KR20190132014A - Multi purpose soft artificial capsular bag for intraocular lens and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a multi-purpose soft artificial capsular bag allowing an artificial lens to be seated in an inner space between a front thin-film structure (100) and a rear thin-film structure (200) made of a soft material. More specifically, the multi-purpose soft artificial capsular bag comprises: a front thin-film structure (100) including a front slit (110) on one side thereof; and a rear thin-film structure (200) interposed below the front thin-film structure (100) and including a back slit (210) on one side thereof, wherein the diameter of the back slit (210) is smaller than that of the front slit (110), edges (300) of the front thin-film structure (100) and the rear thin-film structure (200) are combined with each other, and rod holes (310) are formed in the edges (300).

Description

Multipurpose soft intraocular lens bag and its manufacturing method {MULTI PURPOSE SOFT ARTIFICIAL CAPSULAR BAG FOR INTRAOCULAR LENS AND MANUFACTURING METHOD THEREOF}

The present invention relates to soft artificial capsular bag. More specifically, it relates to an intraocular lens bag used in an amorphous lens or an iris.

As a method for treating ophthalmic diseases such as cataracts, the lens contents inside the capsular sac are removed, and an intraocular lens, which is an artificially manufactured intraocular lens, is inserted into the space. Surgery is being performed a lot.

Although the intraocular lens has various advantages, the intraocular lens may be deformed or departed from a fixed position after time, and there is a problem that surgery for correcting the intraocular lens is required.

Aphakia (aphakia, 無水 晶體) is also known as aphakia, means a state in which the lens was extracted by cataract surgery (摘 出). In the case of an amorphous lens, in most cases, it is difficult to obtain normal visual acuity unless an intraocular lens is inserted.

On the other hand, aniris (Aniridia) is a disease characterized by the inability to form the iris normally, is a congenital disease accompanied by abnormalities of the entire eye as well as the iris. There have not been many attempts to treat these airises with intraocular lenses.

(Document 1) Korean Patent Publication No. 10-1090840 (2011.12.01)

The multipurpose soft intraocular lens bag and its preparation method according to the present invention have the following problems.

First, I do not want to sewing directly on the intraocular lens.

Second, we intend to manufacture an intraocular lens bag containing the intraocular lens so that it can be easily used in the lens.

Third, to prepare to be applicable to airis-iris.

Fourth, the manufacturing process will be designed very simply.

The problem of the present invention is not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

Multipurpose soft intraocular lens bag according to the present invention is a front thin film structure formed with a front incision hole on one side; And a rear thin film structure overlapping the front thin film structure, the rear thin film structure having a rear cutting hole formed on one side thereof, the diameter of the rear cutting hole being smaller than the front cutting hole, and the edge of the front thin film structure and the rear thin film structure being It is coupled, the sewing hole is formed on the edge, characterized in that the artificial insemination body is seated in the inner space between the front thin film structure and the rear thin film structure provided with a flexible material.

In the present invention, the rear incision hole is disposed inside the front incision hole may be in communication with each other.

In the present invention, both the front thin film structure and the rear thin film structure may be provided with a transparent material.

In the present invention, the front thin film structure is provided with a transparent material, the rear thin film structure may be provided with a translucent material.

In the present invention, the translucent material may have a colored or achromatic color.

In the present invention, the rod formed in the rim may be provided at positions facing each other.

In the present invention, the bonding method of the edge may be any one of a thermal fusion bonding method or an ultrasonic fusion bonding method.

Method of manufacturing a multi-purpose flexible intraocular lens bag according to the present invention A1 step of forming a front incision hole on one side of the front thin film structure, the rear incision hole having a diameter smaller than the diameter of the front incision hole on one side of the rear thin film structure ; A2 step of seating the rear thin film structure on the work table, and seating the front thin film structure on the rear thin film structure, the rear incision hole and the front incision hole to communicate; The front thin film structure and the rear of the thin film structure may include an A3 step of being coupled by the coupling device in a state in which the edge overlap.

Method for producing a multi-purpose soft intraocular lens bag according to the present invention comprises the step of forming a front incision hole on one side of the front thin film structure, the rear thin film structure is provided without cutting; A step B2 of seating the front thin film structure on a work table and mounting the rear thin film structure on a front thin film structure; A step B3 on one side of the rear thin film structure, having a diameter smaller than the diameter of the front incision hole and forming a rear incision hole so that the front incision hole communicates; The front thin film structure and the rear thin film structure may include a step B4 coupled by the coupling device in a state in which each edge overlaps.

Method for producing a multi-purpose soft intraocular lens bag according to the present invention in step A3 or step B4, the coupling device may be any one of a thermal fusion bonding method or ultrasonic fusion bonding method.

In the present invention, the coupling device may be provided with a compression heating portion disposed on the thin film structure placed on the upper side.

In the present invention, the pressing heating portion may be provided with a cutting edge.

In the step B3 according to the present invention, the cutting hole may be provided on the upper side of the work table.

In the present invention, both the front thin film structure and the rear thin film structure may be provided with a transparent material.

In the present invention, the front thin film structure is provided with a transparent material, the rear thin film structure may be provided with a translucent material.

In the present invention, the translucent material may have a colored or achromatic color.

The multipurpose soft intraocular lens capsule and its preparation method according to the present invention have the following effects.

First, the intraocular lens is inserted into and placed in the form of a bag (bag), and there is an effect of fixing the intraocular lens without sewing directly on the intraocular lens (intraocular lens) by sewing on the intraocular lens.

Second, the opacity function is provided by imparting translucency or color to the rear thin film structure.

Third, since the two thin plates to combine the rim with perforation and thermal bonding, there is an effect that can be manufactured very simply.

The effects of the present invention are not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a front cross-sectional view of an embodiment of an intraocular lens containing a transparent material as a first embodiment of the multi-purpose flexible intraocular lens of the present invention, both the front thin film structure and the rear thin film structure.
2 is a second embodiment of the multipurpose soft artificial lens capsule according to the present invention, the front thin film structure 100 is provided with a transparent material, the rear thin film structure 200 is a front cross-sectional view of an embodiment provided with a translucent material Indicates.
Figure 3 is a third embodiment of the multipurpose soft artificial lens capsule according to the present invention, the front thin film structure 100 is provided with a transparent material, the rear thin film structure 200 of the embodiment having a translucent material colored or achromatic Forward cross section is shown.
4 is a plan view of the first embodiment according to FIG. 1.
FIG. 5 is a plan view of a second embodiment according to FIG. 2.
FIG. 6 is a plan view of a third embodiment according to FIG. 3.
7 and 8 are bottom views of the third embodiment according to FIG. 3.
9 to 12 show a first embodiment of the method of manufacturing an intraocular lens myocardium according to the present invention.
13 to 16 show a second embodiment of the method of manufacturing an intraocular lens myocardium according to the present invention.
17 shows a position where the intraocular lens, the intraocular lens, is placed in the intraocular lens.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art can easily understand, the embodiments described below may be modified in various forms without departing from the concept and scope of the present invention. Where possible, the same or similar parts are represented using the same reference numerals in the drawings.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms “a,” “an,” and “the” include plural forms as well, unless the phrases clearly indicate the opposite.

As used herein, the meaning of "comprising" embodies a particular characteristic, region, integer, step, operation, element and / or component, and other specific characteristics, region, integer, step, operation, element, component and / or It does not exclude the presence or addition of groups.

All terms including technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. Terms defined in advance are additionally interpreted to have a meaning consistent with the related technical literature and the presently disclosed contents, and are not interpreted in an ideal or very formal sense unless defined.

FIG. 17 shows a position where an intraocular lens (INTRAOCULAR LENS) is seated in an intraarticular capsular bag (ARTIFICIAL CAPSULAR BAG). The intraocular lens of FIG. 17 shows an example, and the present invention relates to an intraocular lens bag in which an intraocular lens of various shapes and structures can be mounted, that is, an intraocular lens bag. 17 may be referred to the relationship between the position and the front and rear direction of the intraocular lens myocardium according to the present invention.

In the present invention, the front face means a portion lying on the outside of the eyeball, and the rear face means a part lying on the inside of the eyeball. 1 to 3, the upper side means the front side, and the lower side means the rear side. That is, the present invention is a guide iris rear insertion method.

Hereinafter, the present invention will be described with reference to the drawings.

The present invention is a multi-purpose soft artificial lens bag, having a front thin film structure 100 and a rear thin film structure 200 provided with a soft material, it is possible to be placed in the inner space between the intraocular lens,

The front thin film structure 100 and the rear thin film structure 200 according to the present invention are preferably provided with a ductility material. A soft material is suitable for the ease of insertion of the intraocular lens into the interspace 11 and for the folding and insertion of the intraocular lens in the eye during surgery. In addition, it may also correspond to easy bonding by heat fusion.

In addition, since the material is inserted into the eyeball, it is preferably provided with a material harmless to the human body. Accordingly, a flexible silicone material or acrylic material may be adopted.

The front thin film structure 100 according to the present invention is formed with a front incision hole 110 on one side. Preferably, it will be formed in the center, but the formation position is not necessarily limited to the center.

The rear thin film structure 200 according to the present invention is disposed overlapping the lower side of the front thin film structure 100, and the rear incision hole 210 is formed on one side thereof. This is also preferably formed in the center, but the formation position is not necessarily limited to the center.

In the present invention, it is preferable that the diameter of the rear incision hole 210 is smaller than the front incision hole 110. In the present invention, the rear incision hole 210 is disposed inside the front incision hole 110 is preferably provided to communicate with each other. That is, it is preferable that the rear incision hole 210 having a smaller diameter is disposed inside the front incision hole 110 having a larger diameter.

A soft intraocular lens is inserted through the front incision hole 110 to be positioned in the intraocular lens. The rear incision hole 210 serves as a window for securing transparency of the center of the intraocular lens. The presence of the rear incision hole 210 is essential in order to accurately secure the power of the intraocular lens that determines the refractive state of the eye after surgery, and according to the size, the effect of vision improvement can be expected when used in the airis.

As such, the front incision hole 110 serves to easily insert a soft artificial lens, but the rear incision hole 210 is sufficient to serve as a window, so that the rear incision hole 110 is rear than the diameter of the front incision hole 110. It is preferable that the diameter of the cutting hole 210 is smaller.

In the case of the front incision hole 110, a diameter of 5 to 5.5 mm is generally required for soft intraocular lens insertion and stable positioning. In order to prevent detachment of the intraocular lens and expect vision correction effect, the back incision hole generally needs a diameter of up to 3mm.

The edge 300 of the front thin film structure 100 and the rear thin film structure 200 according to the present invention may be coupled, and a sewing hole 310 may be formed on the edge 300.

In the present invention, the rod hole 310 formed in the edge 300 may be provided at positions facing each other.

On the other hand, in the present invention, the sewing hole to be fixed in the eye is formed in the intraocular lens bag into which the intraocular lens is inserted, not the intraocular lens itself. Therefore, even if the sewing hole is damaged, it is a structure that replaces the intraocular lens instead of the intraocular lens.

The intraocular lens bag according to the present invention is provided in the form of a bag surrounding the intraocular lens. Such, the material of the intraocular lens can be various embodiments.

As a first embodiment, both the front thin film structure 100 and the rear thin film structure 200 may be provided with a transparent material. 1 and 4 show a first embodiment.

As a second embodiment, the front thin film structure 100 may be provided with a transparent material, and the rear thin film structure 200 may be provided with a translucent material. 2 and 5 show a second embodiment. On the other hand, Figure 5 is a plan view of the embodiment according to Figure 2, since the front thin film structure 100 is transparent in FIG. 5, in fact, the translucent rear thin film structure will be visible, but translucent to facilitate the separation of both thin film structures Not shown. Only the visible part is shaded to show translucency.

The third embodiment is an embodiment related to the second embodiment, and represents an embodiment in which the translucent material of the second embodiment is provided with colored or achromatic colors.

The translucent portion of the second embodiment and the chromatic or achromatic portion of the third embodiment are portions that can replace the iris. Thus, these embodiments would be applicable to angina patients.

In the present invention, the coupling method of the rim 300 can be applied to a variety of known coupling methods, of course, because it is to combine the sheets (sheet) of a flexible material, in particular heat fusion bonding method or ultrasonic fusion bonding method Which one is more preferable.

Hereinafter, a method for manufacturing a multipurpose soft intraocular lens. The description overlapping with the above-mentioned intraocular lens capsule will be omitted, and the explanation will be given based on the differentiated contents.

The first embodiment of the manufacturing method is divided into steps A1 to A3. 9 to 12 show a first embodiment of the method of manufacturing an intraocular lens myocardium according to the present invention.

In the step A1 according to the present embodiment, the front cutting hole 110 is formed in the front thin film structure 100, and the rear thin film structure 200 has a rear cutting hole having a diameter smaller than that of the front cutting hole 110. 210 is formed (see FIG. 10).

In the step A2 according to the present embodiment, the rear thin film structure 200 is seated on the work table 440, and the rear cut hole 210 and the front cut hole 110 communicate with each other on the rear thin film structure 200. A step of mounting the thin film structure 100 (see FIGS. 10 and 11).

Step A3 according to the present embodiment is a step in which the edges 300 of the front thin film structure 100 and the rear thin film structure 200 are coupled by the coupling device 400 in a state where they overlap.

Fig. 12 shows the intraocular lens capsule prepared according to the first embodiment.

In the first embodiment, steps A1, A2 and A3 are performed in a temporal order.

The second embodiment of the manufacturing method is divided into B1 to B4 steps. 13 to 16 show a second embodiment of the method of manufacturing an intraocular lens myocardium according to the present invention.

Step B1 according to the present exemplary embodiment is a step of forming the front cutout hole 110 on one side of the front thin film structure 100 and preparing the back thin film structure 200 without cutting it (see FIG. 11).

In the step B2 according to the present embodiment, the front thin film structure 200 is seated on the work table 440 and the rear thin film structure 200 is seated on the front thin film structure 100 (see FIGS. 14 and 15). ).

Step B3 according to the present embodiment has a diameter smaller than the diameter of the front incision hole 110 on one side of the rear thin film structure 200, and forms the rear incision hole 110 so that the front incision hole 110 communicates. This is a step (see Fig. 15).

Step B4 according to the present exemplary embodiment is a step in which the edges 300 of the front thin film structure 100 and the rear thin film structure 200 are coupled by the coupling device 400 (see FIG. 15).

Fig. 16 shows the intraocular lens capsule prepared according to the second embodiment. The intraocular lens myocardium according to the second embodiment is the same result as the intraocular lens myocardium according to the first embodiment.

In the second embodiment, steps B1 and B2 are performed in a temporal order. However, step B3 and step B4 may be performed sequentially or may be performed simultaneously. Furthermore, it is also possible to proceed to step B3 after the step B4.

In step A3 or step B4, the coupling device 400 according to the present invention is preferably one of a thermal fusion bonding method or an ultrasonic fusion bonding method.

Coupling device 400 according to the present invention, as shown in Figure 11 and 15, may be provided with a pressing heating unit 410 disposed on the thin film structure placed on the upper side. The compression heating unit 410 may be further provided with a corresponding heating unit 410a at opposite positions below the work table 440 according to a bonding method such as heat fusion.

The compression heating unit 410 according to the present invention, as shown in Figure 11 and 15, may be provided with a cutting edge 430.

In operation B3, the cutting hole cutting part 430 may be provided at an upper side of the work table 440. In the present invention, each cutting hole may be formed as a cutting hole cutting portion provided with a circular punch (punch) or the like. In addition, the sewing hole 310 may also be formed of a punch having a different diameter.

The technical configuration related to the transparent, translucent, chromatic and achromatic colors of the front thin film structure 100 and the rear thin film structure 200 is as described above.

The embodiments described in the present specification and the accompanying drawings are merely illustrative of some of the technical ideas included in the present invention. Therefore, since the embodiments disclosed herein are not intended to limit the technical spirit of the present invention but to explain, it is obvious that the scope of the technical spirit of the present invention is not limited by these embodiments. Modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical spirit included in the specification and drawings of the present invention should be construed as being included in the scope of the present invention.

11: interior space
100: front thin film structure 110: front incision hole
200: rear thin film structure 210: rear incision hole
300: 310 border: sewing work
400: coupling device 410: compression heating unit
420: cutting edge 430: cutting hole cutting
440: workbench

Claims (16)

A front thin film structure in which a front cutting hole is formed at one side; And
It is disposed on the lower side of the front thin film structure, and includes a rear thin film structure formed with a rear incision hole on one side,
The diameter of the rear incision hole is smaller than the front incision hole,
The edges of the front thin film structure and the rear thin film structure are coupled, and a sewing hole is formed on the edge.
A multipurpose flexible intraocular lens bag, characterized in that the artificial lens is placed in the inner space between the front thin film structure and the rear thin film structure provided with a flexible material. The method according to claim 1,
Multipurpose soft intraocular lens bag characterized in that the rear incision hole is disposed in the interior of the front incision hole and communicate with each other. The method according to claim 1,
The front thin film structure and the rear thin film structure, both versatile soft intraocular lens bag characterized in that provided with a transparent material. The method according to claim 1,
The front thin film structure is provided with a transparent material,
The rear thin film structure is a versatile soft intraocular lens bag, characterized in that provided with a translucent material. The method according to claim 4,
The translucent material is a multipurpose soft intraocular lens bag characterized in that it has a colored or achromatic color. The method according to claim 1,
Multi-purpose soft intraocular lens bag, characterized in that the sewing hole formed in the rim is provided at positions facing each other. The method according to claim 1,
Multi-use soft intraocular lens bag characterized in that the coupling method of the edge is any one of a thermal fusion bonding method or ultrasonic fusion bonding method. A1 step of forming a front incision hole on one side of the front thin film structure, and forming a rear incision hole having a diameter smaller than the diameter of the front incision hole on one side of the rear thin film structure;
A2 step of seating the rear thin film structure on the work table, and seating the front thin film structure on the rear thin film structure, the rear incision hole and the front incision hole to communicate;
And a step A3 coupled by a coupling device in a state where each of the front thin film structures and the rear thin film structures have overlapping edges. Forming a front cutout hole on one side of the front thin film structure, and the rear thin film structure is provided without cutting;
A step B2 of seating the front thin film structure on a work table and mounting the rear thin film structure on a front thin film structure;
A step B3 on one side of the rear thin film structure, having a diameter smaller than the diameter of the front incision hole and forming a rear incision hole so that the front incision hole communicates;
And a step B4 coupled by a coupling device in a state where each of the front thin film structure and the rear thin film structure have overlapping edges. The method according to claim 8 or 9,
In step A3 or step B4, the coupling device is a method of manufacturing a multipurpose soft intraocular lens, characterized in that any one of a thermal fusion bonding method or ultrasonic fusion bonding method. The method according to claim 10,
The coupling device is a manufacturing method of the multipurpose soft intraocular lens bag characterized in that the compression heating portion disposed on the thin film structure placed on the upper side. The method according to claim 11,
The pressurized heating unit is a method of manufacturing a multi-purpose soft artificial lens capsule characterized in that the cutting edge is provided. The method according to claim 9,
In step B3, the manufacturing method of the multi-purpose soft intraocular lens bag characterized in that the cutting hole is provided on the upper side of the work table. The method according to claim 8 or 9,
The front thin film structure and the rear thin film structure is a method of manufacturing a multi-purpose soft intraocular lens bag, characterized in that provided with a transparent material. The method according to claim 8 or 9,
The front thin film structure is provided with a transparent material,
The rear thin film structure is a method of manufacturing a multipurpose soft intraocular lens bag, characterized in that provided with a translucent material. The method according to claim 15,
The translucent material is a method of manufacturing a multipurpose soft intraocular lens bag characterized in that it has a colored or achromatic color.

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