KR20150001248U - silicon implant of mesh type - Google Patents

Abstract

The object of the present invention is to provide a silicone implant which is related to medical and cosmetic surgery and its purpose is to provide a silicone implant to prevent the implantation of the implant and the dislocation of the implant even when inserted into the periosteum, .
The mesh silicon implant of this invention is inserted into the human body due to the uniformly distributed through holes, and the human tissue is proliferated in the hole. First, the nutrient passage is formed to ensure the nutrition supply of the skeletal portion in contact with the implant. It forms a structure to support the implant, so that the implant and the human body are firmly and integrally fused to prevent settlement and separation after insertion of the implant.

Description

[0001] Silicon implant of mesh type [0002]

The present invention relates to silicone implants used in medical and cosmetic applications.

The present invention relates to silicone implants used in medical and cosmetic applications, and more particularly, to silicone implants used in medical and cosmetic applications, and more particularly to a silicone implant having a through hole formed at a predetermined distance in the implant, Lt; / RTI > implant.

Silicone is widely used as a medical cosmetic implant because of its superior physical and chemical properties.

However, due to the lack of structural and contour design, there are many insufficient parts of silicon implant in practical application.

1. Settlement phenomenon: If a silicone implant (IMPLANT) is inserted into the body and surrounded by soft tissues, no problem occurs. However, as it is inserted into the periosteum, it contacts with the hard tibia and comes into contact with the tibia. According to researchers' research, sinking phenomenon occurred from 2 months after surgery and implants were found to sink. It is a phenomenon in which implants (IMPLANT) invade into the bone as a warm coin melts on ice. This settling phenomenon varies depending on the material, and any implant can not be an exception to the settling phenomenon. This settling phenomenon is not limited to the tibia but also occurs on the skin side, which is related to the volume of the implant, volume of the skin, thinning, ulceration and perforation. The problem of the skin is more visible than the tibia. In order to solve the problem, the surgeon tried to solve the problem by transplanting the cartilage but the cartilage absorption phenomenon can not be solved. In fact, more invisible tibial settling results in more severe mood swings resulting in impaired function of the nasal cavity due to narrowing of the nasal cavity and loss of the septum.

2. Implants easily detachable: Implants with smooth surface are displaced even with a slight external impact due to the absence of a rigid fixation device after insertion into the human body, resulting in an appearance of an unnatural appearance.

3. Cartilage compression: Implants that are inserted into the body due to gravity and skin tension cause compression on the cartilage, and the cartilage develops a clear deformation over time, After that, it appears clearly in the nasal cartilage.

4. IMPLANT Bone margins: IMPLANT-shaped bony lines are formed by the gap between the raised area and the normal area due to the inserted implant (IMPLANT). As a result, it seems to be damaged by naturalness and has a serious effect on aesthetics.

5. The soft touch is not smooth: the integral nasal implant (IMPLANT) is not as flexible as the human tissue due to the limitation of the physical properties of the material and the requirement of constant support strength, .

Korean Patent No. 10-11758220000

As described above, the mesh silicone implant of the present invention forms a plurality of through holes to solve the problems of conventional silicon implants, such as sinking phenomenon and easy release of the implants in the human body and compression of cartilage.

The silicone implant according to the present invention is intended to solve the problems of the conventional implant as described above. In the silicone implant, the silicone implant has a through hole formed at a predetermined interval. There is a main purpose in.

Also, a cross-sectional surface of the implant is characterized by a saddle-shaped saddle, and the outer periphery is formed with a saw-tooth shape.

The mesh silicone implant according to the present invention has the following effects.

First, the mesh-type silicone implant is uniformly penetrated through the through-holes, and the tissue enters the hole, becomes a channel for the nutritional transport, and can sufficiently replenish the nutrition of the skeleton in contact with the implant. On the other side, And the implant and the human body are firmly connected to each other so that the settlement phenomenon and the deviation phenomenon are avoided after the implant is inserted.

Since the sagittal implant is formed as a saddle shape and surrounds the cartilage, the pressure on the cartilage is greatly reduced. At the same time, the safety of the implant is increased, and there is no easy deviation.

In addition, the outer periphery of the cricothyrostomy can be treated in the form of a saw blade, so that the fringe of the implant and the relatively thin portion of the skin can be avoided from forming a tendon, thereby leaving no sign of surgery and providing naturalness. So that it can be mounted.

1 is a cross-sectional view of a mesh silicone implant according to the present invention,
Figure 2 is an AA sectional view of the maxillary < RTI ID = 0.0 >
Figure 3 is a cross-sectional view taken along line BB of the maxillary < RTI ID = 0.0 >
Figure 4 is a cross-sectional view of a mesh silicone implant
Figure 5 is a cross-sectional view of the jaw implant CC of Figure 4
Figure 6 is a front view of the nose tip of a mesh silicone implant according to the present invention,
Figure 7 is a top view of the implant of Figure 6;
8 is a cross-sectional view of a mesh silicon implant according to the present invention used in the nasal passages
9 is a top view of the nasal implant of FIG.
10 is a cross-sectional view taken along line DD of Fig. 9

The object of the present invention is to provide a silicone implant which is related to medical and cosmetic use and its purpose is to provide a silicone implant to prevent the sinking phenomenon or separation of the implant even when inserted into the periosteum, .

Hereinafter, a mesh silicon implant according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view taken along the line AA of FIG. 1, FIG. 3 is a cross-sectional view taken along the line BB of the maxillary implant of FIG. 1, and FIG. 4 is a cross- 6 is a frontal view of the tip of a nasal silicone implant according to the present invention used in the nose, Fig. 7 is a plan view of the implant of Fig. 6, Fig. 8 is a cross- Fig. 9 is a plan view of the rib structure of Fig. 8, and Fig. 10 is a cross-sectional view taken along line DD of Fig.

The goal of the new mesh silicon implant is realized as follows.

A plurality of through holes (4) are uniformly distributed on the surface of the silicon implant (1) to form a net shape.

The spacing distance of the through holes 4 is preferably 1-10 mm, more preferably 5 mm. The diameter of the through hole 4 is 1-4 mm, and the most preferable diameter is 2 mm.

The above-described mesh-type silicone implant 1 refers to an implant that can be inserted into other parts but is mainly inserted into a nose, a noble, or a jaw directly contacting with the skeleton.

When the new nasal implants 1 are nasal implants, they are separated and divided into two parts, the nasal tip 31 and the nasal bridge 32. As a result, the two small nasal implants (31, 32) can move relative to each other within a certain range as compared with the conventional implant, and imitate the flexibility of the human body to the maximum extent.

10, the cross-section of the nasal implants 32 is formed in a saddle-like shape so as to wrap the cartilage beneath the nasal implants 31 and 32, thereby greatly reducing the pressure on the cartilage, and at the same time, Increases the safety of implant placement and does not result in easy removal.

The outer periphery of the nasal prosthesis 32 is treated with a saw blade 321 so that the marginal portion of the peripheral portion of the implant 32 and the relatively thin portion of the skin can be avoided so that no sign of surgery is left and a remarkable effect And at the same time has a practical value that the implant 32 can be mounted more firmly.

The new mesh implant (1) has the following advantages when compared with existing implants using the above described technique.

The new mesh silicone implant (1) is uniformly penetrated through the through-holes (4) and the tissue enters the hole and becomes a passage for nutritional transport, which can sufficiently replenish the nutrition of the skeleton in contact with the implant. It is possible to form a frame for supporting the implant 1, so that the implant 1 and the human body are firmly connected to each other to avoid settlement and dislocation after insertion of the implant.

The following describes in detail a preferred embodiment of such a mesh silicon implant as described above.

The mesh silicon implants shown in Figs. 1 to 3 represent maxillary (noble) implants. The spacing of the through holes 4 uniformly distributed in the implant 1 is 1-10 mm, the optimum spacing is 5 mm, the diameter of the through hole 4 is 1-4 mm, and the most appropriate diameter is 2 mm. After the implant 1 is inserted into the human body, the tissue enters the through-hole 4 and becomes a channel for nutritional transport, thereby sufficiently supplementing the nutrients of the skeleton in contact with the implant 1. On the other hand, 1) can be formed, so that the implant 1 and the body tissue are made into a solid body so that the settlement phenomenon and the separation phenomenon are avoided after the implant 1 is inserted.

The mesh silicon implants shown in Figs. 4 to 5 are jaw implants (2). The distance between the through holes 4 uniformly distributed in the jaw implants 2 is 1-10 mm, the optimum distance is 5 mm, the diameter of the through holes is 1-4 mm, and the most appropriate diameter is 2 mm. After the jaw implants 2 are inserted into the human body, the tissues can enter the through holes 4 and become a passage for nutritional transport, thereby sufficiently supplementing the nutrients in contact with the jaw implants 2. On the other hand, It is possible to form a frame for supporting the jaw implant 2, so that the jaw implant 2 and the human body are formed of the same solid body to avoid the settlement phenomenon and the deviation phenomenon after insertion of the jaw implant 2.

Next, the mesh silicon implants shown in Figs. 6 to 10 are nasal implants 31, 32 that form the nasal implants 31 and the nasal implants 32. The spacing of the through-holes 4 uniformly distributed in the nasal implants 31 and the nasal implants 32 is 1-10 mm, and the most appropriate spacing is 5 mm. The diameter of the through hole 4 is 1-4 mm, and the most appropriate diameter is 2 mm. After the nasal implants 31 and 32 are inserted into the human body, the tissue enters the through hole 4 and becomes a passage for nutritional transport, thereby sufficiently supplementing the nutrients of the nasal bone contacted with the nasal implants 31 and 32, 32 can be formed in the same plane so that the nasal implants 31, 32 and the human body are firmly in the same shape, so that the nasal implants 31, do.

As shown in FIG. 10, the cross-sectional surface of the nasal prosthesis 32 has a saddle-like shape, which surrounds the cartilage beneath the crotch 32, thereby greatly reducing the pressure on the cartilage and increasing the safety of the implant. And it does not easily escape.

The outer peripheral edge portion 321 of the nose 32 is treated in the form of a saw blade to avoid the formation of a fringe on the fringe of the implant 32 and a relatively thin portion of the skin so that there is no sign of surgery and naturalness can be produced At the same time, the implant can be more firmly mounted.

Although the nasal implants according to the present invention are described based on the relatively suitable site of insertion, the scope of use is not limited to the above site. It can also be used for other adaptable sites.

1: implant 2: jaw implant
31: Nasal implants 32: Nasal implants
4: Through hole

Claims (6)

In silicone implants,
Wherein the silicon implant has through holes formed at regular intervals.
The method according to claim 1,
Wherein a distance between the through holes is 1 to 10 mm.
The method according to claim 1,
And the diameter of the through hole is 1 to 4 mm.
The method according to claim 1,
Wherein the cross-section of the implant is a saddle-type implant.
The method according to claim 1,
Wherein the outer periphery of the implant is formed in a saw tooth shape.
The method according to claim 1,
Wherein the implant is inserted into a nose, an ear or a jaw part, and inserted into the nasal bridge and the nose tip separately when inserted into the nose area.

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