fixed flange (11) (see: FIG. 3). In addition, preferably, a simulated blood vessel (12) which is a cylindrical cavity is provided from the center of the fixed flange (11) of the simulated polyp (5) along the central axis of the simulated polyp (5), and the simulated blood is provided therein. (3) is filled. After filling, a seal made of polyvinyl alcohol is adhered so as to close the entrance of the simulated blood vessel so that the simulated blood (3) does not flow out.
The simulated polyp trapping electrode (15) is fitted between the fixed flange (11) and the base (8) of the simulated polyp (5) (refer to FIG. 5), and the simulated polyp (5) in the fitted state is simulated. It is inserted into the gastrointestinal tract (13) and fixed (see FIG. 2B). Thereby, the simulated polyp capturing electrode (15) is sandwiched and fixed between the simulated digestive tract (13) and the fixed flange (11) of the simulated polyp. The simulated polyp trapping electrode (15) may be ring-shaped, C-shaped or U-shaped, but is preferably ring-shaped.
The counter electrode pasting electrode (16) is a circular or polygonal flat plate, and its diameter or diagonal length is preferably 20 mm or more. One surface of the counter electrode attachment electrode (16) is attached with the counter electrode plate (14) of the high frequency knife, and the other surface (the surface opposite to the side where the counter electrode plate of the high frequency knife is attached) accommodates the simulated digestive tract. A method in which the body (18) is attached to an appropriate place (for example, a place corresponding to the back of a human body) is preferable. For example, the method can be exemplified by using a hook-and-loop fastener (see: FIG. 4).
The energizing cable (17) is composed of a lead wire (2) connecting the simulated polyp capturing electrode (15) and the counter electrode attaching electrode (16).
The lead wire (2) is for allowing a high frequency current to flow between the simulated polyp capturing electrode (15) and the counter electrode attaching electrode (16). It is preferable to have a sufficient length to reach the position of the counter electrode plate.
The high-frequency female treatment practice model (1) of the present invention preferably has a body (18) that houses a simulated gastrointestinal tract (see FIG. 1). The body (18) for accommodating the digestive tract has a shape imitating a part of the human torso and can accommodate the simulated digestive tract (13) in an appropriate arrangement. The structure of the body disclosed in the utility model document 2 can be exemplified, but it is preferable that the structure (back part) where the counter electrode plate of the high frequency knife is actually attached to the human body is reproduced.

  Hereinafter, although the form for implementing this invention is demonstrated, a claim is not limited at all.

(High-frequency female treatment practice model)
The high-frequency scalpel treatment practice model (1) is a simulated polyp that can be inserted into a simulated digestive tract (13) and a hole (19) drilled in one or more locations of the simulated digestive tract and that can be opened with a high-frequency scalpel. (5) Simulated polyp trapping electrode (15), counter electrode pasting electrode (16), simulated polyp trapping electrode (15) and counter electrode pasting electrode (16) that can be attached to the fixing flange (11) of the simulated polyp ), And a body (18) that houses a simulated digestive tract as required.
The simulated digestive tract (13) is made of a flexible material such as silicone rubber. Since the high-frequency female treatment practice model (1) also practice observation with an endoscope, the color and shape of the inside of the simulated digestive tract (13) are preferably similar to those inside the human digestive tract. Similarly, the thickness is about 1 to 2 mm. As a lesion part of the simulated gastrointestinal tract (13), the hole (19) has at least one, preferably 2-3 in the simulated gastrointestinal tract (13) so that a replaceable simulated polyp (5) imitating an actual polyp can be attached. Has in place.
The body (18) for storing the simulated digestive tract is a case imitating the shape of the abdomen of the human body for storing the simulated digestive tract (13), but the simulated digestive tract (13) is set at an appropriate position in the human body. It also has a function to Thus, the simulated gastrointestinal tract (13) is preferably fixed at three positions near the anus, near the center of the descending colon, and near the center of the ascending colon of the body (18) that houses the simulated digestive tract. The fixing method is not particularly limited, but a method of inserting a metal rod protruding from the inside of the body into a metal rod receiving hole provided in the simulated digestive tract (13) is preferable, and such a method is easily simulated. The digestive tract (13) can be made removable.
Furthermore, it is preferable that the body (18) for housing the simulated gastrointestinal tract is provided with a simulated anus as an entrance for inserting the endoscope into the gastrointestinal tract. In addition, the abdominal surface side of the body (18) that houses the simulated digestive tract is preferably made of a transparent material so that it can be confirmed how far the endoscope has entered. Since the light at the tip of the endoscope can be seen through the simulated gastrointestinal tract (13) by the transparent material, the position of the tip of the endoscope is visually observed from the outside of the simulated gastrointestinal tract (13). Can do. Moreover, it is preferable that the abdominal surface side of the body (18) which accommodates the simulated digestive tract can be opened and closed for replacement of the simulated digestive tract (13) and attachment / detachment of the simulated polyp (5).

The simulated polyp (5) needs to have the same softness as the actual polyp, and is preferably made of a conductive material such as high water content polyvinyl alcohol so that it can be excised with a high frequency knife. The simulated polyp (5) is attached by being inserted into a hole (19) previously formed in the simulated digestive tract (13). Therefore, the simulated polyp (5) has a base (8) and a fixing flange (11) in order to have a structure for sandwiching the digestive tract wall of the simulated digestive tract (13). Since the simulated polyp (5) is made of a soft material, the base (8) on the side that enters the simulated digestive tract can be deformed and placed in the simulated digestive tract. When practicing excision with a high-frequency scalpel, the simulated polyp (5) is pushed out of the simulated gastrointestinal tract (13) so that it does not come off. It is preferable to fix with a band (4) that goes around the digestive tract (13) (see FIG. 2C).
The energizing cable (17) includes a lead wire (2) connecting the simulated polyp capturing electrode (15) and the counter electrode attaching electrode (16). The simulated polyp trapping electrode (15) has a planar ring electrode shape. The counter electrode pasting electrode (16) has a disk-like electrode shape with a diameter of about 40 mm. Lead wire (2) is about 50 cm long. One side of the counter electrode pasting electrode (16) is a side for pasting the counter electrode plate (14) of the high frequency knife, and the other side can be pasted on the back side of the body (18) housing the simulated digestive tract (13). A hook-and-loop fastener is affixed (the hook-and-loop fastener is also affixed to the back of the corresponding body as necessary).

(Practice of high-frequency female treatment practice model)
First, the simulated polyp capture electrode (15) is attached to the simulated polyp (5) (see: FIG. 5), and the simulated polyp (5) is further attached to the hole (19) of the simulated digestive tract (see: FIGS. 2A and B). . Next, the simulated polyp (5) is fixed by the band (4) so as not to be pushed out during the treatment (see FIG. 2C). A counter electrode pasting electrode (16) is pasted on the back surface of the body (18) housing the simulated digestive tract (refer to FIG. 4A), and a counter electrode plate (14) of a high frequency knife is further pasted thereon (FIG. 4B). , C).
Next, the endoscope is inserted into the simulated gastrointestinal tract from the simulated anus. When the inside of the simulated gastrointestinal tract (13) is observed with an endoscope and a simulated polyp (5) is found, a high-frequency knife (loop-shaped snare wire) prepared in the endoscope is used as a stem of the simulated polyp (5). A high frequency current is applied to (7) and the simulated polyp (5) is excised.
The current output from the high frequency knife flows into the high frequency knife main body through the simulated polyp (5), the simulated polyp capturing electrode (15), the energizing cable (17), the counter electrode plate attaching electrode (16), and the counter electrode plate (14). Therefore, the simulated polyp (5) is excised with a high frequency knife.

1: High-frequency female treatment practice model
2: Lead wire 3: Simulated blood 4: Band 5: Simulated polyp 6: Head 7: Stem 8: Base 9: Main body 10: Fixed shaft 11: Fixed flange 12: Simulated blood vessel 13: Simulated gastrointestinal tract 14: Counter electrode Plate 15: Simulated polyp capture electrode
16: Counter electrode pasting electrode 17: Energizing cable 18: Body for housing the simulated digestive tract 19: Hole

Claims (3)

Simulated digestive tract, simulated polyp that can be inserted into one or more holes in the simulated digestive tract and can be opened with a high-frequency knife, simulated polyp capture electrode that can be attached to the simulated polyp, and counter electrode pasting A high-frequency female treatment practice model including an attachment electrode and an energization cable including a lead wire connecting the simulated polyp capturing electrode and the counter electrode attaching electrode.
Furthermore, the high frequency female treatment practice model of Claim 1 containing the body which accommodates the said digestive tract.
  The high-frequency female treatment practice model according to claim 2, wherein the counter electrode pasting electrode is detachable from a body housing the digestive tract.