JP7325732B2 - Puncture practice tool - Google Patents

Description

The present invention relates to a puncture training tool used for practicing puncture with a puncture needle or biopsy needle.

BACKGROUND ART Conventionally, various practice tools imitating the human body have been developed for the purpose of learning medical skills by medical students and the like. In particular, a human body model having a blood vessel simulated by a flexible tube is known as a practice of puncturing with a syringe (see, for example, Patent Document 1). In the case of puncturing a blood vessel, it is possible to reproduce a situation similar to the sensation of puncturing the human body simply by using a material having appropriate flexibility.

JP 2017-161730 A

When performing bone marrow aspiration instead of a blood vessel, it is necessary to puncture the bone marrow, which is denser than the skin and blood vessels, and to penetrate the hard bone cortex before the bone marrow. However, it is necessary to apply a certain amount of force to puncture. Therefore, a training tool was needed to learn this feeling and force adjustment, but there is no general-purpose training tool that can satisfy this purpose, and in general, relatively soft wood, apples, etc. are used as substitutes. It had been.

With relatively soft wood and apples, the resistance produced by the needle when puncturing with a needle or biopsy needle is different from the state of puncturing the bone marrow, and it is possible to judge whether the skill has been acquired correctly. could not.

In view of such circumstances, the present inventors conducted research and development to provide a puncture practice tool that can be used for practicing bone marrow puncture and biopsy, and have completed the present invention.

The puncture training device of the present invention is a puncture training device that is used for practicing puncture with a puncture needle or a biopsy needle and is punctured by the puncture needle or the biopsy needle, comprising a substrate having a predetermined shape, and a surface of the substrate The substrate is made of cork, the coating layer is made of epoxy resin and is a hard resin layer harder than the substrate, and the substrate is made of cork grains with a binder resin The coating layer comprises a compact formed into a predetermined shape by bonding, wherein the cork grains have an average particle size of 1.0 to 5.0 mm, the cork of the substrate has an average density of 200 to 260 Kg/m 3 , and the coating ^layer is 1.0 to 1.6 mm .

Furthermore, the puncture practice device of the present invention also has the following characteristics.
(1) An artificial skin or elastic sheet having a predetermined thickness is attached to the upper surface of the covering layer.
(2) The coating layer shall be made of epoxy putty.
(3) The cork substrate has an average particle diameter of 1.0 to 2.0 mm and an average density of 220 to 240 kg/m ³ .

According to the present invention, the puncture training device is provided with a substrate having a predetermined shape and a coating layer covering the surface of the substrate, and the substrate is made of cork. The resistance generated by the needle during puncture is similar to that of puncturing the bone marrow, and the cork that has been pierced by the outer needle of the biopsy needle can be left in the outer needle. can be judged.

It is a graph of the test result by a puncture press-fit test. It is a graph of the test result by a puncture press-fit test. It is a graph of the test result by a puncture press-fit test. It is a schematic diagram of a puncture practice tool.

The puncture training device of the present invention is a puncture training device used for practicing puncture with a puncture needle or a biopsy needle, and comprises a substrate having a predetermined shape and a coating layer covering the surface of the substrate. In particular, the substrate is made of cork.

By puncturing a cork substrate with a puncture needle or a biopsy needle, a feeling close to the state of actually puncturing the bone marrow can be obtained, and the cork pierced by the outer needle of the biopsy needle is left in the outer needle. be able to. Therefore, by confirming that the cork has been placed in the outer needle, it is possible to judge whether the skill has been correctly acquired.

The substrate is a cork molded body formed into a predetermined shape by bonding cork grains with a binder resin. In particular, it is desirable that the cork grains have an average particle size of 1.0 to 5.0 mm, considering that the cork is left in the outer needle. A plurality of types of cork molded bodies formed using such cork granules having different densities depending on the size of the cork granules are generally distributed. Therefore, 4 types of cork molded bodies were selected from commonly available cork molded bodies, and each cork molded body was used to prepare a cubic cork block of 50 mm × 50 mm × 50 mm. A sensory test was conducted by Here, the four selected cork blocks are characterized by cork grain size and average density as shown in the table below.

The sensory test results are shown in the table below. In particular, the surface of the cork block is provided with a covering layer imitating bone cortex . The coating layer may be a hard layer that is harder than the cork molded body of the substrate, but various materials were used to produce the coating layer so as to obtain a feel closer to bone cortex, and a sensory test was conducted.

As shown in the table above, samples 1 and 2 gave a feeling close to the state of actually puncturing the bone marrow. . Also, in samples 3 and 4, the feeling was harder than when actually puncturing the bone marrow. Also, in Samples 3 and 4, the cork was not left in the outer needle of the biopsy needle in some cases.

As for the material of the coating layer, Cemedine's epoxy putty felt close to penetrating the actual bone cortex . This is because by using Cemedine's epoxy putty, the coating layer becomes a hard resin layer that is harder than the cork molded body that is the substrate, so it is possible to appropriately imitate the hardness of the bone cortex. Conceivable. In addition, when a puncture needle or biopsy needle is used to pierce the covering layer, the covering layer is penetrated by pushing the needle while rotating it. there were. Therefore, we took measures to prevent squeal noise by spraying silicone spray on the surface of the coating layer and applying vinyl acetate adhesive to improve lubricity. 1 to 4 and No. 12), and they were not bothered by some squealing noises, so we concluded that measures to prevent squealing noises were not necessarily necessary.

In Nos. 9 to 11, the cork of Sample 2 is used, but there are differences depending on the coating layer, and the coating layer feels sticky to the puncture needle or biopsy needle (No. 9), and the coating layer feels like it will crack. (No. 10, 11), practicality was not recognized.

In addition, a puncture press-fit test was performed on each cork block. Here, using an Instron tension and compression tester as the test equipment, the biopsy needle was pressed into the cork block with the tip of the biopsy needle in contact with the cork block at a rate of 5 mm/s up to 20 mm, and the load was applied. I took measurements. The results of two measurements are shown in FIG. Here, the cork block was in a state in which no coating layer was provided.

As shown in Fig. 1, samples 1 and 2 had almost the same results, but samples 3 and 4 tended to have a larger load than sample 2, and the results of the sensory test were reproduced. it is conceivable that.

FIG. 2 shows the results of a puncture press-fit test in which a cork block was provided with a coating layer. Here, the puncture press-fit test was performed on cork blocks Nos. 1 to 4 in the above table, and it can be seen that samples 1 and 2 are stable. In FIG. 2, peaks occur near 2 mm and 6 mm, but these peaks are due to the shape of the inspection needle of the tension/compression tester. In other words, the test needle has a sharp point up to 2 mm from the needle tip, a cylindrical shape at a distance of 2 to 5 mm from the needle tip, and an enlarged diameter at a distance of 5 to 6 mm from the needle tip. Therefore, it is considered that the peak is generated by receiving the resistance of the coating layer at the portion with the expanded diameter shape.

Based on the above, the cork block used as the substrate is preferably Sample 1 or Sample 2, preferably Sample 2, and the average density of the substrate is preferably 200 to 260 Kg/m ³ , preferably 220 to 240 Kg/m. ³ is preferred. In addition, when providing a puncture training device assuming elderly people and patients with fragile bone marrow, a softer touch than a cork block of 200 Kg/m ³ is required, and the average density of the substrate is 170. ~240Kg/m ³ is desirable. In consideration of setting the average density of the substrate to 240 Kg/m ³ or less, the grain size of the cork grains is more preferably 2 mm or more. Moreover, the binder resin for bonding the cork grains is not particularly limited, but a binder resin containing a polyurethane resin as a main component is preferable.

The coating layer is desirably made of epoxy, preferably epoxy putty, and epoxy putty (HC-115) manufactured by Cemedine is particularly preferable. Epoxy putty means, for example, a two-liquid reaction curing type paint containing epoxy resin as a main component. When the epoxy putty is cured to form a coating layer, it becomes a hard resin layer that is harder than the cork base. However, the coating layer is not limited to a hard resin layer made of epoxy, and may be made of other materials such as polyester resin, gypsum, calcium carbonate, etc., as long as they can be configured as a hard layer harder than the base made of cork. . Moreover, the coating layer is not limited to the two-component reaction-curing paint, and may be composed of, for example, a one-component moisture-curing paint. Further, as long as the material is suitable for the coating layer, it is not limited to paint, and adhesives and other materials for other purposes may also be used.

Since the sensation of penetrating the coating layer with the biopsy needle differed depending on the thickness of the epoxy putty, the thickness dependence of the epoxy putty was confirmed. That is, the surface of a cubic cork block of 50 mm × 50 mm × 50 mm, which is the cork molding of Sample 2, was coated with epoxy putty with different thicknesses, and a sensory test was performed using a biopsy needle. The results are shown in the table below.

As shown in Table 3, when the thickness of the coating layer was 0.8 mm or less, the bone marrow biopsy needle easily penetrated the coating layer, and the sensation of penetrating the bone cortex was not obtained. was 1.0 mm or more, a sensation close to that of penetrating the bone cortex was obtained. In particular, if the thickness of the coating layer is 1.4 mm or more, it will feel hard, but there are cases of this degree of hardness in actual patients. More realistic practice becomes possible by making different layers for patients with hard bone cortex with a layer thickness of 1.4 to 1.6 mm.

FIG. 3 shows the results of a puncture press-fit test using a tension/compression tester. When the coating layer has a thickness of 0.8 mm or less, no clear peaks were detected near 2 mm and 6 mm, indicating that it is difficult to perceive penetration of the coating layer.

Although the thickness of the coating layer may be 1.6 mm or more, it is difficult to form a coating layer having a uniform thickness, so the thickness of the coating layer is set to 1.0 to 1.6 mm.

As described above, the puncture training device can be made by providing an epoxy coating layer on the surface of a cork base body. Can also be configured.

That is, a support base 10 imitating the buttocks of a human body is produced, an insertion space 11 is formed in the ilium portion of the support base 10, and a puncture practice tool 20 is inserted into the insertion space 11 for use. there is

In the puncture training device 20 in this case, an epoxy coating layer 22 is provided on the surface of a cork base 21, and an artificial skin 23 having a predetermined thickness is adhered to the upper surface of this coating layer 22. As shown in FIG.

The base body 21 has a convex shape that imitates the shape of the ilium on the upper surface side, thereby making it possible to create a more realistic feeling. In some cases, the three-dimensional data of the ilium can be used to process the ilium into a precise shape by CAD/CAM processing.

It is desirable that the artificial skin 23 has appropriate elasticity so that the puncture position can be confirmed by feeling with the fingertip. An appropriate elastic sheet member may be used instead of the artificial skin 23. FIG.

The puncture training device 20 is detachably attached to the insertion space 11 of the support base 10, and is replaced with a new puncture training device 20 when the puncture marks become conspicuous due to frequent use. is used as a replacement part, the puncture training tool 20 can be provided at a low cost. It should be noted that the mode of use of the puncture training device 20 is not limited to the mode described in the above embodiment, and may be changed as appropriate according to demand. For example, instead of the support base 10 imitating the buttocks of the human body, a support base made of foamed resin having a truncated cone shape is prepared, a concave insertion space is provided in the plane of the support base, and the puncture practice device is inserted into this insertion space. You can plug it in and use it.

10 Support base
11 Insertion space
20 Puncture practice device
21 Substrate
22 Coating layer
23 Artificial Skin

Claims (4)

A puncture training device used for practicing puncture with a puncture needle or a biopsy needle, and is punctured by the puncture needle or the biopsy needle,
A base having a predetermined shape and a coating layer covering the surface of the base,
The base is made of cork,
The coating layer is made of epoxy resin and is a hard resin layer harder than the base ,
The substrate comprises a molded body formed into a predetermined shape by bonding cork grains with a binder resin,
The cork grains have an average particle size of 1.0 to 5.0 mm,
The cork of the substrate has an average density of 200 to 260 Kg/m ³ ,
The puncture training device , wherein the coating layer has a thickness of 1.0 to 1.6 mm . 2. The puncture training device according to claim 1, wherein artificial skin or an elastic sheet body having a predetermined thickness is attached to the upper surface of the covering layer. 3. The puncture training device according to claim 1, wherein the coating layer is made of epoxy putty. The puncture training device according to any one of claims 1 to 3, wherein the cork of said substrate has an average particle diameter of 1.0 to 2.0 mm and an average density of 220 to 240 kg/m ³ of cork of said substrate.