KR100312659B1 - Syringe for lower retina - Google Patents

Abstract

PURPOSE: A syringe for lower retina is provided to move to a lesion of an ocular backside along a sclera with a needle installed, and let the needle protrude into the eyeball by an operator when reaching the lesion, thereby, not pass the front side of the eye, administering a cell or a drug easily to a lesion occurring in a backside of the eye or sampling the retina fluid or the blood. CONSTITUTION: The syringe for lower retina comprises a guide part(110) to move from the ocular front side to the ocular backside along ocular sclera in which a syringe needle(101) is movable, and a needle inserting groove having a protruding curvature is formed; a support(120) which is bonded to the rear end of the guide part(110) and has a length; and a delivery unit(130) which is injection-bonded to be movable up and down to the support(120) and of which the one side is bonded to a syringe unit(140) including the needle(101) to transfer the syringe needle(101) inside the guide part(110).

Description

Subretinal syringe

The present invention relates to a subretinal syringe, and in particular, a drug without an ocular incision in various diseases such as angiogenesis, bleeding, retinal pigmentation, subretinal fluid, and choroidal tumor, in which a major lesion exists in the lower part of the eye's retina. And it relates to a subretinal syringe for administering cells and the like, to remove the blood and the like from the abnormal site to be treated.

In general, the structure of the eye, as shown in Figure 1, serves as a protective film for protecting the eyeball and the window to reach the retina by refracting the light rays and the cornea (transparent portion occupies about 1/6 of the frontal surface of the eyeball ( 10), which is a white fiber tissue occupying the remaining 5/6 except for the cornea 10, the sclera 20 to maintain the shape of the eye, located on the rear of the cornea 10 to control the amount of light entering the eye Along with the iris 30 and the cornea 10, the primary refraction organ of the eye, the lens 40 corresponding to the lens of the camera, the ciliary body 50 supporting the lens 40, and detecting light entering the eye Retina 60 to perform the role of the camera film to deliver to the optic nerve 80 and the choroid (70) to supply the nutrition of the eye to the vascular tissue located between the sclera (20) and the retina (70) Etc.)

The eye thus constructed is where many diseases occur in proportion to the complexity of its composition. In particular, diseases such as age-related macular degeneration caused by the proliferation of neovascularization under the retina are the first cause of blindness in developed countries. Treatment methods used for diseases such as angiogenesis and bleeding that occur in the choroid 70 and the like located in the rear portion of the eye may be generally divided into methods by surgery including laser surgery and methods by medication.

In the surgical method, the surgeon partially cuts the surrounding tissues of the eye such as the sclera 20 and performs vitrectomy while viewing the state of the eye through the lens 40 using a fluoroscope and microscope (S). Incision of the retina and removal of subretinal abnormal tissue has been attempted. However, such a surgical method is known to have a high degree of difficulty and complications, and not a very good postoperative treatment effect.

Recently, a method of suppressing the proliferation of abnormal tissues generated in the choroid 70 or the like or removing abnormal tissues by drugs or the like has been attempted, but until now, the method of administering the drug to the back of the eye has to undergo almost the same procedure as surgical removal. It was possible. That is, as shown in Figure 2, because the specific structure of the eye needle 90 does not reach the rear of the eye without penetrating the inside of the eye, sclera 20 from the front of the eye to the rear of the eye, After penetrating the choroid 70 and the retina 60, the operator induces the syringe needle 90 to the abnormal site while observing the condition of the eye through the lens 40 using a device such as a microscope and an ophthalmoscope. A method of administering a drug or the like through the retina was used.

However, this drug administration method involves unnecessary vitrectomy because it penetrates the eye tissue from the front to reach the rear of the eye, and there is a risk of various kinds of damage to various tissues of the eye. There was a problem with the retinal incision, which may cause the drug injected under the retina to move into the vitreous cavity, causing unwanted intraocular toxicity.

The present invention has been invented to solve the above problems, the injection needle is built in the back of the eye is moved along the periphery of the sclera, the needle embedded by the operator protrudes into the eye when the abnormal site is reached Providing a device to provide a subretinal syringe to easily perform cell and drug administration or to collect subretinal fluid or blood without having to penetrate the front part of the eye to an abnormality occurring in the rear part of the eye. Its purpose is to.

1 is a partially cutaway perspective view of an eye for explaining the structure of the eye in general.

2 is a partial cutaway perspective view schematically illustrating a method of administering or removing a drug or a cell in a subretinal disease occurring in the posterior portion of the fundus.

Figure 3 is an exploded perspective view showing the structure of the subretinal syringe according to the present invention.

Figure 4 is a front view for showing the combined state of the subretinal syringe according to the present invention.

Figure 5a is a schematic diagram showing a state in which the subretinal syringe in accordance with the present invention is moved to the back of the eye along the periphery of the sclera.

Figure 5b is a schematic diagram showing the position between the needle and the retina after penetrating the sclera with the needle in a state in which the subretinal syringe moves according to the periphery of the sclera to the back of the eyeball.

<Description of the symbols for the main parts of the drawings>

10: cornea 20: sclera

30: iris 40: lens

50: ciliary 60: retina

70: choroid 100: treatment apparatus

101: needle 102: needle inlet groove

104: front end 106: rear end

110: guide portion 112: inside

114: outer 120: support

130: transfer device 140: injection device

The present invention for performing the above object,

A guide part movable in the needle and having a curvature in which the needle protrudes from the predetermined position, the guide part configured to move from the front part to the rear part of the eye along the periphery of the eye;

A support having a predetermined length coupled to the rear end of the guide part; And,

Fitted to be movable up and down on the support and one side is fixedly coupled to the injection device including the injection needle includes a transfer device for transferring the injection needle to the inside of the guide portion.

According to a preferred embodiment of the present invention, the inner radius of the guide portion has the same curvature as the sclera of the eyeball and the curvature of the needle inlet groove is configured such that the upper end is smaller than the curvature of the sclera and the lower end is larger than the curvature of the sclera.

With the injection needle embedded, it moves along the periphery of the sclera to the abnormal part of the back of the eye and protrudes the injection needle into the eye so that drug administration or blood collection can be easily performed without penetrating the front part of the eye.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 of the accompanying drawings shows an exploded perspective view for showing the structure of the subretinal syringe according to the present invention, Figure 4 shows a front view for showing the combined state of the subretinal syringe according to the present invention.

Subretinal syringe 100 according to the present invention may be made of a material harmless to the human body, such as metal and plastic materials. Looking at the configuration, as shown in Figure 3, the guide portion 110 formed with a needle inlet groove 102 to move the needle larger than the diameter of the needle 101 therein, the rear end of the guide portion 110 ( 106 is coupled to the support 120 to be movable up and down along the support 120 and the support 120 having a predetermined length, One side includes a transfer device 130 is fixedly coupled to the injection device 140 including the injection needle 101 to transfer the injection needle 101 by the operator's hand operation. The guide part 110 has a thickness of the front end part 104 and the rear end part 106 so as to easily move from the front part of the eyeball to the rear part of the eyeball along the periphery of the sclera 20 with the needle 101 embedded therein. Wider than its thickness. That is, the radius of the inner side 112 of the guide part 110 is configured to have the same curvature as the sclera 20, and the radius of the outer side 114 of the guide part 110 is configured to have a less curvature than the inner side 112. do.

In addition, the needle inlet groove 102 formed in the guide part 110 has a front end part inside the guide part 110 such that the needle may protrude at a position close to the front end part 104 of the guide part 110. It is configured to have a specific curvature from 104 to the rear end 106. That is, the upper end of the needle inlet groove 102 is configured to be smaller than the curvature of the sclera, and the lower end is configured to be larger than the curvature of the sclera.

Here, the guide portion 110 is configured to be symmetrical along the longitudinal direction of the needle inlet groove 102 as shown in Figure 4 so that the operator inserts the needle and fastening formed in the front end 104 and the rear end 106 The ball 116 may have a configuration in which the screw is coupled, but in another embodiment of the present invention, the needle may have an integrated configuration with the needle inserted.

In addition, the transfer device 130 may be configured to be connected to the device that can automatically transfer by receiving the air pressure or electric power that is the external power.

The detailed operation of the subretinal syringe according to the present invention configured as described above will be described with reference to FIGS. 5A and 5B.

Figure 5a of the accompanying drawings shows a schematic diagram for showing the state in which the subretinal syringe according to the invention moved along the periphery of the sclera to the back of the eye, Figure 5b is a periphery of the sclera in accordance with the present invention The schematic diagram for showing the operation of protruding the needle into the interior of the eye in the state moved to the rear portion of the eye along.

When an abnormal part occurs in the rear part of the eye and uses the treatment device 100 according to the present invention, the operator uses the fluoroscopy device (not shown) to check the state of the eye through the lens 40 as shown in FIG. 5A. While observing the support 120 of the treatment device 100, the guide 110 is slowly pushed from the front part of the eyeball to the rear part along the periphery of the sclera 20. At this time, the front end portion 104 of the guide portion 110 is thinner than the rear end portion 106 and the inside has the same curvature as the sclera 20, the guide portion 110 is a needle 101 It is easily moved from the front part of the eyeball to the rear part of the eyeball along the periphery of the sclera 20.

The operator who moved the guide part 110 to the rear part of the eye while observing the internal state of the eye through an ophthalmoscope (perspective instrument), as shown in FIG. 5B, when the abnormal part is reached, is inserted and coupled to the guide part 110. The device 130 is moved by hand to the bottom of the support 120. When the transfer device 130 is moved downward, the injection device 140 coupled to one side of the transfer device 130 is also moved to the bottom, and the needle 101 is a needle formed with a specific curvature inside the guide unit 110. It moves along the inlet groove 102 and protrudes toward the inside of the eye at a position close to the front end portion 104 of the guide portion 110. After confirming that the tip of the injection needle 101 is located under the mandibular through the ophthalmoscope, the operator administers the drug through the injection device 140 under the retina through an assistant or collects blood under the retina through the injection device 140. do.

Therefore, even if it does not penetrate the front part of the eyeball, the needle 101 protrudes from the rear part of the eyeball along the periphery of the sclera 20 and penetrates the sclera 20 of the eyeball back part so that the drug is administered to the abnormal part or at the abnormal part. We can collect blood.

As described above, the subretinal syringe according to the present invention has a configuration in which a needle having a needle inserted therein is moved to move to the abnormal region of the rear part of the eye along the periphery of the sclera to protrude the needle into the subretinal space. . It is effective in treating ophthalmic diseases because it can be easily administered drug or blood collection in the subretinal space without vitrectomy and retinal incision.

Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited thereto and may be improved or modified by those skilled in the art within the scope of the technical idea of the present invention.

Claims (6)

The needle 101 is movable and a needle inlet groove 102 having a curvature in which the needle 101 protrudes from a predetermined position is formed therein so that the front part of the eyeball is located along the periphery of the eye sclera 20. A guide part 110 configured to move up to a rear part; A support 120 coupled to the rear end 106 of the guide part 110 and having a predetermined length; And, The defect is inserted so as to be movable up and down on the support 120 and one side is fixedly coupled to the injection device 140 including the injection needle 101 to the injection needle 101 to the inside of the guide portion 110 by the operator. Subretinal syringe comprising a conveying device 130 for conveying. According to claim 1, wherein the guide portion 110 has a radius of curvature of the inner 112 similar to the sclera 20 of the eyeball, the curvature of the needle inlet groove 102 is higher than the curvature of the sclera 20 Small, the lower end portion is greater than the curvature of the sclera (20) when the needle protrudes from the lower end of the subretinal syringe, characterized in that to penetrate the sclera at acute angle to reach the subretinal. The subretinal syringe according to claim 1, wherein the guide part 110 is separated into two parts so as to correspond to each other based on a length direction of the needle retracting groove 102. The subretinal syringe according to claim 1, wherein the guide part (110) is integrally formed in a movable state of the injection device (140). The subretinal syringe of claim 1, wherein the subretinal syringe is made of a metal material harmless to the human body. The subretinal syringe of claim 1, wherein the subretinal syringe is made of a plastic material that is harmless to a human body.