KR20240001866A - Drainage device for intraocular pressure control using hollow fiber membrane - Google Patents

Abstract

In the treatment of glaucoma, an aqueous outflow device is provided that can drain aqueous humor from the anterior chamber into the outer space of the conjunctiva using a hollow fiber membrane.
This aqueous humor outflow device includes a T-shaped main tube having a first tube with one end disposed in front of the eye and the other end between the conjunctiva and sclera of the eye, and a second tube connected to a side of the first tube; an extended tube at one end connected to the second tube and at the other end exposed to the outside through the conjunctiva of the eye; and a filtration device including a hollow fiber membrane filtration unit for waterproof filtration and inserted into the other end of the first tube and detachably coupled thereto. The water flowing in from one end of the first tube is filtered by a filtration device and then discharged to the outside through the second tube and the expansion pipe.

Description

Drainage device for intraocular pressure control using hollow fiber membrane}

The present invention relates to an aqueous humor outflow device using a hollow fiber membrane as a device that allows aqueous humor to flow out from the anterior chamber to the outer space of the conjunctiva in the treatment of glaucoma.

Aqueous humor or aqueous humor refers to the transparent liquid that fills the area between the cornea and the iris of the eye (this is called the 'anterior') and between the iris and the lens (this is called the 'posterior') and has properties similar to lymph. . The aqueous humor serves to maintain pressure within the eye.

Meanwhile, glaucoma is a progressive optic neuropathy that causes abnormalities in the function of the optic nerve and causes visual field defects. The main cause of glaucoma is damage to the optic nerve due to increased intraocular pressure. Intraocular pressure refers to the pressure of the eye (eyeball), and is mainly determined by the balance of aqueous humor circulation. Aqueous humor is produced little by little every day in the ciliary body behind the iris, and the amount produced is discharged out of the eye through circulation. If too much aqueous humor is produced or circulation flow is disrupted and discharge is reduced, the pressure inside the eye rises. Through this process, intraocular pressure rises, causing glaucoma. If this increase in intraocular pressure continues, permanent vision loss may occur. Additionally, in cases where the optic nerve is weak, damage to the optic nerve due to pressure may occur even within the normal range of intraocular pressure, resulting in glaucoma.

Since glaucoma disease begins with damage to the optic nerve, it is difficult to restore already damaged areas, so the goal of all treatments is to prevent further damage. Treatment to lower intraocular pressure with drugs is usually performed first, but if intraocular pressure is not controlled even with the use of various drugs or drugs cannot be used due to side effects from drugs, surgical treatments such as trabeculectomy and aqueous outflow device insertion are applied. . Although their surgical methods are different, it is essentially a surgery that creates a passage for the aqueous humor to drain into the subconjunctival space. Both surgeries have risks associated with the surgery, such as intraocular hemorrhage and choroidal hemorrhage. Even if the surgery is successful, scleral adhesion or fibrosis of the subconjunctival tissue occurs over time, preventing aqueous humor from flowing smoothly, causing intraocular pressure to rise again. It often rises. Recently, methods of draining aqueous humor into the subconjunctival space using fine tubes have been developed to simplify surgery and increase surgical safety. However, these methods also have the problem of re-increasing intraocular pressure due to fibrosis of the subconjunctival tissue over time. In glaucoma that is not controlled by drug treatment and optic nerve damage progresses, if intraocular pressure fails to be controlled due to conjunctival fibrosis despite repeated surgeries, the patient may suffer blindness.

The problem to be solved by the present invention is to provide an aqueous humor outflow device that can maintain low intraocular pressure by stably flowing out aqueous humor without being affected by fibrosis of the conjunctiva.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned can be clearly understood by those skilled in the art from the description below. will be.

An aqueous humor outflow device for controlling intraocular pressure according to an embodiment of the present invention for achieving the above object includes a first tube, one end of which is disposed in front of the eye, and the other end of which is disposed between the conjunctiva and sclera of the eye, and the first tube. a T-shaped main tube with a second tube connected to the side; an extension tube at one end connected to the second tube and at the other end exposed to the outside through the conjunctiva of the eye; and a filtration device including a hollow fiber membrane filtration unit for waterproof filtration and inserted into the other end of the first tube and detachably coupled thereto. The water flowing in from one end of the first tube is filtered by the filtration device and then discharged to the outside through the second tube and the expansion pipe.

An annular locking portion may be formed along the outer circumference of the side of the first tube, and at least a portion of the locking portion may increase in thickness from one end to the other end of the first tube.

It has a width smaller than the inner diameter of the first tube, is disposed within the first tube, and may further include a flow rate adjuster that adjusts the flow rate of body fluid passing through the first tube.

A first fixing part penetrating the first tube at one side of the flow rate control unit; And it may further include a second fixing part penetrating the first tube on the other side of the flow rate control unit.

The filtration device includes a tubular hollow fiber membrane filtration unit; A cap portion formed at one end of the hollow fiber membrane filtration unit; And it may include a base part coupled to the other end of the hollow fiber membrane filtration unit and provided with a connection hole for discharging the waterproof water flowing into the hollow fiber membrane filtration unit to the second tube.

Details of other embodiments are included in the detailed description and drawings.

As described above, according to the aqueous humor outflow device according to the present invention, since the other end of the expanded tube is exposed to the outside through the conjunctiva of the eye, aqueous humor can directly flow out to the outside. Therefore, the possibility of aqueous humor outflow being blocked by conjunctival fibrosis can be prevented in advance.

If the performance of the waterproof outflow device has deteriorated, there is no need to replace the entire device. It is sufficient to pull out and remove only the filtration device from the T-type main pipe and replace it with a new filtration device. The annular locking portion formed on the side of the first tube may serve as a locking protrusion that prevents the first tube from leaving the sclera.

The hollow fiber membrane filtration unit is a tubular filter with holes of approximately 0.01 um to 0.5 um, so that it can prevent bacteria or viruses from penetrating into the eye even if it allows water to pass through.

The flow rate controller may partially block the inside of the first tube to control the flow rate of body fluid passing through the first tube. For example, the flow control unit can minimize the influx of red blood cells, etc., that occurs during surgery. In addition, when replacement surgery is performed due to a decrease in the performance of the hollow fiber membrane filtration unit, the flow rate control unit can prevent excessive outflow of aqueous humor during the surgery.

Figure 1 is a cross-sectional view showing an eye treated with an aqueous humor outflow device according to a first embodiment of the present invention.
Figure 2 is an enlarged view of the water discharge device of Figure 1.
Figure 3 is a view showing the aqueous humor outflow device of Figure 1 as seen from the front of the eye.
Figure 4 is a perspective view showing a waterproof outflow device according to the first embodiment of the present invention.
Figure 5 is an exploded perspective view of the water discharge device of Figure 4.
Figure 6 is a cross-sectional view of the waterproof discharge device of Figure 4 taken along line AA'.
Figure 7 is a cross-sectional view showing a waterproof outflow device according to a second embodiment of the present invention.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and will be implemented in various different forms. The present embodiments only serve to ensure that the disclosure of the present invention is complete and that common knowledge in the technical field to which the present invention pertains is not limited. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, the water discharge device according to the first embodiment of the present invention will be described in detail with reference to FIGS. 1 to 6. Figure 1 is a cross-sectional view showing an eye treated with an aqueous humor outflow device according to a first embodiment of the present invention. Figure 2 is an enlarged view of the water discharge device of Figure 1. Figure 3 is a view showing the aqueous humor outflow device of Figure 1 as seen from the front of the eye. Figure 4 is a perspective view showing a waterproof outflow device according to a first embodiment of the present invention. Figure 5 is an exploded perspective view of the water discharge device of Figure 4. Figure 6 is a cross-sectional view of the waterproof discharge device of Figure 4 taken along line AA'.

The aqueous humor outflow device 200 according to the first embodiment of the present invention is a device for controlling intraocular pressure for the treatment of glaucoma, and includes a main tube 210, an expansion tube 250, and a filtration device 230.

The main pipe portion 210 is entirely made of a T-shaped pipe or cylinder. The main pipe portion 210 includes a first tube 212 and a second tube 214 connected to a side of the first tube 212. One end of the first tube 212 is disposed in the front 25 of the eyeball 100, and the other end of the first tube 212 is disposed between the conjunctiva 30 and the sclera 10 of the eyeball 100.

A first opening 221 is formed at one end of the first tube 212, and a second opening 222 is formed at the other end of the first tube 212. Since the first opening 221 is disposed in the front 25 of the eye 100, the aqueous humor 60 in the front 25 flows into the aqueous humor outflow device 200 through the first opening 221. Since the other end of the first tube 212, that is, the second opening 222, is blocked by the filtration device 230, the water flowing in through the first opening 221 flows into the second tube via the filtration device 230. Go to (214). In this embodiment, the case in which the first tube 212 is composed of one pipe is taken as an example, but the present invention is not limited to this and a plurality of pipes may be connected to each other to form the first tube.

An annular locking portion 215 is formed along the outer circumference of the first tube 212 on the side or outer surface. The locking portion 215 or at least a portion of the locking portion 215 may be formed in a shape where the thickness increases from one end of the first tube 212 to the other end. Due to the shape of this locking portion 215, the first tube 212 can be easily inserted into the eye 100 during surgery, but after some time has elapsed after surgery, the first tube 212 located in the sclera 10 It is not easy to take it out. The catching portion 215 serves to prevent the first tube 212 from being separated from the sclera 10 and to prevent aqueous humor from leaking around the first tube 212 at the beginning of surgery.

The expansion tube 250 is connected to the second tube 214 of the main tube 210. Specifically, one end of the expansion tube 250 is connected to the second tube 214, and the other end of the expansion tube 250 is exposed to the outside through the conjunctiva 30 of the eyeball 100. In this embodiment, the second tube 214 and the expansion tube 250 are described as separate configurations, but the present invention is not limited thereto. That is, the second tube 214 and the expansion tube 250 may be made of the same material as one piece.

The main tube 210 and the expansion tube 250 are preferably made of a material that is safe for the human body, maintains its shape well, and has flexible characteristics so that it bends well according to the curvature of the eye. The main pipe portion 210, the expanded pipe portion 250, and the catching portion 215 may be made of substantially the same material. For example, the main tube 210, the expansion tube 250, and the locking part 215 may be made of silicone, collagen gel, poly(methyl methacrylate), or poly(styrene-block-isobutylene-block-styrene). . The outer diameter of the main pipe 210 may be, for example, 0.15 to 0.7 mm, and the inner diameter of the main pipe 210 may be, for example, 0.1 to 0.4 mm.

A flow rate controller 240 that controls the flow rate of body fluid passing through the first tube 212 is disposed within the first tube 212. It may be disposed at one end of the first tube 212 of the flow rate controller 240 or at a portion adjacent to the first opening 221. The flow rate controller 240 may have a width smaller than the inner diameter of the first tube 212. The flow rate controller 240 may be made of, for example, prolene suture, stainless steel, or polypropylene.

A first fixing part 241 penetrating the first tube 212 is formed on one side of the flow adjusting unit 240, and a second fixing part 241 penetrating the first tube 212 is formed on the other side of the flow adjusting unit 240. A top 242 is formed, and the flow rate adjusting part 240 is fixedly disposed within the first tube 212. For example, the first fixing part 241 and the second fixing part 242 may be made of prolene thread or the like. After inserting the flow rate control unit 240 into the first tube 212, the first fixing part 241 is inserted into the pair of first fixing holes 224 formed on the side of the first tube 212 and opened. It can be fixed to the first tube 212 by applying. Next, the second fixing part 242 can be inserted into the pair of second fixing holes 225 formed on the side of the first tube 212 and fixed to the first tube 212 by applying heat.

The filtration device 230 is inserted through the other end of the first tube 212 or the second opening 222 and is removably fitted. The filtration device 230 includes a hollow fiber membrane filtration unit 232 for waterproof filtration, a cap part 234 formed on one end of the hollow fiber membrane filtration unit 232, and a base unit coupled to the other end of the hollow fiber membrane filtration unit 232. Includes (236).

The hollow fiber membrane filtration unit 232 is an overall tubular filter with numerous micropores of 0.01 to 0.5 um in size formed on the surface of the membrane, allowing water to pass through while preventing bacteria or viruses from penetrating into the eye. The hollow fiber membrane filtration unit 232 may be made of, for example, polyether sulfone (PES), polytetrafluoroethylene (PTFE), or polyvinylidene difluoride (PVDF).

The cap portion 234 serves to block one end of the hollow fiber membrane filtration portion 232 and may be made of, for example, a potting material. The potting material may be made of thermosetting resin, for example, epoxy resin, urethane resin, silicone, etc.

The base part 236 is coupled to the other end of the hollow fiber membrane filtration unit 232 and has a connection hole 238 for discharging the water 60 flowing into the hollow fiber membrane filtration unit 232 to the second tube 214. . The base portion 236 has an overall cylindrical shape, one end of the base portion 236 is inserted and coupled to the hollow fiber membrane filtration portion 232, and the other end of the base portion 236 is sealed or closed. A connection hole 238 passing through the second tube 214 is formed on the side of the base portion 236. When periodically replacing the filtration device 230 in the waterproof outflow device 200, the first tube 212 is made of a soft material in consideration of convenience of replacement, and the base portion 236 of the filtration device 230 is It is preferably made of a hard material. The base portion 236 is made of a hard material and is tightly coupled to the first tube 212, but can be bent according to the curvature of the eye. For example, the base portion 236 may be made of PVC, PMMA, flexible stainless steel, etc. Therefore, when replacing the filtration device 230, the operator can remove the filtration device 230 by pulling the base portion 236 outward from the first tube 212.

In this way, the waterproofing 60 flowing in through one end of the first tube 212, that is, the first opening 221, is filtered by the filtration device 230 and then passes through the second tube 214 and the expansion pipe 250. is discharged to the outside.

Reference numeral 20, which is not explained in FIG. 1, represents the cornea, 40 represents the lens, and 50 represents the iris.

Hereinafter, a water discharge device according to a second embodiment of the present invention will be described in detail with reference to FIG. 7. Figure 7 is a cross-sectional view showing a waterproof outflow device according to a second embodiment of the present invention. For convenience of explanation, members having the same function as each member shown in the drawings (FIGS. 1 to 6) of the first embodiment are denoted by the same symbols and their descriptions are omitted, and the differences will be mainly explained below. The filtration device 330 of the waterproof discharge device 300 according to this embodiment is substantially the same as the filtration device 230 of the previous embodiment except for the following.

The base part 336 is coupled to the other end of the hollow fiber membrane filtration unit 232 and has a connection hole 238 for discharging the water 60 flowing into the hollow fiber membrane filtration unit 232 to the second tube 214. . The base portion 336 has an overall cylinder shape, and the hollow fiber membrane filtration portion 232 is inserted and coupled to one end of the base portion 336, and the other end of the base portion 336 is sealed or closed. A connection hole 238 passing through the second tube 214 is formed on the side of the base portion 336. When periodically replacing the filtration device 330 in the waterproof outflow device 300, the first tube 212 is made of a soft material in consideration of convenience of replacement, and the base portion 336 of the filtration device 330 is It is preferably made of a hard material. The base portion 336 is made of a hard material and is tightly coupled to the first tube 212, but can be bent according to the curvature of the eye. For example, it may be made of PVC, PMMA, flexible stainless steel, etc.

Although embodiments of the present invention have been described above with reference to the attached drawings, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical idea or essential features. You will be able to understand it. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive.

10: sclera
20: cornea
25: front
30: conjunctiva
40: Lens
50: Iris
60: waterproof
100: eyeball
200, 300: Waterproof outflow device
210: Main tube
212: first tube
214: second tube
215: catching part
221: first opening
222: second opening
223: third opening
224: First fixing hole
225: Second fixing hole
230, 330: Filtration device
232: Hollow fiber membrane filtration unit
234: Cap part
236, 336: base part
238: connector
240: Flow control unit
241: first fixing part
242: second fixing part
250: extended crown

Claims (5)

As a water outflow device for controlling intraocular pressure,
A T-shaped main tube having a first tube, one end of which is disposed in front of the eye and the other end of which is disposed between the conjunctiva and sclera of the eye, and a second tube connected to a side of the first tube;
an extension tube at one end connected to the second tube and at the other end exposed to the outside through the conjunctiva of the eye; and
It has a hollow fiber membrane filtration unit for waterproof filtration and includes a filtration device inserted into the other end of the first tube and detachably fitted,
A water discharge device, characterized in that the water flowing in from one end of the first tube is filtered in the filtration device and then discharged to the outside through the second tube and the expansion pipe. According to paragraph 1,
A waterproof outflow device wherein an annular locking portion is formed along the outer circumference of the side of the first tube, and at least a portion of the locking portion increases in thickness from one end to the other end of the first tube. According to paragraph 1,
The waterproof outflow device further includes a flow rate controller that has a width smaller than the inner diameter of the first tube, is disposed within the first tube, and controls a flow rate of body fluid passing through the first tube. According to paragraph 3,
A first fixing part penetrating the first tube at one side of the flow rate control unit; and a second fixing part penetrating the first tube on the other side of the flow rate control unit. According to paragraph 1,
The filtration device includes a tubular hollow fiber membrane filtration unit; A cap portion formed at one end of the hollow fiber membrane filtration unit; and a base part coupled to the other end of the hollow fiber membrane filtration unit and having a connection hole for discharging the waterproof water flowing into the hollow fiber membrane filtration unit into the second tube.

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