KR20150004688A - Mesh for medical having traction improvement structure and mesh insert device and method inserting of mesh for medical - Google Patents

Abstract

A medical mesh and mesh insertion device and a mesh insertion method are disclosed. The medical mesh and mesh inserting device and the mesh inserting method of the present invention are for inserting into a soft tissue of a human body and for lifting the skin, Wherein the soft tissue is inserted into the soft tissue of the human body and is integrated with the soft tissue while filling the through hole; A fixing part consisting of visors in which the thread forming the fused portion located at the longitudinal edge of the fused portion is cut and the ends of the cut pieces are fixed to the soft tissue; And a mesh including at least one auxiliary chamber provided on the fused portion, the protrusion having protrusions formed in one or both directions, wherein the mesh has a predetermined width and height such that the mesh is inserted in the longitudinal direction and moves without interference And a protrusion protruding in the longitudinal direction from the end of the upper surface is formed in a circular arc shape on an upper surface of the body adjacent to the protrusion, And a mesh inserting device in which a fixing hole for pressing the mesh from the skin side of the human body when the body is inserted into the soft tissue of the human body and leaving the mesh and opening the body is formed in the direction of the protrusion, do. According to the present invention, since the medical mesh is composed of the cohesive portion having the through-hole and the auxiliary chamber having the fixing portion and the protrusions formed at the edge of the fused portion with a plurality of spines, the adhesion of the soft tissue through the through- Of course, since the fixed part made of visible is fixed to the soft tissue, a separate structure for fixing the cohesive part is unnecessary, and it is possible to provide an effect that an easy lifting is possible, and a medical mesh having a fixed part made of visible It is possible to stably and accurately insert the medical mesh using the mesh inserting device and to cut and peel the skin in accordance with the width of the body or the size of the body so that bruises or swelling It is possible to provide an effect that can be minimized.

Description

TECHNICAL FIELD [0001] The present invention relates to a medical mesh and a mesh inserting device having a pulling force improving structure,

The present invention relates to a medical mesh, a medical mesh inserting device, and a mesh inserting method having a pulling force improving structure, and more particularly, to a medical mesh inserting method and a mesh inserting method having a pulling force improving structure, The present invention relates to a mesh inserting device and a method of inserting a mesh inserting structure capable of enhancing a pulling force by adding an auxiliary pulling thread to the inside of the mesh and capable of stably and easily inserting such a medical mesh.

Generally, when a person gets older, the more stressful the body becomes, the more aging of the skin becomes. The elasticity of the skin is lowered, and gravity causes wrinkles to occur on a specific part of the face or the entire face, and the breasts and the hips are struck.

Especially with the desire to look younger, and the basic instinct of human being sensitive to the outward face, the tendency to hope that the wrinkles on the face or neck will occur as little as possible is positioned as a strong hope for modern people. A person with a lot of wrinkles on his or her neck may not have a good overall impression and may cause problems in his / her social life. Therefore, various techniques and methods for removing the wrinkles of the face are currently being disclosed.

As such, various kinds of wrinkle removal procedures are performed to remove the wrinkles of the face or neck. There are a variety of wrinkle removal procedures, such as Botox, which injects the drug into the skin to make the swollen portion more resilient, .

However, when injecting a drug such as Botox, since the efficacy is lowered after a certain period of time, it is necessary to continuously administer the drug and the facial muscles become rigid and the facial expression becomes unnatural.

On the other hand, implanted facial elevation, which is made by pulling the wrinkles by plastic surgery, forms a small incision on the face near the wrinkled part, then inserts a hook-shaped thread or mesh thereon, . That is, a portion of the skin is cut in the vicinity of the corrugated portion, and a tube (aptosseal) having a hook formed therein and a tube-shaped insertion tube for inserting the mesh are inserted into the skin, Or a mesh.

Although conventional facial lifts use only a tube and a thread, a part of the skin is cut and a large part is peeled off, so that a scar can be generated. In addition, excessive force is required to pull the thread at the time of operation, And a part of it is pulled incompletely, so that the adhesion of the mesh and the skin tissue is deteriorated and broken, and the procedure is also complicated and difficult.

As a prior art, a mesh for soft tissue reconstruction is disclosed in Korean Patent No. 10-01044731 (Published on June 26, 2011).

The soft tissue repairing mesh has a net shape having a through hole, is formed to have a predetermined length in the longitudinal direction, and has a structure in which the anchor portions for grounding are coupled at both ends. The mesh of such a structure is composed of a smooth curved edge and is inserted into the skin layer by the insertion tube and then fixed.

However, the mesh having such a structure is complicated in structure because the anchor portion is coupled to the elevation, so that it is difficult to manufacture and the manufacturing cost is increased.

In addition, there is a problem that a rod-shaped guide member is separately required to insert the mesh into the skin by using the insertion tube.

Korean Registered Patent No. 10-01044731 (Published on June 28, 2011)

SUMMARY OF THE INVENTION An object of the present invention is to provide a medical mesh capable of being stabilized and floatable on a soft tissue as well as inducing adhesion of a soft tissue.

It is another object of the present invention to provide a means for improving the skin traction of a medical mesh.

It is another object of the present invention to provide a mesh inserting device capable of stably and accurately inserting a medical mesh.

It is still another object of the present invention to provide a method for stably and accurately inserting a medical mesh using a mesh inserting device.

According to the present invention, the above object is achieved by a method for lifting a skin inserted into a soft tissue of a human body, the method comprising the steps of: forming a net having a through hole so that a thread is braided or woven so as to have a flat shape having a predetermined length, A soft tissue inserted into the soft tissue of the soft tissue and integrating with the soft tissue while filling the soft tissue; A fixing part consisting of visors in which the thread forming the fused portion located at the longitudinal edge of the fused portion is cut and the ends of the cut pieces are fixed to the soft tissue; And one or more auxiliary chambers provided on the fused portion with protrusions formed so as to protrude in one direction or both directions.

The visors constituting the fixing portion may be formed such that two pairs of the visors extend in different directions.

The fused portion may have a width of 2 to 12 mm.

When the auxiliary chamber is installed in the "⊃" type or the "┃" type and is provided in the longitudinal direction of the fused portion, the direction of pulling the connection portion connecting the both linear portions is set to " When installed as "┃" type, more than one can be installed.

The auxiliary chamber may be installed or welded while passing through the through holes of the fused portion in the upward and downward directions.

The above object is achieved by a medical device for inserting a medical mesh into a soft tissue of a human body according to the present invention comprising a body of flat shape formed with a receiving hole having a predetermined width and height so that the mesh is inserted in the longitudinal direction without interference, And a protrusion protruding in a longitudinal direction from an end of the upper surface of the body is formed in an arcuate shape on an upper surface of the body adjacent to the protrusion and the body is inserted into the soft tissue of the human body And a fixing hole for pressing the mesh from the skin outside the human body and removing the body while leaving the mesh is formed in the direction of the protrusion when the insertion is made.

A plurality of check holes for confirming the presence or absence of the mesh inserted into the receiving hole or for pressing and fixing the inserted mesh are formed in succession on the upper surface of the body on which the fixing hole is formed, The check hole may be connected to the fixing hole.

A scale for indicating the length may be provided on the upper surface of the body.

A method for inserting a medical mesh into a soft tissue of a human body using a mesh inserting device, the method comprising the steps of: a) inserting a mesh having a predetermined width, thickness, and length into a receiving hole formed in the body of the mesh inserting device, Inserting and inserting the end of the mesh so that the end of the mesh does not deviate from the fixing hole; b) cutting a part of the skin to be inserted into the mesh, cutting the body part by 5 to 10% larger than the width of the body or the width thereof, and pushing the protrusion part to the incised part, Inserting; And c) pressing the skin of the area in which the fixed hole is located from the outside so that the mesh is brought into close contact with the bottom of the receiving hole, or the mesh is fixed to the bottom of the receiving hole with a needle, To the soft tissue of the medical mesh.

In the step a), when the protrusions are formed only in one direction, the protrusions are inserted so as to face the direction opposite to the fixing hole, Quot; shape, the connecting portion may be provided so as to face the opposite direction of the fixing hole.

According to the present invention, the medical mesh is constituted by a cohesive portion having a through hole, a fixing portion formed of a plurality of visors at the edge of the cohesive portion, and an auxiliary chamber additionally provided to the cohesive portion, thereby inducing adhesion of the soft tissue through the through- Since the fixed part made of the viscera is fixed to the soft tissue and the protrusions formed in the auxiliary chamber help the elevation of the tissue, a separate structure for fixing the fixed part is not necessary, It is possible to provide an effect that the collimation effect of the skin can be sustained for a long time.

In addition, it is possible to stably and precisely insert the medical mesh having the fixed portion made of the visible through the mesh insertion self-supporting into the skin.

In addition, since the medical mesh can be stably and accurately inserted using the mesh inserting device according to the present invention, the skin can be cut or peeled in accordance with the width of the body or slightly larger, thereby minimizing bruising and swelling .

In addition, the conventional procedure requires a second operation to open the incised portion back to the hospital after the primary procedure. However, according to the present invention, the spines formed on the edge and the protrusions of the sub- By keeping the tissue until it coalesces into the tissue, it can provide a great effect that ends the procedure on the same day.

1 is a photograph showing a medical mesh according to the present invention.
Figs. 2A and 2B are photographs and drawings showing other embodiments of the medical mesh shown in Fig. 1. Fig.
3A and 3B are perspective views showing a medical mesh inserting apparatus according to the present invention.
4 is a plan view of the medical mesh inserting apparatus shown in Fig.
5 is a sectional view taken along line AA in Fig.
FIGS. 6, 7 and 8 are views for explaining the use process of the mesh inserting apparatus shown in FIG. 3, FIG. 6 is a state in which a mesh is inserted into a medical mesh inserting apparatus, FIG. 8 is a cross-sectional view illustrating a process of fixing a mesh to a soft tissue of a human body using a medical mesh insertion device. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

In the accompanying drawings, FIG. 1 is a photograph showing a medical mesh according to the present invention, and FIGS. 2 a and 2 b are photographs and drawings showing other embodiments of a medical mesh shown in FIG. 1.

The medical mesh 10 according to the present invention has a structure in which the soft tissue of the human body is fixed to the soft tissue while being filled in the through hole 12A and fixed to the soft tissue, 14A and the protrusions 42 of the auxiliary chamber 40 are engaged with the tissue so that the entire soft tissue can be pulled with a uniform force so that the wrinkles and the like can be quickly and stably performed, A fixing part 14 formed to protrude from the edge of the fused portion 12 and fixed to the soft tissue, and a protrusion 42 And an auxiliary chamber provided in the fused portion 12.

This will be described more specifically.

The thread forming the mesh 10 may be formed of polypropylene, poly lactic acid, or the like. Such a material is easy to weave or braid, and has a soft material.

The fused portion 12 is woven or braided in a thread made of such material to form a plurality of through holes 12A, and is formed to have a constant width and thickness. The width of the fused portion 12 is approximately 2 to 12 mm, and the thickness of the fused portion 12 may be approximately 1-3 mm, and the length may be a length that can be used by cutting as required, or a length of 15-30 mm. When the width of the fused portion 12 is less than 2 mm, the fixing force with the soft tissue is decreased. When the fused portion 12 is formed with a width of 12 mm or more, the width of the insertion device 20 will be widened, And the area to be peeled is widened, so that bruises and swelling are severe. That is, recovery is delayed. Therefore, it is preferable that the width of the mesh 10 is 2 to 12 mm.

The fixing portion 14 serves to serve as an anchor for fixing the adhesion portion 12 to the soft tissue stably without moving in the initial state before the fusion portion 12 is inserted into the soft tissue of the human body and is adhered to the soft tissue.

The fixing portion 14 is formed by cutting the seals 12B located at the longitudinal edges of the fused portion 12. That is, when the seals 12B are cut, the cut ends thereof protrude in the form of a bar 14A as shown in Figs. 1 and 2A, 2B. To be more specific, when both sides of the yarn 12B are bundled and the middle portion is rounded, the rounded portion is cut, and the cut ends are opened in different directions. Since the cut ends are widened in different directions, the respective ends are caught by the soft tissue and serve as anchors for fixing the bidirectional movement of the mesh 10.

These visible rays 14A are formed in pairs so as to spread in two different directions, as described above, so that each of the visible rays 14A effectively hits the soft tissues and fixes bi-directional movement.

The auxiliary chamber 40 is formed in such a manner that the fused portion 12 is inserted into the soft tissue of the human body together with the fixed portion 14 so that the fused portion 12 is stably fixed to the soft tissue in the initial state, As shown in FIG. 1, the protrusions 42 protrude in one direction and are installed in the fused portion 12. The projections 42 have a structure in which the projections 42 are inclinedly opened toward the connection portion 46 as shown in Fig. At this time, the protrusions 42 are formed such that a part of the auxiliary chamber 40 is incised and then spread outward to serve as a hook. The protrusions 42 may be formed on only one side of the rectilinear section 44, but may be formed on both sides of the rectilinear section 44 as shown in FIGS. 1, 2A, 2B, or 6, Although not shown in the drawings, may be formed at various places on the outer circumferential surface. The projections 42 having such a structure are intended to increase the pulling force.

Further, the projections 42 are not shown in the drawings, but may be formed in both directions, that is, opposite to each other.

As shown in FIGS. 1, 2A, 2B, 6 and 7, the auxiliary chamber 40 is long in the longitudinal direction of the fused portion 12, that is, in the longitudinal direction of the mesh 10 itself, "⊃" type or "┃" type is installed. Of course, it may be installed in a zigzag manner or various other ways, but in order to generate a robust pulling force, it is preferable to provide a "⊃" type or "┃" type in conformity with the longitudinal direction of the mesh 10.

In the case of the "⊃" type, the connecting portion 46 connecting the both linear portions 44 is provided so as to face the pulling direction, that is, the direction in which the mesh 10 is pulled, At least one of them is installed. At this time, since two or more "┃" -type auxiliary seals 40 are provided, it is a great help to improve pulling force. However, since the width of the fused portion 12 is limited to a maximum of 12 mm, It is preferable that the number is set to correspond to the width of the fused portion 12. Further, it is preferable that the auxiliary chamber 40 is installed so as to face the direction in which the projections 42 are pulled, that is, as shown in FIG. 7, in the opposite direction of insertion.

Meanwhile, the auxiliary chamber 40 is installed while passing through the through holes 12A of the fused portion 12 in the upward and downward directions, as shown in FIG. 1 or FIGS. 22A and 2B. That is, the auxiliary chamber 40 is installed while alternately passing the through holes 12A of the fused portion 12 in the upward and downward directions, such as sewing.

However, the auxiliary chamber 40 may be provided in the fused portion 12 by heat fusion.

When the auxiliary chamber 40 is inserted into the soft tissue of the human body in the state that the mesh 10 composed of the fused portion 12 and the fixed portion 14 is attached to the auxiliary chamber 40, When the position is fixed and the seal has elapsed after the insertion, the soft tissue is adhered to the soft tissue as it is filled in the through hole 12A.

Meanwhile, the inserting device 20 for inserting the above-described mesh 10 into the soft tissue of the human body has a structure in which the mesh 10 having the auxiliary chamber 40 as shown in Figs. 3A, 3B, Shaped body 22 having a receiving hole 22A having a predetermined width and height so as to be inserted and to move without interference. The body 22 has a flat hollow tube shape having a receiving hole 22A and may be made of a metal material or a synthetic resin material which is harmless to the human body and has a width larger than the width of the mesh 10, 22A are formed to be larger than the thickness of the mesh 10. The length is 10 to 30 cm. This length may vary depending on the size of the human body to be performed.

At the end of the bottom surface 23B (surface on which the fixing hole is not formed) of the body 22, a protruding portion 24 protruding further in the longitudinal direction than the end portion of the top surface 23A (surface on which the fixing hole is formed) . The protrusion 24 is for separating between the skin and the soft tissue when the body 22 is inserted through the skin incision. Since the end of the protrusion 24 is formed in an arc shape, unnecessary interference with the soft tissue is prevented, Can be easily inserted.

When the body 22 is inserted into the soft tissue of the human body while the mesh 10 is accommodated in the upper surface 23A of the body 22, the mesh 10 is pressed against the skin outside the human body, A fixing hole 26 for removing the body 22 is formed in the direction of the projection 24. [ The fixing hole 26 may be formed in a circular oval shape or the like, and the size of the fixing hole 26 may be such that a portion of a finger of a practitioner, a needle or the like can be inserted. Preferably, it is satisfactory if the size is such that a sharp instrument such as an injection needle or a needle can be inserted. Also, a part of the fixing hole 26 is opened in the direction of the protrusion 24, and the opening is formed into a curved curve or a straight line. This is to allow the body 22 to be removed without interfering with the soft tissue or the skin layer when the body 22 is removed.

The end of the bottom surface such as the protrusion 22 may protrude from the end opposite to the protrusion 22 longer than the end of the top surface 23A. This is for the practitioner to press and fix the mesh 10 inserted in the accommodation hole 22A to the floor surface.

The upper surface 23A formed with the fixing hole 26 of the body 22 is provided with a check hole 26 for confirming the presence of the mesh 10 inserted into the receiving hole 22A or for pressing and fixing the inserted mesh 10 The check holes 28 may be connected to the fixing holes 26, as shown in FIG. 3B. The check holes 28 may be formed in a single long shape.

A scale 29 for indicating the length may be marked or printed on the upper surface 23A of the body 22.

The mesh inserting apparatus 20 thus configured is inserted into the soft tissue through the skin cutout in a state where the mesh 10 is received in the receiving hole 22A and then the mesh 10 is fixed to the soft tissue, It is for taking out.

The process of inserting the mesh 10 according to the present invention into the soft tissue of the human body using the mesh inserting apparatus 20 according to the present invention will be described.

7 is a view showing a skin cutout portion at a position where a mesh is to be inserted, and FIG. 8 is a view showing a skin cutout portion where a mesh is inserted into a human body using a medical mesh inserting device, In the same manner as in the first embodiment.

6, the mesh 10 having the auxiliary chamber 40 is inserted in the receiving hole 22A of the body 22 in the longitudinal direction so that the end of the mesh 10 is fixed to the fixing hole 26, So that the end portion of the mesh 10 does not protrude more than the projecting portion 24. This is to prevent the mesh 10 from interfering with the soft tissue during the process of inserting the body 22 into the soft tissue of the human body. That is, the mesh 10 is inserted into the human body in a state of being accommodated in the receiving hole 22A.

When the protrusions 42 are formed in only one direction, the protrusions 42 are inserted and installed so as to face the direction opposite to the fixing hole 26 When the auxiliary chamber 40 is installed in a "⊃" shape, the connecting portion 46 is installed so as to face the opposite direction of the fixing hole 26. [

Next, as shown in FIG. 7, a cut portion into which the body 22 is to be inserted is formed in the skin to be used for the mesh 10. At this time, the width of the incision portion is formed to be 10-20% larger than the width of the body 22. If the width of the incision is less than 10% of the width of the body 22, insertion of the body 22 is not easy. If the width of the incision is greater than 20%, the incision becomes unnecessarily large There is a problem. And, the incision should be properly formed to 10-20% of the width of the body 22 so that the incision can advance the seal (treatment) after the procedure and reduce the size of the scar.

On the other hand, the width of the body 22 is determined by the width of the mesh 10 to be inserted and accommodated in the receiving hole 22A.

Then, it is inserted from the projecting portion 24 of the body 22 through the cut-out portion and then pushed. In this process, the projecting portion 24 is inserted while peeling the skin and the soft tissue layer.

When the protruding portion 24 is inserted to the fixed position of the mesh 10, that is, the target region, the skin of the region where the fixing hole 26 is located is punctured with a needle at the outer side (skin outer side) 10 is fixed to the bottom of the receiving hole 22A, and then the body 22 is pulled out in the direction opposite to the insertion direction. At this time, a method of fixing the mesh 10 to the bottom of the receiving hole 22A by pressing the skin of the region where the fixing holes 26 are located with the fingers from outside may be used.

When the needle is pierced from the outer side of the skin as described above, the end of the needle is caught by the mesh 10, and when the body 22 is pulled out in this state, So that only the body 22 is removed without moving.

This process is possible because the fixing hole 26 is opened in the direction of the projection 24.

The mesh 10 inserted into the soft tissues in the above-described process is in a state in which the visibility 14A of the fixing portion 14 provided on both sides of the fused portion 12 and the protrusions 42 of the auxiliary chamber 40, So that the mesh 10 is fixed in a stable state. That is, the fixing portion 14 of the visibility 14A is formed on both sides of the fused portion 12 without the need for a separate angular configuration, and the fused portion 12 is provided with the auxiliary chamber 40 The fixing portions 14 and the protrusions 42 are caught by the soft tissue and the mesh 10 can be stably fixed.

When the seal 10 is inserted after the insertion of the mesh 10, the soft tissue is inserted and filled in the through hole 12A, so that the mesh 10 is more stably attached to the soft tissue. Particularly, since the protrusions 42 are provided in the auxiliary chamber 40 provided in the fused portion 12, the coupling force between the soft tissue and the mesh 10 can be improved even if the mesh 10 is pulled, Can be improved as compared with the mesh in which the auxiliary chamber 40 is not provided.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

10: mesh 12:
12A: through hole 12B: thread
14: fixing part 14A: visible
20: mesh inserting device 22: body
22A: receiving hole 23A: upper surface
23B: bottom surface 24: projection
26: Fixed ball 28: Check ball
29: scale 40: auxiliary chamber
42: projection 44: straight portion
46:

Claims (10)

And is inserted into the soft tissue of the human body to lift the skin,
A fused portion formed in a net shape having a through hole so that the thread is braided or woven so as to have a flat shape having a predetermined length, width, and thickness and inserted into the soft tissue of the human body to integrate the soft tissue into the soft tissue while filling the through hole;
A fixing part consisting of visors in which the thread forming the fused portion located at the longitudinal edge of the fused portion is cut and the ends of the cut pieces are fixed to the soft tissue; And
And one or more auxiliary chambers provided on the fused portion with protrusions protruding in one direction or both directions.
Medical mesh. The method according to claim 1,
The thorns constituting the fixing portion are,
And two pairs are formed so as to flare in different directions.
Medical mesh. The method according to claim 1,
Characterized in that the coalescing part is formed with a width of 2 - 12 mm.
Medical mesh. The method according to claim 1,
The sub-
And a long side of the fused portion in the longitudinal direction,
"⊃" type or "┃" type,
In the case of the "⊃" type, the connecting portion connecting the straight portions of both sides is installed so as to face the pulling direction,
Characterized in that at least one of them is installed in a "
Medical mesh. 5. The method of claim 4,
The sub-
And the through holes are provided while passing through the through holes of the fused portion in the upward and downward directions.
Medical mesh. An apparatus for inserting a medical mesh according to any one of claims 1 to 5 into a soft tissue of a human body,
Shaped body having a receiving hole having a predetermined width and height to allow the mesh to be inserted in the longitudinal direction without interference,
A protrusion protruding further in the longitudinal direction than an end of the upper surface is formed in an arc shape on the bottom end of the body,
The upper surface of the body adjacent to the protruding portion may be formed in a shape such that when the body is inserted into the soft tissue of the human body in a state in which the mesh is accommodated, a fixing hole for pressing the mesh from the skin toward the outside of the human body, Is formed with an opening
Medical mesh insertion device. The method according to claim 6,
On the upper surface of the body on which the fixing hole is formed,
A plurality of check holes for confirming the presence or absence of the mesh inserted into the receiving hole or for pressing and fixing the inserted mesh are formed successively,
Wherein the check hole is connected to the fixing hole.
Medical mesh insertion device. The method according to claim 6,
And a scale for indicating the length is provided on the upper surface of the body.
Medical mesh insertion device. A method for inserting a medical mesh into a soft tissue of a human body using the mesh inserting device according to claim 7,
a) inserting a mesh having a predetermined width, thickness and length and provided with at least one auxiliary chamber in a receiving hole formed in the body of the mesh inserting device, inserting the end of the mesh so as not to come out of the fixing hole, ;
b) cutting a part of the skin to be inserted into the mesh, cutting the body part by 5 to 10% larger than the width of the body or the width thereof, and pushing the protrusion part to the incised part, Inserting; And
c) pressing the skin of the region where the fixed hole is located from the outside so that the mesh is brought into close contact with the bottom of the receiving hole, or the mesh is fixed to the bottom of the receiving hole with the needle, and then the body is taken out, Comprising the steps of:
Medical mesh insertion method. 10. The method of claim 9,
The step a)
Wherein the auxiliary chamber is inserted in a fixed hole direction,
When the protrusions are formed only in one direction, the protrusions are inserted and installed so as to face the direction opposite to the fixed hole,
And when the auxiliary chamber is installed in a "⊃" shape, the connecting portion is disposed so as to face the opposite direction of the fixing hole.
Medical mesh insertion method.

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